-
1
-
-
84893062326
-
The plant science decadal vision
-
Martin C. The plant science decadal vision. Plant Cell 2013, 25:4773-4774.
-
(2013)
Plant Cell
, vol.25
, pp. 4773-4774
-
-
Martin, C.1
-
2
-
-
80054981256
-
Solutions for a cultivated planet
-
Foley J.A., Ramankutty N., Brauman K.A., Cassidy E.S., Gerber J.S., Johnston M., Mueller N.D., O'Connell C., Ray D.K., West P.C., Balzer C., Bennett E.M., Carpenter S.R., Hill J., Monfreda C., Polasky S., Rockstrom J., Sheehan J., Siebert S., Tilman D., Zaks D.P.M. Solutions for a cultivated planet. Nature 2011, 478:337-342.
-
(2011)
Nature
, vol.478
, pp. 337-342
-
-
Foley, J.A.1
Ramankutty, N.2
Brauman, K.A.3
Cassidy, E.S.4
Gerber, J.S.5
Johnston, M.6
Mueller, N.D.7
O'Connell, C.8
Ray, D.K.9
West, P.C.10
Balzer, C.11
Bennett, E.M.12
Carpenter, S.R.13
Hill, J.14
Monfreda, C.15
Polasky, S.16
Rockstrom, J.17
Sheehan, J.18
Siebert, S.19
Tilman, D.20
Zaks, D.P.M.21
more..
-
3
-
-
76749143781
-
Food security: the challenge of feeding 9 billion people
-
Godfray H.C.J., Beddington J.R., Crute I.R., Haddad L., Lawrence D., Muir J.F., Pretty J., Robinson S., Thomas S.M., Toulmin C. Food security: the challenge of feeding 9 billion people. Science 2010, 327:812-818.
-
(2010)
Science
, vol.327
, pp. 812-818
-
-
Godfray, H.C.J.1
Beddington, J.R.2
Crute, I.R.3
Haddad, L.4
Lawrence, D.5
Muir, J.F.6
Pretty, J.7
Robinson, S.8
Thomas, S.M.9
Toulmin, C.10
-
4
-
-
84857518353
-
From forest to field: perennial fruit crop domestication
-
Miller A.J., Gross B.L. From forest to field: perennial fruit crop domestication. Am. J. Bot. 2011, 98:1389-1414.
-
(2011)
Am. J. Bot.
, vol.98
, pp. 1389-1414
-
-
Miller, A.J.1
Gross, B.L.2
-
5
-
-
34249004733
-
The use of wild relatives in crop improvement: a survey of developments over the last 20 years
-
Hajjar R., Hodgkin T. The use of wild relatives in crop improvement: a survey of developments over the last 20 years. Euphytica 2007, 156:1-13.
-
(2007)
Euphytica
, vol.156
, pp. 1-13
-
-
Hajjar, R.1
Hodgkin, T.2
-
6
-
-
84884338331
-
A prioritized crop wild relative inventory to help underpin global food security
-
Vincent H., Wiersema J., Kell S., Fielder H., Dobbie S., Castaneda-Alvarez N.P., Guarino L., Eastwood R., Leon B., Maxted N. A prioritized crop wild relative inventory to help underpin global food security. Biol. Conserv. 2013, 167:265-275.
-
(2013)
Biol. Conserv.
, vol.167
, pp. 265-275
-
-
Vincent, H.1
Wiersema, J.2
Kell, S.3
Fielder, H.4
Dobbie, S.5
Castaneda-Alvarez, N.P.6
Guarino, L.7
Eastwood, R.8
Leon, B.9
Maxted, N.10
-
8
-
-
0034649566
-
Analysis of the genome sequence of the flowering plant Arabidopsis thaliana
-
Kaul S., Koo H.L., Jenkins J., Rizzo M., Rooney T., Tallon L.J., Feldblyum T., Nierman W., Benito M.I., Lin X.Y., Town C.D., Venter J.C., Fraser C.M., Tabata S., Nakamura Y., Kaneko T., Sato S., Asamizu E., Kato T., Kotani H., Sasamoto S., Ecker J.R., Theologis A., Federspiel N.A., Palm C.J., Osborne B.I., Shinn P., Conway A.B., Vysotskaia V.S., Dewar K., Conn L., Lenz C.A., Kim C.J., Hansen N.F., Liu S.X., Buehler E., Altafi H., Sakano H., Dunn P., Lam B., Pham P.K., Chao Q., Nguyen M., Yu G.X., Chen H.M., Southwick A., Lee J.M., Miranda M., Toriumi M.J., Davis R.W., Wambutt R., Murphy G., Dusterhoft A., Stiekema W., Pohl T., Entian K.D., Terryn N., Volckaert G., Salanoubat M., Choisne N., Rieger M., Ansorge W., Unseld M., Fartmann B., Valle G., Artiguenave F., Weissenbach J., Quetier F., Wilson R.K., de la Bastide M., Sekhon M., Huang E., Spiegel L., Gnoj L., Pepin K., Murray J., Johnson D., Habermann K., Dedhia N., Parnell L., Preston R., Hillier L., Chen E., Marra M., Martienssen R., McCombie W.R., Mayer K., White O., Bevan M., Lemcke K., Creasy T.H., Bielke C., Haas B., Haase D., Maiti R., Rudd S., Peterson J., Schoof H., Frishman D., Morgenstern B., Zaccaria P., Ermolaeva M., Pertea M., Quackenbush J., Volfovsky N., Wu D.Y., Lowe T.M., Salzberg S.L., Mewes H.W., Rounsley S., Bush D., Subramaniam S., Levin I., Norris S., Schmidt R., Acarkan A., Bancroft I., Quetier F., Brennicke A., Eisen J.A., Bureau T., Legault B.A., Le Q.H., Agrawal N., Yu Z., Martienssen R., Copenhaver G.P., Luo S., Pikaard C.S., Preuss D., Paulsen I.T., Sussman M., Britt A.B., Selinger D.A., Pandey R., Mount D.W., Chandler V.L., Jorgensen R.A., Pikaard C., Juergens G., Meyerowitz E.M., Theologis A., Dangl J., Jones J.D.G., Chen M., Chory J., Somerville M.C., In A.G. Analysis of the genome sequence of the flowering plant Arabidopsis thaliana. Nature 2000, 408:796-815.
-
(2000)
Nature
, vol.408
, pp. 796-815
-
-
Kaul, S.1
Koo, H.L.2
Jenkins, J.3
Rizzo, M.4
Rooney, T.5
Tallon, L.J.6
Feldblyum, T.7
Nierman, W.8
Benito, M.I.9
Lin, X.Y.10
Town, C.D.11
Venter, J.C.12
Fraser, C.M.13
Tabata, S.14
Nakamura, Y.15
Kaneko, T.16
Sato, S.17
Asamizu, E.18
Kato, T.19
Kotani, H.20
Sasamoto, S.21
Ecker, J.R.22
Theologis, A.23
Federspiel, N.A.24
Palm, C.J.25
Osborne, B.I.26
Shinn, P.27
Conway, A.B.28
Vysotskaia, V.S.29
Dewar, K.30
Conn, L.31
Lenz, C.A.32
Kim, C.J.33
Hansen, N.F.34
Liu, S.X.35
Buehler, E.36
Altafi, H.37
Sakano, H.38
Dunn, P.39
Lam, B.40
Pham, P.K.41
Chao, Q.42
Nguyen, M.43
Yu, G.X.44
Chen, H.M.45
Southwick, A.46
Lee, J.M.47
Miranda, M.48
Toriumi, M.J.49
Davis, R.W.50
Wambutt, R.51
Murphy, G.52
Dusterhoft, A.53
Stiekema, W.54
Pohl, T.55
Entian, K.D.56
Terryn, N.57
Volckaert, G.58
Salanoubat, M.59
Choisne, N.60
Rieger, M.61
Ansorge, W.62
Unseld, M.63
Fartmann, B.64
Valle, G.65
Artiguenave, F.66
Weissenbach, J.67
Quetier, F.68
Wilson, R.K.69
de la Bastide, M.70
Sekhon, M.71
Huang, E.72
Spiegel, L.73
Gnoj, L.74
Pepin, K.75
Murray, J.76
Johnson, D.77
Habermann, K.78
Dedhia, N.79
Parnell, L.80
Preston, R.81
Hillier, L.82
Chen, E.83
Marra, M.84
Martienssen, R.85
McCombie, W.R.86
Mayer, K.87
White, O.88
Bevan, M.89
Lemcke, K.90
Creasy, T.H.91
Bielke, C.92
Haas, B.93
Haase, D.94
Maiti, R.95
Rudd, S.96
Peterson, J.97
Schoof, H.98
Frishman, D.99
more..
-
9
-
-
84923025665
-
Progress, challenges and the future of crop genomes
-
Michael T.P., VanBuren R. Progress, challenges and the future of crop genomes. Curr. Opin. Plant Biol. 2015, 24:71-81.
-
(2015)
Curr. Opin. Plant Biol.
, vol.24
, pp. 71-81
-
-
Michael, T.P.1
VanBuren, R.2
-
10
-
-
84946041374
-
The Genomes OnLine Database (GOLD) v.5: a metadata management system based on a four level (meta)genome project classification
-
Reddy T.B.K., Thomas A.D., Stamatis D., Bertsch J., Isbandi M., Jansson J., Mallajosyula J., Pagani I., Lobos E.A., Kyrpides N.C. The Genomes OnLine Database (GOLD) v.5: a metadata management system based on a four level (meta)genome project classification. Nucleic Acids Res. 2014, 43:D1099-D1106.
-
(2014)
Nucleic Acids Res.
, vol.43
, pp. D1099-D1106
-
-
Reddy, T.B.K.1
Thomas, A.D.2
Stamatis, D.3
Bertsch, J.4
Isbandi, M.5
Jansson, J.6
Mallajosyula, J.7
Pagani, I.8
Lobos, E.A.9
Kyrpides, N.C.10
-
11
-
-
84871962223
-
The draft genome of sweet orange (Citrus sinensis)
-
Xu Q., Chen L.L., Ruan X.A., Chen D.J., Zhu A.D., Chen C.L., Bertrand D., Jiao W.B., Hao B.H., Lyon M.P., Chen J.J., Gao S., Xing F., Lan H., Chang J.W., Ge X.H., Lei Y., Hu Q., Miao Y., Wang L., Xiao S.X., Biswas M.K., Zeng W.F., Guo F., Cao H.B., Yang X.M., Xu X.W., Cheng Y.J., Xu J., Liu J.H., Luo O.J., Tang Z.H., Guo W.W., Kuang H.H., Zhang H.Y., Roose M.L., Nagarajan N., Deng X.X., Ruan Y.J. The draft genome of sweet orange (Citrus sinensis). Nat. Genet. 2013, 45:U59-U92.
-
(2013)
Nat. Genet.
, vol.45
, pp. U59-U92
-
-
Xu, Q.1
Chen, L.L.2
Ruan, X.A.3
Chen, D.J.4
Zhu, A.D.5
Chen, C.L.6
Bertrand, D.7
Jiao, W.B.8
Hao, B.H.9
Lyon, M.P.10
Chen, J.J.11
Gao, S.12
Xing, F.13
Lan, H.14
Chang, J.W.15
Ge, X.H.16
Lei, Y.17
Hu, Q.18
Miao, Y.19
Wang, L.20
Xiao, S.X.21
Biswas, M.K.22
Zeng, W.F.23
Guo, F.24
Cao, H.B.25
Yang, X.M.26
Xu, X.W.27
Cheng, Y.J.28
Xu, J.29
Liu, J.H.30
Luo, O.J.31
Tang, Z.H.32
Guo, W.W.33
Kuang, H.H.34
Zhang, H.Y.35
Roose, M.L.36
Nagarajan, N.37
Deng, X.X.38
Ruan, Y.J.39
more..
-
12
-
-
84909581981
-
Iwgsc, a chromosome-based draft sequence of the hexaploid bread wheat (Triticum aestivum) genome
-
Mayer K.F.X., Rogers J., Dolezel J., Pozniak C., Eversole K., Feuillet C., Gill B., Friebe B., Lukaszewski A.J., Sourdille P., Endo T.R., Dolezel J., Kubalakova M., Cihalikova J., Dubska Z., Vrana J., Sperkova R., Simkova H., Rogers J., Febrer M., Clissold L., McLay K., Singh K., Chhuneja P., Singh N.K., Khurana J., Akhunov E., Choulet F., Sourdille P., Feuillet C., Alberti A., Barbe V., Wincker P., Kanamori H., Kobayashi F., Itoh T., Matsumoto T., Sakai H., Tanaka T., Wu J.Z., Ogihara Y., Handa H., Pozniak C., Maclachlan P.R., Sharpe A., Klassen D., Edwards D., Batley J., Olsen O.A., Sandve S.R., Lien S., Steuernagel B., Wulff B., Caccamo M., Ayling S., Ramirez-Gonzalez R.H., Clavijo B.J., Steuernagel B., Wright J., Pfeifer M., Spannagl M., Mayer K.F.X., Martis M.M., Akhunov E., Choulet F., Mayer K.F.X., Mascher M., Chapman J., Poland J.A., Scholz U., Barry K., Waugh R., Rokhsar D.S., Muehlbauer G.J., Stein N., Gundlach H., Zytnicki M., Jamilloux V., Quesneville H., Wicker T., Mayer K.F.X., Faccioli P., Colaiacovo M., Pfeifer M., Stanca A.M., Budak H., Cattivelli L., Glover N., Martis M.M., Choulet F., Feuillet C., Mayer K.F.X., Pfeifer M., Pingault L., Mayer K.F.X., Paux E., Spannagl M., Sharma S., Mayer K.F.X., Pozniak C., Appels R., Bellgard M., Chapman B., Pfeifer M., Pfeifer M., Sandve S.R., Nussbaumer T., Bader K.C., Choulet F., Feuillet C., Mayer K.F.X., Akhunov E., Paux E., Rimbert H., Wang S.C., Poland J.A., Knox R., Kilian A., Pozniak C., Alaux M., Alfama F., Couderc L., Jamilloux V., Guilhot N., Viseux C., Loaec M., Quesneville H., Rogers J., Dolezel J., Eversole K., Feuillet C., Keller B., Mayer K.F.X., Olsen O.A., Praud S. Iwgsc, a chromosome-based draft sequence of the hexaploid bread wheat (Triticum aestivum) genome. Science 2014, 345.
-
(2014)
Science
, vol.345
-
-
Mayer, K.F.X.1
Rogers, J.2
Dolezel, J.3
Pozniak, C.4
Eversole, K.5
Feuillet, C.6
Gill, B.7
Friebe, B.8
Lukaszewski, A.J.9
Sourdille, P.10
Endo, T.R.11
Dolezel, J.12
Kubalakova, M.13
Cihalikova, J.14
Dubska, Z.15
Vrana, J.16
Sperkova, R.17
Simkova, H.18
Rogers, J.19
Febrer, M.20
Clissold, L.21
McLay, K.22
Singh, K.23
Chhuneja, P.24
Singh, N.K.25
Khurana, J.26
Akhunov, E.27
Choulet, F.28
Sourdille, P.29
Feuillet, C.30
Alberti, A.31
Barbe, V.32
Wincker, P.33
Kanamori, H.34
Kobayashi, F.35
Itoh, T.36
Matsumoto, T.37
Sakai, H.38
Tanaka, T.39
Wu, J.Z.40
Ogihara, Y.41
Handa, H.42
Pozniak, C.43
Maclachlan, P.R.44
Sharpe, A.45
Klassen, D.46
Edwards, D.47
Batley, J.48
Olsen, O.A.49
Sandve, S.R.50
Lien, S.51
Steuernagel, B.52
Wulff, B.53
Caccamo, M.54
Ayling, S.55
Ramirez-Gonzalez, R.H.56
Clavijo, B.J.57
Steuernagel, B.58
Wright, J.59
Pfeifer, M.60
Spannagl, M.61
Mayer, K.F.X.62
Martis, M.M.63
Akhunov, E.64
Choulet, F.65
Mayer, K.F.X.66
Mascher, M.67
Chapman, J.68
Poland, J.A.69
Scholz, U.70
Barry, K.71
Waugh, R.72
Rokhsar, D.S.73
Muehlbauer, G.J.74
Stein, N.75
Gundlach, H.76
Zytnicki, M.77
Jamilloux, V.78
Quesneville, H.79
Wicker, T.80
Mayer, K.F.X.81
Faccioli, P.82
Colaiacovo, M.83
Pfeifer, M.84
Stanca, A.M.85
Budak, H.86
Cattivelli, L.87
Glover, N.88
Martis, M.M.89
Choulet, F.90
Feuillet, C.91
Mayer, K.F.X.92
Pfeifer, M.93
Pingault, L.94
Mayer, K.F.X.95
Paux, E.96
Spannagl, M.97
Sharma, S.98
Mayer, K.F.X.99
more..
-
13
-
-
84895880054
-
Genome sequence of the hot pepper provides insights into the evolution of pungency in Capsicum species
-
Kim S., Park M., Yeom S.I., Kim Y.M., Lee J.M., Lee H.A., Seo E., Choi J., Cheong K., Kim K.T., Jung K., Lee G.W., Oh S.K., Bae C., Kim S.B., Lee H.Y., Kim S.Y., Kim M.S., Kang B.C., Jo Y.D., Yang H.B., Jeong H.J., Kang W.H., Kwon J.K., Shin C., Lim J.Y., Park J.H., Huh J.H., Kim J.S., Kim B.D., Cohen O., Paran I., Suh M.C., Lee S.B., Kim Y.K., Shin Y., Noh S.J., Park J., Seo Y.S., Kwon S.Y., Kim H.A., Park J.M., Kim H.J., Choi S.B., Bosland P.W., Reeves G., Jo S.H., Lee B.W., Cho H.T., Choi H.S., Lee M.S., Yu Y., Do Choi Y., Park B.S., van Deynze A., Ashrafi H., Hill T., Kim W.T., Pai H.S., Ahn H.K., Yeam I., Giovannoni J.J., Rose J.K.C., Sorensen I., Lee S.J., Kim R.W., Choi I.Y., Choi B.S., Lim J.S., Lee Y.H., Choi D. Genome sequence of the hot pepper provides insights into the evolution of pungency in Capsicum species. Nat. Genet. 2014, 46:270.
-
(2014)
Nat. Genet.
, vol.46
, pp. 270
-
-
Kim, S.1
Park, M.2
Yeom, S.I.3
Kim, Y.M.4
Lee, J.M.5
Lee, H.A.6
Seo, E.7
Choi, J.8
Cheong, K.9
Kim, K.T.10
Jung, K.11
Lee, G.W.12
Oh, S.K.13
Bae, C.14
Kim, S.B.15
Lee, H.Y.16
Kim, S.Y.17
Kim, M.S.18
Kang, B.C.19
Jo, Y.D.20
Yang, H.B.21
Jeong, H.J.22
Kang, W.H.23
Kwon, J.K.24
Shin, C.25
Lim, J.Y.26
Park, J.H.27
Huh, J.H.28
Kim, J.S.29
Kim, B.D.30
Cohen, O.31
Paran, I.32
Suh, M.C.33
Lee, S.B.34
Kim, Y.K.35
Shin, Y.36
Noh, S.J.37
Park, J.38
Seo, Y.S.39
Kwon, S.Y.40
Kim, H.A.41
Park, J.M.42
Kim, H.J.43
Choi, S.B.44
Bosland, P.W.45
Reeves, G.46
Jo, S.H.47
Lee, B.W.48
Cho, H.T.49
Choi, H.S.50
Lee, M.S.51
Yu, Y.52
Do Choi, Y.53
Park, B.S.54
van Deynze, A.55
Ashrafi, H.56
Hill, T.57
Kim, W.T.58
Pai, H.S.59
Ahn, H.K.60
Yeam, I.61
Giovannoni, J.J.62
Rose, J.K.C.63
Sorensen, I.64
Lee, S.J.65
Kim, R.W.66
Choi, I.Y.67
Choi, B.S.68
Lim, J.S.69
Lee, Y.H.70
Choi, D.71
more..
-
14
-
-
84898022114
-
Whole-genome sequencing of cultivated and wild peppers provides insights into Capsicum domestication and specialization
-
Qin C., Yu C.S., Shen Y.O., Fang X.D., Chen L., Min J.M., Cheng J.W., Zhao S.C., Xu M., Luo Y., Yang Y.L., Wu Z.M., Mao L.K., Wu H.Y., Ling-Hu C.Y., Zhou H.K., Lin H.J., Gonzalez-Morales S., Trejo-Saavedra D.L., Tian H., Tang X., Zhao M.J., Huang Z.Y., Zhou A.W., Yao X.M., Cui J.J., Li W.Q., Chen Z., Feng Y.Q., Niu Y.C., Bi S.M., Yang X.W., Li W.P., Cai H.M., Luo X.R., Montes-Hernandez S., Leyva-Gonzalez M.A., Xiong Z.Q., He X.J., Bai L.J., Tan S., Tang X.Q., Liu D., Liu J.W., Zhang S.X., Chen M.S., Zhang L., Zhang L., Zhang Y.C., Liao W.Q., Zhang Y., Wang M., Lv X.D., Wen B., Liu H.J., Luan H.M., Zhang Y.G., Yang S., Wang X.D., Xu J.H., Li X.Q., Li S.C., Wang J.Y., Palloix A., Bosland P.W., Li Y.R., Krogh A., Rivera-Bustamante R.F., Herrera-Estrella L., Yin Y., Yu J.P., Hu K.L., Zhang Z.M. Whole-genome sequencing of cultivated and wild peppers provides insights into Capsicum domestication and specialization. Proc. Natl. Acad. Sci. U.S.A. 2014, 111:5135-5140.
-
(2014)
Proc. Natl. Acad. Sci. U.S.A.
, vol.111
, pp. 5135-5140
-
-
Qin, C.1
Yu, C.S.2
Shen, Y.O.3
Fang, X.D.4
Chen, L.5
Min, J.M.6
Cheng, J.W.7
Zhao, S.C.8
Xu, M.9
Luo, Y.10
Yang, Y.L.11
Wu, Z.M.12
Mao, L.K.13
Wu, H.Y.14
Ling-Hu, C.Y.15
Zhou, H.K.16
Lin, H.J.17
Gonzalez-Morales, S.18
Trejo-Saavedra, D.L.19
Tian, H.20
Tang, X.21
Zhao, M.J.22
Huang, Z.Y.23
Zhou, A.W.24
Yao, X.M.25
Cui, J.J.26
Li, W.Q.27
Chen, Z.28
Feng, Y.Q.29
Niu, Y.C.30
Bi, S.M.31
Yang, X.W.32
Li, W.P.33
Cai, H.M.34
Luo, X.R.35
Montes-Hernandez, S.36
Leyva-Gonzalez, M.A.37
Xiong, Z.Q.38
He, X.J.39
Bai, L.J.40
Tan, S.41
Tang, X.Q.42
Liu, D.43
Liu, J.W.44
Zhang, S.X.45
Chen, M.S.46
Zhang, L.47
Zhang, L.48
Zhang, Y.C.49
Liao, W.Q.50
Zhang, Y.51
Wang, M.52
Lv, X.D.53
Wen, B.54
Liu, H.J.55
Luan, H.M.56
Zhang, Y.G.57
Yang, S.58
Wang, X.D.59
Xu, J.H.60
Li, X.Q.61
Li, S.C.62
Wang, J.Y.63
Palloix, A.64
Bosland, P.W.65
Li, Y.R.66
Krogh, A.67
Rivera-Bustamante, R.F.68
Herrera-Estrella, L.69
Yin, Y.70
Yu, J.P.71
Hu, K.L.72
Zhang, Z.M.73
more..
-
16
-
-
84877653652
-
Tapping the promise of genomics in species with complex, nonmodel genomes
-
Hirsch C.N., Buell C.R. Tapping the promise of genomics in species with complex, nonmodel genomes. Annu. Rev. Plant Biol. 2013, 64:89-110.
-
(2013)
Annu. Rev. Plant Biol.
, vol.64
, pp. 89-110
-
-
Hirsch, C.N.1
Buell, C.R.2
-
18
-
-
84964211599
-
Modern plant metabolomics: advanced natural product gene discoveries, improved technologies, and future prospects
-
Sumner L.W., Lei Z., Nikolau B.J., Saito K. Modern plant metabolomics: advanced natural product gene discoveries, improved technologies, and future prospects. Nat. Prod. Rep. 2015, 32:212-229.
-
(2015)
Nat. Prod. Rep.
, vol.32
, pp. 212-229
-
-
Sumner, L.W.1
Lei, Z.2
Nikolau, B.J.3
Saito, K.4
-
19
-
-
84862996527
-
The rise of chemodiversity in plants
-
Weng J.K., Philippe R.N., Noel J.P. The rise of chemodiversity in plants. Science 2012, 336:1667-1670.
-
(2012)
Science
, vol.336
, pp. 1667-1670
-
-
Weng, J.K.1
Philippe, R.N.2
Noel, J.P.3
-
20
-
-
84892641918
-
Whole genome and tandem duplicate retention facilitated glucosinolate pathway diversification in the mustard family
-
Hofberger J.A., Lyons E., Edger P.P., Pires J.C., Schranz M.E. Whole genome and tandem duplicate retention facilitated glucosinolate pathway diversification in the mustard family. Genome Biol. Evol. 2013, 5:2155-2173.
-
(2013)
Genome Biol. Evol.
, vol.5
, pp. 2155-2173
-
-
Hofberger, J.A.1
Lyons, E.2
Edger, P.P.3
Pires, J.C.4
Schranz, M.E.5
-
21
-
-
84892538565
-
Transposable elements powerful contributors to angiosperm evolution and diversity
-
Oliver K.R., McComb J.A., Greene W.K. Transposable elements powerful contributors to angiosperm evolution and diversity. Genome Biol. Evol. 2013, 5:1886-1901.
-
(2013)
Genome Biol. Evol.
, vol.5
, pp. 1886-1901
-
-
Oliver, K.R.1
McComb, J.A.2
Greene, W.K.3
-
22
-
-
25144488228
-
Gene duplication and exon shuffling by helitron-like transposons generate intraspecies diversity in maize
-
Morgante M., Brunner S., Pea G., Fengler K., Zuccolo A., Rafalski A. Gene duplication and exon shuffling by helitron-like transposons generate intraspecies diversity in maize. Nat. Genet. 2005, 37:997-1002.
-
(2005)
Nat. Genet.
, vol.37
, pp. 997-1002
-
-
Morgante, M.1
Brunner, S.2
Pea, G.3
Fengler, K.4
Zuccolo, A.5
Rafalski, A.6
-
23
-
-
57149120510
-
Many or most genes in Arabidopsis transposed after the origin of the order Brassicales
-
Freeling M., Lyons E., Pedersen B., Alam M., Ming R., Lisch D. Many or most genes in Arabidopsis transposed after the origin of the order Brassicales. Genome Res. 2008, 18:1924-1937.
-
(2008)
Genome Res.
, vol.18
, pp. 1924-1937
-
-
Freeling, M.1
Lyons, E.2
Pedersen, B.3
Alam, M.4
Ming, R.5
Lisch, D.6
-
24
-
-
80053154348
-
Formation of plant metabolic gene clusters within dynamic chromosomal regions
-
Field B., Fiston-Lavier A.S., Kemen A., Geisler K., Quesneville H., Osbourn A.E. Formation of plant metabolic gene clusters within dynamic chromosomal regions. Proc. Natl. Acad. Sci. U.S.A. 2011, 108:16116-16121.
-
(2011)
Proc. Natl. Acad. Sci. U.S.A.
, vol.108
, pp. 16116-16121
-
-
Field, B.1
Fiston-Lavier, A.S.2
Kemen, A.3
Geisler, K.4
Quesneville, H.5
Osbourn, A.E.6
-
25
-
-
84920973981
-
Polyploidy: adaptation to the genomic environment
-
Hollister J.D. Polyploidy: adaptation to the genomic environment. New Phytol. 2015, 205:1034-1039.
-
(2015)
New Phytol.
, vol.205
, pp. 1034-1039
-
-
Hollister, J.D.1
-
26
-
-
84901818848
-
Dosage, duplication, and diploidization: clarifying the interplay of multiple models for duplicate gene evolution over time
-
Conant G.C., Birchler J.A., Pires J.C. Dosage, duplication, and diploidization: clarifying the interplay of multiple models for duplicate gene evolution over time. Curr. Opin. Plant Biol. 2014, 19:91-98.
-
(2014)
Curr. Opin. Plant Biol.
, vol.19
, pp. 91-98
-
-
Conant, G.C.1
Birchler, J.A.2
Pires, J.C.3
-
27
-
-
67650915748
-
Gene duplication and evolutionary novelty in plants
-
Flagel L.E., Wendel J.F. Gene duplication and evolutionary novelty in plants. New Phytol. 2009, 183:557-564.
-
(2009)
New Phytol.
, vol.183
, pp. 557-564
-
-
Flagel, L.E.1
Wendel, J.F.2
-
28
-
-
79957736804
-
Natural diversity and adaptation in plant secondary metabolism
-
Kroymann J. Natural diversity and adaptation in plant secondary metabolism. Curr. Opin. Plant Biol. 2011, 14:246-251.
-
(2011)
Curr. Opin. Plant Biol.
, vol.14
, pp. 246-251
-
-
Kroymann, J.1
-
29
-
-
51949110360
-
Quantitative exploration of the catalytic landscape separating divergent plant sesquiterpene synthases
-
O'Maille P.E., Malone A., Dellas N., Hess B.A., Smentek L., Sheehan I., Greenhagen B.T., Chappell J., Manning G., Noel J.P. Quantitative exploration of the catalytic landscape separating divergent plant sesquiterpene synthases. Nat. Chem. Biol. 2008, 4:617-623.
-
(2008)
Nat. Chem. Biol.
, vol.4
, pp. 617-623
-
-
O'Maille, P.E.1
Malone, A.2
Dellas, N.3
Hess, B.A.4
Smentek, L.5
Sheehan, I.6
Greenhagen, B.T.7
Chappell, J.8
Manning, G.9
Noel, J.P.10
-
30
-
-
38949096144
-
Functional plasticity of paralogous diterpene synthases involved in conifer defense
-
Keeling C.I., Weisshaar S., Lin R.P.C., Bohlmann J. Functional plasticity of paralogous diterpene synthases involved in conifer defense. Proc. Natl. Acad. Sci. U.S.A. 2008, 105:1085-1090.
-
(2008)
Proc. Natl. Acad. Sci. U.S.A.
, vol.105
, pp. 1085-1090
-
-
Keeling, C.I.1
Weisshaar, S.2
Lin, R.P.C.3
Bohlmann, J.4
-
31
-
-
84908140957
-
Positive Darwinian selection is a driving force for the diversification of terpenoid biosynthesis in the genus Oryza
-
Chen H., Li G.L., Kollner T.G., Jia Q.D., Gershenzon J., Chen F. Positive Darwinian selection is a driving force for the diversification of terpenoid biosynthesis in the genus Oryza. BMC Plant Biol. 2014, 14.
-
(2014)
BMC Plant Biol.
, vol.14
-
-
Chen, H.1
Li, G.L.2
Kollner, T.G.3
Jia, Q.D.4
Gershenzon, J.5
Chen, F.6
-
32
-
-
79953251042
-
The family of terpene synthases in plants: a mid-size family of genes for specialized metabolism that is highly diversified throughout the kingdom
-
Chen F., Tholl D., Bohlmann J., Pichersky E. The family of terpene synthases in plants: a mid-size family of genes for specialized metabolism that is highly diversified throughout the kingdom. Plant J. 2011, 66:212-229.
-
(2011)
Plant J.
, vol.66
, pp. 212-229
-
-
Chen, F.1
Tholl, D.2
Bohlmann, J.3
Pichersky, E.4
-
33
-
-
34547877240
-
Related Arabidopsis serine carboxypeptidase-like sinapoylglucose acyltransferases display distinct but overlapping substrate specificities
-
Fraser C.M., Thompson M.G., Shirley A.M., Ralph J., Schoenherr J.A., Sinlapadech T., Hall M.C., Chapple C. Related Arabidopsis serine carboxypeptidase-like sinapoylglucose acyltransferases display distinct but overlapping substrate specificities. Plant Physiol. 2007, 144:1986-1999.
-
(2007)
Plant Physiol.
, vol.144
, pp. 1986-1999
-
-
Fraser, C.M.1
Thompson, M.G.2
Shirley, A.M.3
Ralph, J.4
Schoenherr, J.A.5
Sinlapadech, T.6
Hall, M.C.7
Chapple, C.8
-
34
-
-
79960722935
-
Substrate promiscuity of a rosmarinic acid synthase from lavender (Lavandula angustifolia L.)
-
Landmann C., Hucherig S., Fink B., Hoffmann T., Dittlein D., Coiner H.A., Schwab W. Substrate promiscuity of a rosmarinic acid synthase from lavender (Lavandula angustifolia L.). Planta 2011, 234:305-320.
-
(2011)
Planta
, vol.234
, pp. 305-320
-
-
Landmann, C.1
Hucherig, S.2
Fink, B.3
Hoffmann, T.4
Dittlein, D.5
Coiner, H.A.6
Schwab, W.7
-
35
-
-
84857792279
-
Transgressive segregation of primary and secondary metabolites in F-2 hybrids between Jacobaea aquatica and J. vulgaris
-
Kirk H., Cheng D.D., Choi Y.H., Vrieling K., Klinkhamer P.G.L. Transgressive segregation of primary and secondary metabolites in F-2 hybrids between Jacobaea aquatica and J. vulgaris. Metabolomics 2012, 8:211-219.
-
(2012)
Metabolomics
, vol.8
, pp. 211-219
-
-
Kirk, H.1
Cheng, D.D.2
Choi, Y.H.3
Vrieling, K.4
Klinkhamer, P.G.L.5
-
37
-
-
84965187491
-
Whole genome de novo assemblies of three divergent strains of rice, Oryza sativa, document novel gene space of aus and indica
-
Schatz M.C., Maron L.G., Stein J.C., Wences A.H., Gurtowski J., Biggers E., Lee H., Kramer M., Antoniou E., Ghiban E., Wright M.H., Chia J.M., Ware D., McCouch S.R., McCombie W.R. Whole genome de novo assemblies of three divergent strains of rice, Oryza sativa, document novel gene space of aus and indica. Genome Biol. 2014, 15.
-
(2014)
Genome Biol.
, vol.15
-
-
Schatz, M.C.1
Maron, L.G.2
Stein, J.C.3
Wences, A.H.4
Gurtowski, J.5
Biggers, E.6
Lee, H.7
Kramer, M.8
Antoniou, E.9
Ghiban, E.10
Wright, M.H.11
Chia, J.M.12
Ware, D.13
McCouch, S.R.14
McCombie, W.R.15
-
38
-
-
80053384429
-
Whole-genome sequencing of multiple Arabidopsis thaliana populations
-
Cao J., Schneeberger K., Ossowski S., Gunther T., Bender S., Fitz J., Koenig D., Lanz C., Stegle O., Lippert C., Wang X., Ott F., Muller J., Alonso-Blanco C., Borgwardt K., Schmid K.J., Weigel D. Whole-genome sequencing of multiple Arabidopsis thaliana populations. Nat. Genet. 2011, 43:U956-U960.
-
(2011)
Nat. Genet.
, vol.43
, pp. U956-U960
-
-
Cao, J.1
Schneeberger, K.2
Ossowski, S.3
Gunther, T.4
Bender, S.5
Fitz, J.6
Koenig, D.7
Lanz, C.8
Stegle, O.9
Lippert, C.10
Wang, X.11
Ott, F.12
Muller, J.13
Alonso-Blanco, C.14
Borgwardt, K.15
Schmid, K.J.16
Weigel, D.17
-
40
-
-
80053132716
-
Multiple reference genomes and transcriptomes for Arabidopsis thaliana
-
Gan X.C., Stegle O., Behr J., Steffen J.G., Drewe P., Hildebrand K.L., Lyngsoe R., Schultheiss S.J., Osborne E.J., Sreedharan V.T., Kahles A., Bohnert R., Jean G., Derwent P., Kersey P., Belfield E.J., Harberd N.P., Kemen E., Toomajian C., Kover P.X., Clark R.M., Ratsch G., Mott R. Multiple reference genomes and transcriptomes for Arabidopsis thaliana. Nature 2011, 477:419-423.
-
(2011)
Nature
, vol.477
, pp. 419-423
-
-
Gan, X.C.1
Stegle, O.2
Behr, J.3
Steffen, J.G.4
Drewe, P.5
Hildebrand, K.L.6
Lyngsoe, R.7
Schultheiss, S.J.8
Osborne, E.J.9
Sreedharan, V.T.10
Kahles, A.11
Bohnert, R.12
Jean, G.13
Derwent, P.14
Kersey, P.15
Belfield, E.J.16
Harberd, N.P.17
Kemen, E.18
Toomajian, C.19
Kover, P.X.20
Clark, R.M.21
Ratsch, G.22
Mott, R.23
more..
-
41
-
-
84894062713
-
Structural variation and genome complexity: is dispensable really dispensable?
-
Marroni F., Pinosio S., Morgante M. Structural variation and genome complexity: is dispensable really dispensable?. Curr. Opin. Plant Biol. 2014, 18:31-36.
-
(2014)
Curr. Opin. Plant Biol.
, vol.18
, pp. 31-36
-
-
Marroni, F.1
Pinosio, S.2
Morgante, M.3
-
42
-
-
84926667701
-
Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean
-
Zhou Z., Jiang Y., Wang Z., Gou Z., Lyu J., Li W., Yu Y., Shu L., Zhao Y., Ma Y., Fang C., Shen Y., Liu T., Li C., Li Q., Wu M., Wang M., Wu Y., Dong Y., Wan W., Wang X., Ding Z., Gao Y., Xiang H., Zhu B., Lee S.-H., Wang W., Tian Z. Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean. Nat. Biotechnol. 2015, 33:408-414.
-
(2015)
Nat. Biotechnol.
, vol.33
, pp. 408-414
-
-
Zhou, Z.1
Jiang, Y.2
Wang, Z.3
Gou, Z.4
Lyu, J.5
Li, W.6
Yu, Y.7
Shu, L.8
Zhao, Y.9
Ma, Y.10
Fang, C.11
Shen, Y.12
Liu, T.13
Li, C.14
Li, Q.15
Wu, M.16
Wang, M.17
Wu, Y.18
Dong, Y.19
Wan, W.20
Wang, X.21
Ding, Z.22
Gao, Y.23
Xiang, H.24
Zhu, B.25
Lee, S.-H.26
Wang, W.27
Tian, Z.28
more..
-
43
-
-
79953122203
-
A next-generation sequencing method for overcoming the multiple gene copy problem in polyploid phylogenetics, applied to Poa grasses
-
Griffin P.C., Robin C., Hoffmann A.A. A next-generation sequencing method for overcoming the multiple gene copy problem in polyploid phylogenetics, applied to Poa grasses. BMC Biol. 2011, 9.
-
(2011)
BMC Biol.
, vol.9
-
-
Griffin, P.C.1
Robin, C.2
Hoffmann, A.A.3
-
44
-
-
83855165105
-
Repetitive DNA and next-generation sequencing: computational challenges and solutions
-
Treangen T.J., Salzberg S.L. Repetitive DNA and next-generation sequencing: computational challenges and solutions. Nat. Rev. Genet. 2012, 13:36-46.
-
(2012)
Nat. Rev. Genet.
, vol.13
, pp. 36-46
-
-
Treangen, T.J.1
Salzberg, S.L.2
-
45
-
-
84905090589
-
Reduced representation approaches to interrogate genome diversity in large repetitive plant genomes
-
Hirsch C.D., Evans J., Buell C.R., Hirsch C.N. Reduced representation approaches to interrogate genome diversity in large repetitive plant genomes. Brief Funct. Genomics 2014, 13:257-267.
-
(2014)
Brief Funct. Genomics
, vol.13
, pp. 257-267
-
-
Hirsch, C.D.1
Evans, J.2
Buell, C.R.3
Hirsch, C.N.4
-
46
-
-
84885672827
-
Barley whole exome capture: a tool for genomic research in the genus Hordeum and beyond
-
Mascher M., Richmond T.A., Gerhardt D.J., Himmelbach A., Clissold L., Sampath D., Ayling S., Steuernagel B., Pfeifer M., D'Ascenzo M., Akhunov E.D., Hedley P.E., Gonzales A.M., Morrell P.L., Kilian B., Blattner F.R., Scholz U., Mayer K.F.X., Flavell A.J., Muehlbauer G.J., Waugh R., Jeddeloh J.A., Stein N. Barley whole exome capture: a tool for genomic research in the genus Hordeum and beyond. Plant J. 2013, 76:494-505.
-
(2013)
Plant J.
, vol.76
, pp. 494-505
-
-
Mascher, M.1
Richmond, T.A.2
Gerhardt, D.J.3
Himmelbach, A.4
Clissold, L.5
Sampath, D.6
Ayling, S.7
Steuernagel, B.8
Pfeifer, M.9
D'Ascenzo, M.10
Akhunov, E.D.11
Hedley, P.E.12
Gonzales, A.M.13
Morrell, P.L.14
Kilian, B.15
Blattner, F.R.16
Scholz, U.17
Mayer, K.F.X.18
Flavell, A.J.19
Muehlbauer, G.J.20
Waugh, R.21
Jeddeloh, J.A.22
Stein, N.23
more..
-
47
-
-
84858383903
-
Maize (Zea mays L.) genome diversity as revealed by RNA-sequencing
-
Hansey C.N., Vaillancourt B., Sekhon R.S., de Leon N., Kaeppler S.M., Buell C.R. Maize (Zea mays L.) genome diversity as revealed by RNA-sequencing. PLoS ONE 2012, 7.
-
(2012)
PLoS ONE
, vol.7
-
-
Hansey, C.N.1
Vaillancourt, B.2
Sekhon, R.S.3
de Leon, N.4
Kaeppler, S.M.5
Buell, C.R.6
-
48
-
-
84871996129
-
Genome-wide association study dissects the genetic architecture of oil biosynthesis in maize kernels
-
Li H., Peng Z.Y., Yang X.H., Wang W.D., Fu J.J., Wang J.H., Han Y.J., Chai Y.C., Guo T.T., Yang N., Liu J., Warburton M.L., Cheng Y.B., Hao X.M., Zhang P., Zhao J.Y., Liu Y.J., Wang G.Y., Li J.S., Yan J.B. Genome-wide association study dissects the genetic architecture of oil biosynthesis in maize kernels. Nat. Genet. 2013, 45:U43-U72.
-
(2013)
Nat. Genet.
, vol.45
, pp. U43-U72
-
-
Li, H.1
Peng, Z.Y.2
Yang, X.H.3
Wang, W.D.4
Fu, J.J.5
Wang, J.H.6
Han, Y.J.7
Chai, Y.C.8
Guo, T.T.9
Yang, N.10
Liu, J.11
Warburton, M.L.12
Cheng, Y.B.13
Hao, X.M.14
Zhang, P.15
Zhao, J.Y.16
Liu, Y.J.17
Wang, G.Y.18
Li, J.S.19
Yan, J.B.20
more..
-
49
-
-
84907821719
-
Reliable in silico identification of sequence polymorphisms and their application for extending the genetic map of sugar beet (Beta vulgaris)
-
Holtgrawe D., Sorensen T.R., Viehover P., Schneider J., Schulz B., Borchardt D., Kraft T., Himmelbauer H., Weisshaar B. Reliable in silico identification of sequence polymorphisms and their application for extending the genetic map of sugar beet (Beta vulgaris). PLoS ONE 2014, 9.
-
(2014)
PLoS ONE
, vol.9
-
-
Holtgrawe, D.1
Sorensen, T.R.2
Viehover, P.3
Schneider, J.4
Schulz, B.5
Borchardt, D.6
Kraft, T.7
Himmelbauer, H.8
Weisshaar, B.9
-
50
-
-
84924073103
-
RNA-Seq analysis and transcriptome assembly for blackberry (Rubus sp Var. Lochness) fruit
-
Garcia-Seco D., Zhang Y., Gutierrez-Manoro F.J., Martin C., Ramos-Solano B. RNA-Seq analysis and transcriptome assembly for blackberry (Rubus sp Var. Lochness) fruit. BMC Genomics 2015, 16.
-
(2015)
BMC Genomics
, vol.16
-
-
Garcia-Seco, D.1
Zhang, Y.2
Gutierrez-Manoro, F.J.3
Martin, C.4
Ramos-Solano, B.5
-
51
-
-
84879984347
-
Comparative transcriptomics reveals patterns of selection in domesticated and wild tomato
-
Koenig D., Jimenez-Gomez J.M., Kimura S., Fulop D., Chitwood D.H., Headland L.R., Kumar R., Covington M.F., Devisetty U.K., Tat A.V., Tohge T., Bolger A., Schneeberger K., Ossowski S., Lanz C., Xiong G.Y., Taylor-Teeples M., Brady S.M., Pauly M., Weigel D., Usadel B., Fernie A.R., Peng J., Sinha N.R., Maloof J.N. Comparative transcriptomics reveals patterns of selection in domesticated and wild tomato. Proc. Natl. Acad. Sci. U.S.A. 2013, 110:E2655-E2662.
-
(2013)
Proc. Natl. Acad. Sci. U.S.A.
, vol.110
, pp. E2655-E2662
-
-
Koenig, D.1
Jimenez-Gomez, J.M.2
Kimura, S.3
Fulop, D.4
Chitwood, D.H.5
Headland, L.R.6
Kumar, R.7
Covington, M.F.8
Devisetty, U.K.9
Tat, A.V.10
Tohge, T.11
Bolger, A.12
Schneeberger, K.13
Ossowski, S.14
Lanz, C.15
Xiong, G.Y.16
Taylor-Teeples, M.17
Brady, S.M.18
Pauly, M.19
Weigel, D.20
Usadel, B.21
Fernie, A.R.22
Peng, J.23
Sinha, N.R.24
Maloof, J.N.25
more..
-
52
-
-
84893116505
-
The high polyphenol content of grapevine cultivar tannat berries is conferred primarily by genes that are not shared with the reference genome
-
Da Silva C., Zamperin G., Ferrarini A., Minio A., Dal Molin A., Venturini L., Buson G., Tononi P., Avanzato C., Zago E., Boido E., Dellacassa E., Gaggero C., Pezzotti M., Carrau F., Delledonne M. The high polyphenol content of grapevine cultivar tannat berries is conferred primarily by genes that are not shared with the reference genome. Plant Cell 2013, 25:4777-4788.
-
(2013)
Plant Cell
, vol.25
, pp. 4777-4788
-
-
Da Silva, C.1
Zamperin, G.2
Ferrarini, A.3
Minio, A.4
Dal Molin, A.5
Venturini, L.6
Buson, G.7
Tononi, P.8
Avanzato, C.9
Zago, E.10
Boido, E.11
Dellacassa, E.12
Gaggero, C.13
Pezzotti, M.14
Carrau, F.15
Delledonne, M.16
-
53
-
-
84903627161
-
Decreased nucleotide and expression diversity and modified coexpression patterns characterize domestication in the common bean
-
Bellucci E., Bitocchi E., Ferrarini A., Benazzo A., Biagetti E., Klie S., Minio A., Rau D., Rodriguez M., Panziera A., Venturini L., Attene G., Albertini E., Jackson S.A., Nanni L., Fernie A.R., Nikoloski Z., Bertorelle G., Delledonne M., Papa R. Decreased nucleotide and expression diversity and modified coexpression patterns characterize domestication in the common bean. Plant Cell 2014, 26:1901-1912.
-
(2014)
Plant Cell
, vol.26
, pp. 1901-1912
-
-
Bellucci, E.1
Bitocchi, E.2
Ferrarini, A.3
Benazzo, A.4
Biagetti, E.5
Klie, S.6
Minio, A.7
Rau, D.8
Rodriguez, M.9
Panziera, A.10
Venturini, L.11
Attene, G.12
Albertini, E.13
Jackson, S.A.14
Nanni, L.15
Fernie, A.R.16
Nikoloski, Z.17
Bertorelle, G.18
Delledonne, M.19
Papa, R.20
more..
-
54
-
-
84886052631
-
Draft genome of the kiwifruit Actinidia chinensis
-
Huang S.X., Ding J., Deng D.J., Tang W., Sun H.H., Liu D.Y., Zhang L., Niu X.L., Zhang X., Meng M., Yu J.D., Liu J., Han Y., Shi W., Zhang D.F., Cao S.Q., Wei Z.J., Cui Y.L., Xia Y.H., Zeng H.P., Bao K., Lin L., Min Y., Zhang H., Miao M., Tang X.F., Zhu Y.Y., Sui Y., Li G.W., Sun H.J., Yue J.Y., Sun J.Q., Liu F.F., Zhou L.Q., Lei L., Zheng X.Q., Liu M., Huang L., Song J., Xu C.H., Li J.W., Ye K.Y., Zhong S.L., Lu B.R., He G.H., Xiao F.M., Wang H.L., Zheng H.K., Fei Z.J., Liu Y.S. Draft genome of the kiwifruit Actinidia chinensis. Nat. Commun. 2013, 4.
-
(2013)
Nat. Commun.
, vol.4
-
-
Huang, S.X.1
Ding, J.2
Deng, D.J.3
Tang, W.4
Sun, H.H.5
Liu, D.Y.6
Zhang, L.7
Niu, X.L.8
Zhang, X.9
Meng, M.10
Yu, J.D.11
Liu, J.12
Han, Y.13
Shi, W.14
Zhang, D.F.15
Cao, S.Q.16
Wei, Z.J.17
Cui, Y.L.18
Xia, Y.H.19
Zeng, H.P.20
Bao, K.21
Lin, L.22
Min, Y.23
Zhang, H.24
Miao, M.25
Tang, X.F.26
Zhu, Y.Y.27
Sui, Y.28
Li, G.W.29
Sun, H.J.30
Yue, J.Y.31
Sun, J.Q.32
Liu, F.F.33
Zhou, L.Q.34
Lei, L.35
Zheng, X.Q.36
Liu, M.37
Huang, L.38
Song, J.39
Xu, C.H.40
Li, J.W.41
Ye, K.Y.42
Zhong, S.L.43
Lu, B.R.44
He, G.H.45
Xiao, F.M.46
Wang, H.L.47
Zheng, H.K.48
Fei, Z.J.49
Liu, Y.S.50
more..
-
55
-
-
33947095121
-
Genetic resources of kiwifruit: domestication and breeding
-
Wiley
-
Ferguson A.R., Huang H. Genetic resources of kiwifruit: domestication and breeding. Horticultural Reviews 2007, 1-121. Wiley.
-
(2007)
Horticultural Reviews
, pp. 1-121
-
-
Ferguson, A.R.1
Huang, H.2
-
56
-
-
0009423022
-
The fascination of making a plant hybrid being a detailed account of the hybridization of Actinidia arguta and Actinidia chinensis
-
Fairchild D. The fascination of making a plant hybrid being a detailed account of the hybridization of Actinidia arguta and Actinidia chinensis. J. Hered. 1927, 18:49-62.
-
(1927)
J. Hered.
, vol.18
, pp. 49-62
-
-
Fairchild, D.1
-
57
-
-
0034790604
-
Embryo rescue from interspecific crosses in the genus Actinidia (kiwifruit)
-
Hirsch A., Testolin R., Brown S., Chat J., Fortune D., Bureau J., De Nay D. Embryo rescue from interspecific crosses in the genus Actinidia (kiwifruit). Plant Cell Rep. 2001, 20:508-516.
-
(2001)
Plant Cell Rep.
, vol.20
, pp. 508-516
-
-
Hirsch, A.1
Testolin, R.2
Brown, S.3
Chat, J.4
Fortune, D.5
Bureau, J.6
De Nay, D.7
-
58
-
-
84867260724
-
'Jinyan', an interspecific hybrid kiwifruit with brilliant yellow flesh and good storage quality
-
Zhong C.H., Wang S.M., Jiang Z.W., Huang H.W. 'Jinyan', an interspecific hybrid kiwifruit with brilliant yellow flesh and good storage quality. Hortscience 2012, 47:1187-1190.
-
(2012)
Hortscience
, vol.47
, pp. 1187-1190
-
-
Zhong, C.H.1
Wang, S.M.2
Jiang, Z.W.3
Huang, H.W.4
-
60
-
-
84927751063
-
Natural hybridization, introgression breeding, and cultivar improvement in the genus Actinidia
-
Huang H.W., Liu Y.F. Natural hybridization, introgression breeding, and cultivar improvement in the genus Actinidia. Tree Genet. Genomes 2014, 10:1113-1122.
-
(2014)
Tree Genet. Genomes
, vol.10
, pp. 1113-1122
-
-
Huang, H.W.1
Liu, Y.F.2
-
61
-
-
84892801409
-
The genome of the recently domesticated crop plant sugar beet (Beta vulgaris)
-
Dohm J.C., Minoche A.E., Holtgrawe D., Capella-Gutierrez S., Zakrzewski F., Tafer H., Rupp O., Sorensen T., Stracke R., Reinhardt R., Goesmann A., Kraft T., Schulz B., Stadler P.F., Schmidt T., Gabaldon T., Lehrach H., Weisshaar B., Himmelbauer H. The genome of the recently domesticated crop plant sugar beet (Beta vulgaris). Nature 2014, 505:546-549.
-
(2014)
Nature
, vol.505
, pp. 546-549
-
-
Dohm, J.C.1
Minoche, A.E.2
Holtgrawe, D.3
Capella-Gutierrez, S.4
Zakrzewski, F.5
Tafer, H.6
Rupp, O.7
Sorensen, T.8
Stracke, R.9
Reinhardt, R.10
Goesmann, A.11
Kraft, T.12
Schulz, B.13
Stadler, P.F.14
Schmidt, T.15
Gabaldon, T.16
Lehrach, H.17
Weisshaar, B.18
Himmelbauer, H.19
-
62
-
-
33847795115
-
Broadening the genetic base of sugar beet: introgression from wild relatives
-
Panella L., Lewellen R.T. Broadening the genetic base of sugar beet: introgression from wild relatives. Euphytica 2007, 154:383-400.
-
(2007)
Euphytica
, vol.154
, pp. 383-400
-
-
Panella, L.1
Lewellen, R.T.2
-
63
-
-
84875623422
-
Hidden diversity in wild Beta taxa from Portugal: insights from genome size and ploidy level estimations using flow cytometry
-
Castro S., Romeiras M.M., Castro M., Duarte M.C., Loureiro J. Hidden diversity in wild Beta taxa from Portugal: insights from genome size and ploidy level estimations using flow cytometry. Plant Sci. 2013, 207:72-78.
-
(2013)
Plant Sci.
, vol.207
, pp. 72-78
-
-
Castro, S.1
Romeiras, M.M.2
Castro, M.3
Duarte, M.C.4
Loureiro, J.5
-
64
-
-
80053386792
-
The genome of the mesopolyploid crop species Brassica rapa
-
Wang X.W., Wang H.Z., Wang J., Sun R.F., Wu J., Liu S.Y., Bai Y.Q., Mun J.H., Bancroft I., Cheng F., Huang S.W., Li X.X., Hua W., Wang J.Y., Wang X.Y., Freeling M., Pires J.C., Paterson A.H., Chalhoub B., Wang B., Hayward A., Sharpe A.G., Park B.S., Weisshaar B., Liu B.H., Li B., Liu B., Tong C.B., Song C., Duran C., Peng C.F., Geng C.Y., Koh C.S., Lin C.Y., Edwards D., Mu D.S., Shen D., Soumpourou E., Li F., Fraser F., Conant G., Lassalle G., King G.J., Bonnema G., Tang H.B., Wang H.P., Belcram H., Zhou H.L., Hirakawa H., Abe H., Guo H., Wang H., Jin H.Z., Parkin I.A.P., Batley J., Kim J.S., Just J., Li J.W., Xu J.H., Deng J., Kim J.A., Li J.P., Yu J.Y., Meng J.L., Wang J.P., Min J.M., Poulain J., Wang J., Hatakeyama K., Wu K., Wang L., Fang L., Trick M., Links M.G., Zhao M.X., Jin M.N., Ramchiary N., Drou N., Berkman P.J., Cai Q.L., Huang Q.F., Li R.Q., Tabata S., Cheng S.F., Zhang S., Zhang S.J., Huang S.M., Sato S., Sun S.L., Kwon S.J., Choi S.R., Lee T.H., Fan W., Zhao X., Tan X., Xu X., Wang Y., Qiu Y., Yin Y., Li Y.R., Du Y.C., Liao Y.C., Lim Y., Narusaka Y., Wang Y.P., Wang Z.Y., Li Z.Y., Wang Z.W., Xiong Z.Y., Zhang Z.H. The genome of the mesopolyploid crop species Brassica rapa. Nat. Genet. 2011, 43:U1035-U1157.
-
(2011)
Nat. Genet.
, vol.43
, pp. U1035-U1157
-
-
Wang, X.W.1
Wang, H.Z.2
Wang, J.3
Sun, R.F.4
Wu, J.5
Liu, S.Y.6
Bai, Y.Q.7
Mun, J.H.8
Bancroft, I.9
Cheng, F.10
Huang, S.W.11
Li, X.X.12
Hua, W.13
Wang, J.Y.14
Wang, X.Y.15
Freeling, M.16
Pires, J.C.17
Paterson, A.H.18
Chalhoub, B.19
Wang, B.20
Hayward, A.21
Sharpe, A.G.22
Park, B.S.23
Weisshaar, B.24
Liu, B.H.25
Li, B.26
Liu, B.27
Tong, C.B.28
Song, C.29
Duran, C.30
Peng, C.F.31
Geng, C.Y.32
Koh, C.S.33
Lin, C.Y.34
Edwards, D.35
Mu, D.S.36
Shen, D.37
Soumpourou, E.38
Li, F.39
Fraser, F.40
Conant, G.41
Lassalle, G.42
King, G.J.43
Bonnema, G.44
Tang, H.B.45
Wang, H.P.46
Belcram, H.47
Zhou, H.L.48
Hirakawa, H.49
Abe, H.50
Guo, H.51
Wang, H.52
Jin, H.Z.53
Parkin, I.A.P.54
Batley, J.55
Kim, J.S.56
Just, J.57
Li, J.W.58
Xu, J.H.59
Deng, J.60
Kim, J.A.61
Li, J.P.62
Yu, J.Y.63
Meng, J.L.64
Wang, J.P.65
Min, J.M.66
Poulain, J.67
Wang, J.68
Hatakeyama, K.69
Wu, K.70
Wang, L.71
Fang, L.72
Trick, M.73
Links, M.G.74
Zhao, M.X.75
Jin, M.N.76
Ramchiary, N.77
Drou, N.78
Berkman, P.J.79
Cai, Q.L.80
Huang, Q.F.81
Li, R.Q.82
Tabata, S.83
Cheng, S.F.84
Zhang, S.85
Zhang, S.J.86
Huang, S.M.87
Sato, S.88
Sun, S.L.89
Kwon, S.J.90
Choi, S.R.91
Lee, T.H.92
Fan, W.93
Zhao, X.94
Tan, X.95
Xu, X.96
Wang, Y.97
Qiu, Y.98
Yin, Y.99
more..
-
65
-
-
84901467202
-
The Brassica oleracea genome reveals the asymmetrical evolution of polyploid genomes
-
Liu S.Y., Liu Y.M., Yang X.H., Tong C.B., Edwards D., Parkin I.A.P., Zhao M.X., Ma J.X., Yu J.Y., Huang S.M., Wang X.Y., Wang J.Y., Lu K., Fang Z.Y., Bancroft I., Yang T.J., Hu Q., Wang X.F., Yue Z., Li H.J., Yang L.F., Wu J., Zhou Q., Wang W.X., King G.J., Pires J.C., Lu C.X., Wu Z.Y., Sampath P., Wang Z., Guo H., Pan S.K., Yang L.M., Min J.M., Zhang D., Jin D.C., Li W.S., Belcram H., Tu J.X., Guan M., Qi C.K., Du D.Z., Li J.N., Jiang L.C., Batley J., Sharpe A.G., Park B.S., Ruperao P., Cheng F., Waminal N.E., Huang Y., Dong C.H., Wang L., Li J.P., Hu Z.Y., Zhuang M., Huang Y., Huang J.Y., Shi J.Q., Mei D.S., Liu J., Lee T.H., Wang J.P., Jin H.Z., Li Z.Y., Li X., Zhang J.F., Xiao L., Zhou Y.M., Liu Z.S., Liu X.Q., Qin R., Tang X., Liu W.B., Wang Y.P., Zhang Y.Y., Lee J., Kim H.H., Denoeud F., Xu X., Liang X.M., Hua W., Wang X.W., Wang J., Chalhoub B., Paterson A.H. The Brassica oleracea genome reveals the asymmetrical evolution of polyploid genomes. Nat. Commun. 2014, 5.
-
(2014)
Nat. Commun.
, vol.5
-
-
Liu, S.Y.1
Liu, Y.M.2
Yang, X.H.3
Tong, C.B.4
Edwards, D.5
Parkin, I.A.P.6
Zhao, M.X.7
Ma, J.X.8
Yu, J.Y.9
Huang, S.M.10
Wang, X.Y.11
Wang, J.Y.12
Lu, K.13
Fang, Z.Y.14
Bancroft, I.15
Yang, T.J.16
Hu, Q.17
Wang, X.F.18
Yue, Z.19
Li, H.J.20
Yang, L.F.21
Wu, J.22
Zhou, Q.23
Wang, W.X.24
King, G.J.25
Pires, J.C.26
Lu, C.X.27
Wu, Z.Y.28
Sampath, P.29
Wang, Z.30
Guo, H.31
Pan, S.K.32
Yang, L.M.33
Min, J.M.34
Zhang, D.35
Jin, D.C.36
Li, W.S.37
Belcram, H.38
Tu, J.X.39
Guan, M.40
Qi, C.K.41
Du, D.Z.42
Li, J.N.43
Jiang, L.C.44
Batley, J.45
Sharpe, A.G.46
Park, B.S.47
Ruperao, P.48
Cheng, F.49
Waminal, N.E.50
Huang, Y.51
Dong, C.H.52
Wang, L.53
Li, J.P.54
Hu, Z.Y.55
Zhuang, M.56
Huang, Y.57
Huang, J.Y.58
Shi, J.Q.59
Mei, D.S.60
Liu, J.61
Lee, T.H.62
Wang, J.P.63
Jin, H.Z.64
Li, Z.Y.65
Li, X.66
Zhang, J.F.67
Xiao, L.68
Zhou, Y.M.69
Liu, Z.S.70
Liu, X.Q.71
Qin, R.72
Tang, X.73
Liu, W.B.74
Wang, Y.P.75
Zhang, Y.Y.76
Lee, J.77
Kim, H.H.78
Denoeud, F.79
Xu, X.80
Liang, X.M.81
Hua, W.82
Wang, X.W.83
Wang, J.84
Chalhoub, B.85
Paterson, A.H.86
more..
-
66
-
-
84891043639
-
Applications and challenges of next-generation sequencing in Brassica species
-
Wei L.J., Xiao M.L., Hayward A., Fu D.H. Applications and challenges of next-generation sequencing in Brassica species. Planta 2013, 238:1005-1024.
-
(2013)
Planta
, vol.238
, pp. 1005-1024
-
-
Wei, L.J.1
Xiao, M.L.2
Hayward, A.3
Fu, D.H.4
-
67
-
-
80054695360
-
The draft genome and transcriptome of Cannabis sativa
-
van Bakel H., Stout J.M., Cote A.G., Tallon C.M., Sharpe A.G., Hughes T.R., Page J.E. The draft genome and transcriptome of Cannabis sativa. Genome Biol. 2011, 12.
-
(2011)
Genome Biol.
, vol.12
-
-
van Bakel, H.1
Stout, J.M.2
Cote, A.G.3
Tallon, C.M.4
Sharpe, A.G.5
Hughes, T.R.6
Page, J.E.7
-
68
-
-
17844380290
-
Genetic evidence for speciation in Cannabis (Cannabaceae)
-
Hillig K.W. Genetic evidence for speciation in Cannabis (Cannabaceae). Genet. Resour. Crop Evol. 2005, 52:161-180.
-
(2005)
Genet. Resour. Crop Evol.
, vol.52
, pp. 161-180
-
-
Hillig, K.W.1
-
69
-
-
84907180078
-
Capturing flavors from Capsicum baccatum by introgression in sweet pepper
-
Eggink P.M., Tikunov Y., Maliepaard C., Haanstra J.P.W., de Rooij H., Vogelaar A., Gutteling E.W., Freymark G., Bovy A.G., Visser R.G.F. Capturing flavors from Capsicum baccatum by introgression in sweet pepper. Theor. Appl. Genet. 2014, 127:373-390.
-
(2014)
Theor. Appl. Genet.
, vol.127
, pp. 373-390
-
-
Eggink, P.M.1
Tikunov, Y.2
Maliepaard, C.3
Haanstra, J.P.W.4
de Rooij, H.5
Vogelaar, A.6
Gutteling, E.W.7
Freymark, G.8
Bovy, A.G.9
Visser, R.G.F.10
-
70
-
-
0034751894
-
Phylogenetic relationships of Capsicum (Solanaceae) using DNA sequences from two noncoding regions: the chloroplast atpB-rbcL spacer region and nuclear waxy introns
-
Walsh B.M., Hoot S.B. Phylogenetic relationships of Capsicum (Solanaceae) using DNA sequences from two noncoding regions: the chloroplast atpB-rbcL spacer region and nuclear waxy introns. Int. J. Plant Sci. 2001, 162:1409-1418.
-
(2001)
Int. J. Plant Sci.
, vol.162
, pp. 1409-1418
-
-
Walsh, B.M.1
Hoot, S.B.2
-
71
-
-
84862825741
-
Genome of papaya, a fast growing tropical fruit tree
-
Ming R., Yu Q.Y., Moore P.H., Paull R.E., Chen N.J., Wang M.L., Zhu Y.J., Schuler M.A., Jiang J.M., Paterson A.H. Genome of papaya, a fast growing tropical fruit tree. Tree Genet. Genomes 2012, 8:445-462.
-
(2012)
Tree Genet. Genomes
, vol.8
, pp. 445-462
-
-
Ming, R.1
Yu, Q.Y.2
Moore, P.H.3
Paull, R.E.4
Chen, N.J.5
Wang, M.L.6
Zhu, Y.J.7
Schuler, M.A.8
Jiang, J.M.9
Paterson, A.H.10
-
72
-
-
84871941712
-
The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions
-
Guo S.G., Zhang J.G., Sun H.H., Salse J., Lucas W.J., Zhang H.Y., Zheng Y., Mao L.Y., Ren Y., Wang Z.W., Min J.M., Guo X.S., Murat F., Ham B.K., Zhang Z.L., Gao S., Huang M.Y., Xu Y.M., Zhong S.L., Bombarely A., Mueller L.A., Zhao H., He H.J., Zhang Y., Zhang Z.H., Huang S.W., Tan T., Pang E.L., Lin K., Hu Q., Kuang H.H., Ni P.X., Wang B., Liu J.A., Kou Q.H., Hou W.J., Zou X.H., Jiang J., Gong G.Y., Klee K., Schoof H., Huang Y., Hu X.S., Dong S.S., Liang D.Q., Wang J., Wu K., Xia Y., Zhao X., Zheng Z.Q., Xing M., Liang X.M., Huang B.Q., Lv T., Wang J.Y., Yin Y., Yi H.P., Li R.Q., Wu M.Z., Levi A., Zhang X.P., Giovannoni J.J., Wang J., Li Y.F., Fei Z.J., Xu Y. The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions. Nat. Genet. 2013, 45:U51-U82.
-
(2013)
Nat. Genet.
, vol.45
, pp. U51-U82
-
-
Guo, S.G.1
Zhang, J.G.2
Sun, H.H.3
Salse, J.4
Lucas, W.J.5
Zhang, H.Y.6
Zheng, Y.7
Mao, L.Y.8
Ren, Y.9
Wang, Z.W.10
Min, J.M.11
Guo, X.S.12
Murat, F.13
Ham, B.K.14
Zhang, Z.L.15
Gao, S.16
Huang, M.Y.17
Xu, Y.M.18
Zhong, S.L.19
Bombarely, A.20
Mueller, L.A.21
Zhao, H.22
He, H.J.23
Zhang, Y.24
Zhang, Z.H.25
Huang, S.W.26
Tan, T.27
Pang, E.L.28
Lin, K.29
Hu, Q.30
Kuang, H.H.31
Ni, P.X.32
Wang, B.33
Liu, J.A.34
Kou, Q.H.35
Hou, W.J.36
Zou, X.H.37
Jiang, J.38
Gong, G.Y.39
Klee, K.40
Schoof, H.41
Huang, Y.42
Hu, X.S.43
Dong, S.S.44
Liang, D.Q.45
Wang, J.46
Wu, K.47
Xia, Y.48
Zhao, X.49
Zheng, Z.Q.50
Xing, M.51
Liang, X.M.52
Huang, B.Q.53
Lv, T.54
Wang, J.Y.55
Yin, Y.56
Yi, H.P.57
Li, R.Q.58
Wu, M.Z.59
Levi, A.60
Zhang, X.P.61
Giovannoni, J.J.62
Wang, J.63
Li, Y.F.64
Fei, Z.J.65
Xu, Y.66
more..
-
73
-
-
34447536759
-
Diversity and origin of cultivated and citron type watermelon (Citrullus lanatus)
-
Dane F., Liu J.R. Diversity and origin of cultivated and citron type watermelon (Citrullus lanatus). Genet. Resour. Crop Evol. 2007, 54:1255-1265.
-
(2007)
Genet. Resour. Crop Evol.
, vol.54
, pp. 1255-1265
-
-
Dane, F.1
Liu, J.R.2
-
74
-
-
0036442963
-
Cytogenetic analysis of interspecific hybrids in genus Citrullus (Cucurbitaceae)
-
Sain R.S., Joshi P., Sastry E.V.D. Cytogenetic analysis of interspecific hybrids in genus Citrullus (Cucurbitaceae). Euphytica 2002, 128:205-210.
-
(2002)
Euphytica
, vol.128
, pp. 205-210
-
-
Sain, R.S.1
Joshi, P.2
Sastry, E.V.D.3
-
75
-
-
84919632564
-
Watermelon origin solved with molecular phylogenetics including Linnaean material: another example of museomics
-
Chomicki G., Renner S.S. Watermelon origin solved with molecular phylogenetics including Linnaean material: another example of museomics. New Phytol. 2015, 205:526-532.
-
(2015)
New Phytol.
, vol.205
, pp. 526-532
-
-
Chomicki, G.1
Renner, S.S.2
-
76
-
-
84988823624
-
Citrus
-
Springer, USA, M.L. Badenes, D.H. Byrne (Eds.)
-
Ollitrault P., Navarro L. Citrus. Handb Plant Breed 2012, 623-662. Springer, USA. M.L. Badenes, D.H. Byrne (Eds.).
-
(2012)
Handb Plant Breed
, pp. 623-662
-
-
Ollitrault, P.1
Navarro, L.2
-
77
-
-
84903980445
-
Sequencing of diverse mandarin, pummelo and orange genomes reveals complex history of admixture during citrus domestication
-
Wu G.A., Prochnik S., Jenkins J., Salse J., Hellsten U., Murat F., Perrier X., Ruiz M., Scalabrin S., Terol J., Takita M.A., Labadie K., Poulain J., Couloux A., Jabbari K., Cattonaro F., Del Fabbro C., Pinosio S., Zuccolo A., Chapman J., Grimwood J., Tadeo F.R., Estornell L.H., Munoz-Sanz J.V., Ibanez V., Herrero-Ortega A., Aleza P., Perez-Perez J., Ramon D., Brunel D., Luro F., Chen C.X., Farmerie W.G., Desany B., Kodira C., Mohiuddin M., Harkins T., Fredrikson K., Burns P., Lomsadze A., Borodovsky M., Reforgiato G., Freitas-Astua J., Quetier F., Navarro L., Roose M., Wincker P., Schmutz J., Morgante M., Machado M.A., Talon M., Jaillon O., Ollitrault P., Gmitter F., Rokhsar D. Sequencing of diverse mandarin, pummelo and orange genomes reveals complex history of admixture during citrus domestication. Nat. Biotechnol. 2014, 32:656.
-
(2014)
Nat. Biotechnol.
, vol.32
, pp. 656
-
-
Wu, G.A.1
Prochnik, S.2
Jenkins, J.3
Salse, J.4
Hellsten, U.5
Murat, F.6
Perrier, X.7
Ruiz, M.8
Scalabrin, S.9
Terol, J.10
Takita, M.A.11
Labadie, K.12
Poulain, J.13
Couloux, A.14
Jabbari, K.15
Cattonaro, F.16
Del Fabbro, C.17
Pinosio, S.18
Zuccolo, A.19
Chapman, J.20
Grimwood, J.21
Tadeo, F.R.22
Estornell, L.H.23
Munoz-Sanz, J.V.24
Ibanez, V.25
Herrero-Ortega, A.26
Aleza, P.27
Perez-Perez, J.28
Ramon, D.29
Brunel, D.30
Luro, F.31
Chen, C.X.32
Farmerie, W.G.33
Desany, B.34
Kodira, C.35
Mohiuddin, M.36
Harkins, T.37
Fredrikson, K.38
Burns, P.39
Lomsadze, A.40
Borodovsky, M.41
Reforgiato, G.42
Freitas-Astua, J.43
Quetier, F.44
Navarro, L.45
Roose, M.46
Wincker, P.47
Schmutz, J.48
Morgante, M.49
Machado, M.A.50
Talon, M.51
Jaillon, O.52
Ollitrault, P.53
Gmitter, F.54
Rokhsar, D.55
more..
-
78
-
-
70649085835
-
The genome of the cucumber, Cucumis sativus L.
-
Huang S.W., Li R.Q., Zhang Z.H., Li L., Gu X.F., Fan W., Lucas W.J., Wang X.W., Xie B.Y., Ni P.X., Ren Y.Y., Zhu H.M., Li J., Lin K., Jin W.W., Fei Z.J., Li G.C., Staub J., Kilian A., van der Vossen E.A.G., Wu Y., Guo J., He J., Jia Z.Q., Ren Y., Tian G., Lu Y., Ruan J., Qian W.B., Wang M.W., Huang Q.F., Li B., Xuan Z.L., Cao J.J., Asan, Wu Z.G., Zhang J.B., Cai Q.L., Bai Y.Q., Zhao B.W., Han Y.H., Li Y., Li X.F., Wang S.H., Shi Q.X., Liu S.Q., Cho W.K., Kim J.Y., Xu Y., Heller-Uszynska K., Miao H., Cheng Z.C., Zhang S.P., Wu J., Yang Y.H., Kang H.X., Li M., Liang H.Q., Ren X.L., Shi Z.B., Wen M., Jian M., Yang H.L., Zhang G.J., Yang Z.T., Chen R., Liu S.F., Li J.W., Ma L.J., Liu H., Zhou Y., Zhao J., Fang X.D., Li G.Q., Fang L., Li Y.R., Liu D.Y., Zheng H.K., Zhang Y., Qin N., Li Z., Yang G.H., Yang S., Bolund L., Kristiansen K., Zheng H.C., Li S.C., Zhang X.Q., Yang H.M., Wang J., Sun R.F., Zhang B.X., Jiang S.Z., Wang J., Du Y.C., Li S.G. The genome of the cucumber, Cucumis sativus L. Nat. Genet. 2009, 41:1275-1281.
-
(2009)
Nat. Genet.
, vol.41
, pp. 1275-1281
-
-
Huang, S.W.1
Li, R.Q.2
Zhang, Z.H.3
Li, L.4
Gu, X.F.5
Fan, W.6
Lucas, W.J.7
Wang, X.W.8
Xie, B.Y.9
Ni, P.X.10
Ren, Y.Y.11
Zhu, H.M.12
Li, J.13
Lin, K.14
Jin, W.W.15
Fei, Z.J.16
Li, G.C.17
Staub, J.18
Kilian, A.19
van der Vossen, E.A.G.20
Wu, Y.21
Guo, J.22
He, J.23
Jia, Z.Q.24
Ren, Y.25
Tian, G.26
Lu, Y.27
Ruan, J.28
Qian, W.B.29
Wang, M.W.30
Huang, Q.F.31
Li, B.32
Xuan, Z.L.33
Cao, J.J.34
Asan35
Wu, Z.G.36
Zhang, J.B.37
Cai, Q.L.38
Bai, Y.Q.39
Zhao, B.W.40
Han, Y.H.41
Li, Y.42
Li, X.F.43
Wang, S.H.44
Shi, Q.X.45
Liu, S.Q.46
Cho, W.K.47
Kim, J.Y.48
Xu, Y.49
Heller-Uszynska, K.50
Miao, H.51
Cheng, Z.C.52
Zhang, S.P.53
Wu, J.54
Yang, Y.H.55
Kang, H.X.56
Li, M.57
Liang, H.Q.58
Ren, X.L.59
Shi, Z.B.60
Wen, M.61
Jian, M.62
Yang, H.L.63
Zhang, G.J.64
Yang, Z.T.65
Chen, R.66
Liu, S.F.67
Li, J.W.68
Ma, L.J.69
Liu, H.70
Zhou, Y.71
Zhao, J.72
Fang, X.D.73
Li, G.Q.74
Fang, L.75
Li, Y.R.76
Liu, D.Y.77
Zheng, H.K.78
Zhang, Y.79
Qin, N.80
Li, Z.81
Yang, G.H.82
Yang, S.83
Bolund, L.84
Kristiansen, K.85
Zheng, H.C.86
Li, S.C.87
Zhang, X.Q.88
Yang, H.M.89
Wang, J.90
Sun, R.F.91
Zhang, B.X.92
Jiang, S.Z.93
Wang, J.94
Du, Y.C.95
Li, S.G.96
more..
-
79
-
-
77956271593
-
Cucumber (Cucumis sativus) and melon (C. melo) have numerous wild relatives in Asia and Australia, and the sister species of melon is from Australia
-
Sebastian P., Schaefer H., Telford I.R.H., Renner S.S. Cucumber (Cucumis sativus) and melon (C. melo) have numerous wild relatives in Asia and Australia, and the sister species of melon is from Australia. Proc. Natl. Acad. Sci. U.S.A. 2010, 107:14269-14273.
-
(2010)
Proc. Natl. Acad. Sci. U.S.A.
, vol.107
, pp. 14269-14273
-
-
Sebastian, P.1
Schaefer, H.2
Telford, I.R.H.3
Renner, S.S.4
-
81
-
-
84888360015
-
A genomic variation map provides insights into the genetic basis of cucumber domestication and diversity
-
Qi J.J., Liu X., Shen D., Miao H., Xie B.Y., Li X.X., Zeng P., Wang S.H., Shang Y., Gu X.F., Du Y.C., Li Y., Lin T., Yuan J.H., Yang X.Y., Chen J.F., Chen H.M., Xiong X.Y., Huang K., Fei Z.J., Mao L.Y., Tian L., Stadler T., Renner S.S., Kamoun S., Lucas W.J., Zhang Z.H., Huang S.W. A genomic variation map provides insights into the genetic basis of cucumber domestication and diversity. Nat. Genet. 2013, 45:1510-1515.
-
(2013)
Nat. Genet.
, vol.45
, pp. 1510-1515
-
-
Qi, J.J.1
Liu, X.2
Shen, D.3
Miao, H.4
Xie, B.Y.5
Li, X.X.6
Zeng, P.7
Wang, S.H.8
Shang, Y.9
Gu, X.F.10
Du, Y.C.11
Li, Y.12
Lin, T.13
Yuan, J.H.14
Yang, X.Y.15
Chen, J.F.16
Chen, H.M.17
Xiong, X.Y.18
Huang, K.19
Fei, Z.J.20
Mao, L.Y.21
Tian, L.22
Stadler, T.23
Renner, S.S.24
Kamoun, S.25
Lucas, W.J.26
Zhang, Z.H.27
Huang, S.W.28
more..
-
82
-
-
84863888434
-
The genome of melon (Cucumis melo L.)
-
Garcia-Mas J., Benjak A., Sanseverino W., Bourgeois M., Mir G., Gonzalez V.M., Henaff E., Camara F., Cozzuto L., Lowy E., Alioto T., Capella-Gutierrez S., Blanca J., Canizares J., Ziarsolo P., Gonzalez-Ibeas D., Rodriguez-Moreno L., Droege M., Du L., Alvarez-Tejado M., Lorente-Galdos B., Mele M., Yang L.M., Weng Y.Q., Navarro A., Marques-Bonet T., Aranda M.A., Nuez F., Pico B., Gabaldon T., Roma G., Guigo R., Casacuberta J.M., Arus P., Puigdomenech P. The genome of melon (Cucumis melo L.). Proc. Natl. Acad. Sci. U.S.A. 2012, 109:11872-11877.
-
(2012)
Proc. Natl. Acad. Sci. U.S.A.
, vol.109
, pp. 11872-11877
-
-
Garcia-Mas, J.1
Benjak, A.2
Sanseverino, W.3
Bourgeois, M.4
Mir, G.5
Gonzalez, V.M.6
Henaff, E.7
Camara, F.8
Cozzuto, L.9
Lowy, E.10
Alioto, T.11
Capella-Gutierrez, S.12
Blanca, J.13
Canizares, J.14
Ziarsolo, P.15
Gonzalez-Ibeas, D.16
Rodriguez-Moreno, L.17
Droege, M.18
Du, L.19
Alvarez-Tejado, M.20
Lorente-Galdos, B.21
Mele, M.22
Yang, L.M.23
Weng, Y.Q.24
Navarro, A.25
Marques-Bonet, T.26
Aranda, M.A.27
Nuez, F.28
Pico, B.29
Gabaldon, T.30
Roma, G.31
Guigo, R.32
Casacuberta, J.M.33
Arus, P.34
Puigdomenech, P.35
more..
-
83
-
-
84887968290
-
Phenotypic diversity in wild and cultivated melons (Cucumis melo)
-
Pitrat M. Phenotypic diversity in wild and cultivated melons (Cucumis melo). Plant Biotechnol. Nar. 2013, 30:273-278.
-
(2013)
Plant Biotechnol. Nar.
, vol.30
, pp. 273-278
-
-
Pitrat, M.1
-
84
-
-
79251636555
-
The genome of woodland strawberry (Fragaria vesca)
-
Shulaev V., Sargent D.J., Crowhurst R.N., Mockler T.C., Folkerts O., Delcher A.L., Jaiswal P., Mockaitis K., Liston A., Mane S.P., Burns P., Davis T.M., Slovin J.P., Bassil N., Hellens R.P., Evans C., Harkins T., Kodira C., Desany B., Crasta O.R., Jensen R.V., Allan A.C., Michael T.P., Setubal J.C., Celton J.M., Rees D.J.G., Williams K.P., Holt S.H., Rojas J.J.R., Chatterjee M., Liu B., Silva H., Meisel L., Adato A., Filichkin S.A., Troggio M., Viola R., Ashman T.L., Wang H., Dharmawardhana P., Elser J., Raja R., Priest H.D., Bryant D.W., Fox S.E., Givan S.A., Wilhelm L.J., Naithani S., Christoffels A., Salama D.Y., Carter J., Girona E.L., Zdepski A., Wang W.Q., Kerstetter R.A., Schwab W., Korban S.S., Davik J., Monfort A., Denoyes-Rothan B., Arus P., Mittler R., Flinn B., Aharoni A., Bennetzen J.L., Salzberg S.L., Dickerman A.W., Velasco R., Borodovsky M., Veilleux R.E., Folta K.M. The genome of woodland strawberry (Fragaria vesca). Nat. Genet. 2011, 43:109-116.
-
(2011)
Nat. Genet.
, vol.43
, pp. 109-116
-
-
Shulaev, V.1
Sargent, D.J.2
Crowhurst, R.N.3
Mockler, T.C.4
Folkerts, O.5
Delcher, A.L.6
Jaiswal, P.7
Mockaitis, K.8
Liston, A.9
Mane, S.P.10
Burns, P.11
Davis, T.M.12
Slovin, J.P.13
Bassil, N.14
Hellens, R.P.15
Evans, C.16
Harkins, T.17
Kodira, C.18
Desany, B.19
Crasta, O.R.20
Jensen, R.V.21
Allan, A.C.22
Michael, T.P.23
Setubal, J.C.24
Celton, J.M.25
Rees, D.J.G.26
Williams, K.P.27
Holt, S.H.28
Rojas, J.J.R.29
Chatterjee, M.30
Liu, B.31
Silva, H.32
Meisel, L.33
Adato, A.34
Filichkin, S.A.35
Troggio, M.36
Viola, R.37
Ashman, T.L.38
Wang, H.39
Dharmawardhana, P.40
Elser, J.41
Raja, R.42
Priest, H.D.43
Bryant, D.W.44
Fox, S.E.45
Givan, S.A.46
Wilhelm, L.J.47
Naithani, S.48
Christoffels, A.49
Salama, D.Y.50
Carter, J.51
Girona, E.L.52
Zdepski, A.53
Wang, W.Q.54
Kerstetter, R.A.55
Schwab, W.56
Korban, S.S.57
Davik, J.58
Monfort, A.59
Denoyes-Rothan, B.60
Arus, P.61
Mittler, R.62
Flinn, B.63
Aharoni, A.64
Bennetzen, J.L.65
Salzberg, S.L.66
Dickerman, A.W.67
Velasco, R.68
Borodovsky, M.69
Veilleux, R.E.70
Folta, K.M.71
more..
-
85
-
-
18244385479
-
Interspecific hybridization of Fragaria vesca subspecies with F. nilgerrensis, F. nubicola, F. pentaphylla, and F. viridis
-
Bors R.H., Sullivan J.A. Interspecific hybridization of Fragaria vesca subspecies with F. nilgerrensis, F. nubicola, F. pentaphylla, and F. viridis. J. Am. Soc. Hortic. Sci. 2005, 130:418-423.
-
(2005)
J. Am. Soc. Hortic. Sci.
, vol.130
, pp. 418-423
-
-
Bors, R.H.1
Sullivan, J.A.2
-
86
-
-
84855985411
-
Fragaria
-
Springer, Berlin, C. Kole (Ed.)
-
Hummer K.E., Bassil N., Njuguna W. Fragaria. Wild Crop Relatives: Genomic and Breeding Resources: Temperate Fruits 2011, 17-44. Springer, Berlin. C. Kole (Ed.).
-
(2011)
Wild Crop Relatives: Genomic and Breeding Resources: Temperate Fruits
, pp. 17-44
-
-
Hummer, K.E.1
Bassil, N.2
Njuguna, W.3
-
87
-
-
84899077311
-
Dissection of the octoploid strawberry genome by deep sequencing of the genomes of Fragaria species
-
Hirakawa H., Shirasawa K., Kosugi S., Tashiro K., Nakayama S., Yamada M., Kohara M., Watanabe A., Kishida Y., Fujishiro T., Tsuruoka H., Minami C., Sasamoto S., Kato M., Nanri K., Komaki A., Yanagi T., Qin G.X., Maeda F., Ishikawa M., Kuhara S., Sato S., Tabata S., Isobe S.N. Dissection of the octoploid strawberry genome by deep sequencing of the genomes of Fragaria species. DNA Res. 2014, 21:169-181.
-
(2014)
DNA Res.
, vol.21
, pp. 169-181
-
-
Hirakawa, H.1
Shirasawa, K.2
Kosugi, S.3
Tashiro, K.4
Nakayama, S.5
Yamada, M.6
Kohara, M.7
Watanabe, A.8
Kishida, Y.9
Fujishiro, T.10
Tsuruoka, H.11
Minami, C.12
Sasamoto, S.13
Kato, M.14
Nanri, K.15
Komaki, A.16
Yanagi, T.17
Qin, G.X.18
Maeda, F.19
Ishikawa, M.20
Kuhara, S.21
Sato, S.22
Tabata, S.23
Isobe, S.N.24
more..
-
88
-
-
74549221016
-
Genome sequence of the palaeopolyploid soybean
-
Schmutz J., Cannon S.B., Schlueter J., Ma J.X., Mitros T., Nelson W., Hyten D.L., Song Q.J., Thelen J.J., Cheng J.L., Xu D., Hellsten U., May G.D., Yu Y., Sakurai T., Umezawa T., Bhattacharyya M.K., Sandhu D., Valliyodan B., Lindquist E., Peto M., Grant D., Shu S.Q., Goodstein D., Barry K., Futrell-Griggs M., Abernathy B., Du J.C., Tian Z.X., Zhu L.C., Gill N., Joshi T., Libault M., Sethuraman A., Zhang X.C., Shinozaki K., Nguyen H.T., Wing R.A., Cregan P., Specht J., Grimwood J., Rokhsar D., Stacey G., Shoemaker R.C., Jackson S.A. Genome sequence of the palaeopolyploid soybean. Nature 2010, 463:178-183.
-
(2010)
Nature
, vol.463
, pp. 178-183
-
-
Schmutz, J.1
Cannon, S.B.2
Schlueter, J.3
Ma, J.X.4
Mitros, T.5
Nelson, W.6
Hyten, D.L.7
Song, Q.J.8
Thelen, J.J.9
Cheng, J.L.10
Xu, D.11
Hellsten, U.12
May, G.D.13
Yu, Y.14
Sakurai, T.15
Umezawa, T.16
Bhattacharyya, M.K.17
Sandhu, D.18
Valliyodan, B.19
Lindquist, E.20
Peto, M.21
Grant, D.22
Shu, S.Q.23
Goodstein, D.24
Barry, K.25
Futrell-Griggs, M.26
Abernathy, B.27
Du, J.C.28
Tian, Z.X.29
Zhu, L.C.30
Gill, N.31
Joshi, T.32
Libault, M.33
Sethuraman, A.34
Zhang, X.C.35
Shinozaki, K.36
Nguyen, H.T.37
Wing, R.A.38
Cregan, P.39
Specht, J.40
Grimwood, J.41
Rokhsar, D.42
Stacey, G.43
Shoemaker, R.C.44
Jackson, S.A.45
more..
-
89
-
-
84870240530
-
Identification of positive yield QTL alleles from exotic soybean germplasm in two backcross populations
-
Kim K.S., Diers B.W., Hyten D.L., Mian M.A.R., Shannon J.G., Nelson R.L. Identification of positive yield QTL alleles from exotic soybean germplasm in two backcross populations. Theor. Appl. Genet. 2012, 125:1353-1369.
-
(2012)
Theor. Appl. Genet.
, vol.125
, pp. 1353-1369
-
-
Kim, K.S.1
Diers, B.W.2
Hyten, D.L.3
Mian, M.A.R.4
Shannon, J.G.5
Nelson, R.L.6
-
90
-
-
0041171311
-
Possible transfer of resistance to Heterodera glycines from Glycine tomentella to Glycine max
-
Riggs R.D., Wang S., Singh R.J., Hymowitz T. Possible transfer of resistance to Heterodera glycines from Glycine tomentella to Glycine max. J. Nematol. 1998, 30:547-552.
-
(1998)
J. Nematol.
, vol.30
, pp. 547-552
-
-
Riggs, R.D.1
Wang, S.2
Singh, R.J.3
Hymowitz, T.4
-
91
-
-
78649479141
-
Resequencing of 31 wild and cultivated soybean genomes identifies patterns of genetic diversity and selection
-
Lam H.M., Xu X., Liu X., Chen W.B., Yang G.H., Wong F.L., Li M.W., He W.M., Qin N., Wang B., Li J., Jian M., Wang J.A., Shao G.H., Wang J., Sun S.S.M., Zhang G.Y. Resequencing of 31 wild and cultivated soybean genomes identifies patterns of genetic diversity and selection. Nat. Genet. 2010, 42:1053-1059.
-
(2010)
Nat. Genet.
, vol.42
, pp. 1053-1059
-
-
Lam, H.M.1
Xu, X.2
Liu, X.3
Chen, W.B.4
Yang, G.H.5
Wong, F.L.6
Li, M.W.7
He, W.M.8
Qin, N.9
Wang, B.10
Li, J.11
Jian, M.12
Wang, J.A.13
Shao, G.H.14
Wang, J.15
Sun, S.S.M.16
Zhang, G.Y.17
-
92
-
-
84923019049
-
De novo assembly of soybean wild relatives for pan-genome analysis of diversity and agronomic traits
-
Li Y.H., Zhou G.Y., Ma J.X., Jiang W.K., Jin L.G., Zhang Z.H., Guo Y., Zhang J.B., Sui Y., Zheng L.T., Zhang S.S., Zuo Q.Y., Shi X.H., Li Y.F., Zhang W.K., Hu Y.Y., Kong G.Y., Hong H.L., Tan B., Song J., Liu Z.X., Wang Y.S., Ruan H., Yeung C.K.L., Liu J., Wang H.L., Zhang L.J., Guan R.X., Wang K.J., Li W.B., Chen S.Y., Chang R.Z., Jiang Z., Jackson S.A., Li R.Q., Qiu L.J. De novo assembly of soybean wild relatives for pan-genome analysis of diversity and agronomic traits. Nat. Biotechnol. 2014, 32:1045.
-
(2014)
Nat. Biotechnol.
, vol.32
, pp. 1045
-
-
Li, Y.H.1
Zhou, G.Y.2
Ma, J.X.3
Jiang, W.K.4
Jin, L.G.5
Zhang, Z.H.6
Guo, Y.7
Zhang, J.B.8
Sui, Y.9
Zheng, L.T.10
Zhang, S.S.11
Zuo, Q.Y.12
Shi, X.H.13
Li, Y.F.14
Zhang, W.K.15
Hu, Y.Y.16
Kong, G.Y.17
Hong, H.L.18
Tan, B.19
Song, J.20
Liu, Z.X.21
Wang, Y.S.22
Ruan, H.23
Yeung, C.K.L.24
Liu, J.25
Wang, H.L.26
Zhang, L.J.27
Guan, R.X.28
Wang, K.J.29
Li, W.B.30
Chen, S.Y.31
Chang, R.Z.32
Jiang, Z.33
Jackson, S.A.34
Li, R.Q.35
Qiu, L.J.36
more..
-
93
-
-
84866941666
-
The draft genome of a diploid cotton Gossypium raimondii
-
Wang K.B., Wang Z.W., Li F.G., Ye W.W., Wang J.Y., Song G.L., Yue Z., Cong L., Shang H.H., Zhu S.L., Zou C.S., Li Q., Yuan Y.L., Lu C.R., Wei H.L., Gou C.Y., Zheng Z.Q., Yin Y., Zhang X.Y., Liu K., Wang B., Song C., Shi N., Kohel R.J., Percy R.G., Yu J.Z., Zhu Y.X., Wang J., Yu S.X. The draft genome of a diploid cotton Gossypium raimondii. Nat. Genet. 2012, 44:1098.
-
(2012)
Nat. Genet.
, vol.44
, pp. 1098
-
-
Wang, K.B.1
Wang, Z.W.2
Li, F.G.3
Ye, W.W.4
Wang, J.Y.5
Song, G.L.6
Yue, Z.7
Cong, L.8
Shang, H.H.9
Zhu, S.L.10
Zou, C.S.11
Li, Q.12
Yuan, Y.L.13
Lu, C.R.14
Wei, H.L.15
Gou, C.Y.16
Zheng, Z.Q.17
Yin, Y.18
Zhang, X.Y.19
Liu, K.20
Wang, B.21
Song, C.22
Shi, N.23
Kohel, R.J.24
Percy, R.G.25
Yu, J.Z.26
Zhu, Y.X.27
Wang, J.28
Yu, S.X.29
more..
-
94
-
-
84949177358
-
Jeans, genes, and genomes cotton as a model for studying polyploidy
-
Springer, Berlin, Heidelberg, P.S. Soltis, D.E. Soltis (Eds.)
-
Wendel J., Flagel L., Adams K. Jeans, genes, and genomes cotton as a model for studying polyploidy. Polyploidy and Genome Evolution 2012, 181-207. Springer, Berlin, Heidelberg. P.S. Soltis, D.E. Soltis (Eds.).
-
(2012)
Polyploidy and Genome Evolution
, pp. 181-207
-
-
Wendel, J.1
Flagel, L.2
Adams, K.3
-
95
-
-
84866344695
-
The worldwide gene pools of Gossypium arboreum L. and G. herbaceum L., and their improvement
-
Springer, USA, A. Paterson (Ed.)
-
Kulkarni V., Khadi B., Maralappanavar M., Deshapande L., Narayanan S.S. The worldwide gene pools of Gossypium arboreum L. and G. herbaceum L., and their improvement. Genetics and Genomics of Cotton 2009, 69-97. Springer, USA. A. Paterson (Ed.).
-
(2009)
Genetics and Genomics of Cotton
, pp. 69-97
-
-
Kulkarni, V.1
Khadi, B.2
Maralappanavar, M.3
Deshapande, L.4
Narayanan, S.S.5
-
96
-
-
84901653166
-
Genome sequence of the cultivated cotton Gossypium arboreum
-
Li F.G., Fan G.Y., Wang K.B., Sun F.M., Yuan Y.L., Song G.L., Li Q., Ma Z.Y., Lu C.R., Zou C.S., Chen W.B., Liang X.M., Shang H.H., Liu W.Q., Shi C.C., Xiao G.H., Gou C.Y., Ye W.W., Xu X., Zhang X.Y., Wei H.L., Li Z.F., Zhang G.Y., Wang J.Y., Liu K., Kohel R.J., Percy R.G., Yu J.Z., Zhu Y.X., Wang J., Yu S.X. Genome sequence of the cultivated cotton Gossypium arboreum. Nat. Genet. 2014, 46:567-572.
-
(2014)
Nat. Genet.
, vol.46
, pp. 567-572
-
-
Li, F.G.1
Fan, G.Y.2
Wang, K.B.3
Sun, F.M.4
Yuan, Y.L.5
Song, G.L.6
Li, Q.7
Ma, Z.Y.8
Lu, C.R.9
Zou, C.S.10
Chen, W.B.11
Liang, X.M.12
Shang, H.H.13
Liu, W.Q.14
Shi, C.C.15
Xiao, G.H.16
Gou, C.Y.17
Ye, W.W.18
Xu, X.19
Zhang, X.Y.20
Wei, H.L.21
Li, Z.F.22
Zhang, G.Y.23
Wang, J.Y.24
Liu, K.25
Kohel, R.J.26
Percy, R.G.27
Yu, J.Z.28
Zhu, Y.X.29
Wang, J.30
Yu, S.X.31
more..
-
97
-
-
84870265846
-
A physical, genetic and functional sequence assembly of the barley genome
-
Mayer K.F.X., Waugh R., Langridge P., Close T.J., Wise R.P., Graner A., Matsumoto T., Sato K., Schulman A., Muehlbauer G.J., Stein N., Ariyadasa R., Schulte D., Poursarebani N., Zhou R.N., Steuernagel B., Mascher M., Scholz U., Shi B.J., Langridge P., Madishetty K., Svensson J.T., Bhat P., Moscou M., Resnik J., Close T.J., Muehlbauer G.J., Hedley P., Liu H., Morris J., Waugh R., Frenkel Z., Korol A., Berges H., Graner A., Stein N., Steuernagel B., Taudien S., Groth M., Felder M., Platzer M., Brown J.W.S., Schulman A., Platzer M., Fincher G.B., Muehlbauer G.J., Sato K., Taudien S., Sampath D., Swarbreck D., Scalabrin S., Zuccolo A., Vendramin V., Morgante M., Mayer K.F.X., Schulman A., Conso I.B.G.S. A physical, genetic and functional sequence assembly of the barley genome. Nature 2012, 491:711.
-
(2012)
Nature
, vol.491
, pp. 711
-
-
Mayer, K.F.X.1
Waugh, R.2
Langridge, P.3
Close, T.J.4
Wise, R.P.5
Graner, A.6
Matsumoto, T.7
Sato, K.8
Schulman, A.9
Muehlbauer, G.J.10
Stein, N.11
Ariyadasa, R.12
Schulte, D.13
Poursarebani, N.14
Zhou, R.N.15
Steuernagel, B.16
Mascher, M.17
Scholz, U.18
Shi, B.J.19
Langridge, P.20
Madishetty, K.21
Svensson, J.T.22
Bhat, P.23
Moscou, M.24
Resnik, J.25
Close, T.J.26
Muehlbauer, G.J.27
Hedley, P.28
Liu, H.29
Morris, J.30
Waugh, R.31
Frenkel, Z.32
Korol, A.33
Berges, H.34
Graner, A.35
Stein, N.36
Steuernagel, B.37
Taudien, S.38
Groth, M.39
Felder, M.40
Platzer, M.41
Brown, J.W.S.42
Schulman, A.43
Platzer, M.44
Fincher, G.B.45
Muehlbauer, G.J.46
Sato, K.47
Taudien, S.48
Sampath, D.49
Swarbreck, D.50
Scalabrin, S.51
Zuccolo, A.52
Vendramin, V.53
Morgante, M.54
Mayer, K.F.X.55
Schulman, A.56
Conso, I.B.G.S.57
more..
-
98
-
-
84890428952
-
Wheat-barley hybridization: the last 40 years
-
Molnar-Lang M., Linc G., Szakacs E. Wheat-barley hybridization: the last 40 years. Euphytica 2014, 195:315-329.
-
(2014)
Euphytica
, vol.195
, pp. 315-329
-
-
Molnar-Lang, M.1
Linc, G.2
Szakacs, E.3
-
99
-
-
84921713652
-
The draft genome of Tibetan hulless barley reveals adaptive patterns to the high stressful Tibetan Plateau
-
Zeng X.Q., Long H., Wang Z., Zhao S.C., Tang Y.W., Huang Z.Y., Wang Y.L., Xu Q.J., Mao L.K., Deng G.B., Yao X.M., Li X.F., Bai L.J., Yuan H.J., Pan Z.F., Liu R.J., Chen X., WangMu Q.M., Chen M., Yu L.L., Liang J.J., DunZhu D.W., Zheng Y., Yu S.Y., Luobu Z.X., Guang X.M., Li J., Deng C., Hu W.S., Chen C.H., TaBa X.N., Gao L.Y., Lv X.D., Ben Abu Y., Fang X.D., Nevo E., Yu M.Q., Wang J., Tashi N. The draft genome of Tibetan hulless barley reveals adaptive patterns to the high stressful Tibetan Plateau. Proc. Natl. Acad. Sci. U.S.A. 2015, 112:1095-1100.
-
(2015)
Proc. Natl. Acad. Sci. U.S.A.
, vol.112
, pp. 1095-1100
-
-
Zeng, X.Q.1
Long, H.2
Wang, Z.3
Zhao, S.C.4
Tang, Y.W.5
Huang, Z.Y.6
Wang, Y.L.7
Xu, Q.J.8
Mao, L.K.9
Deng, G.B.10
Yao, X.M.11
Li, X.F.12
Bai, L.J.13
Yuan, H.J.14
Pan, Z.F.15
Liu, R.J.16
Chen, X.17
WangMu, Q.M.18
Chen, M.19
Yu, L.L.20
Liang, J.J.21
DunZhu, D.W.22
Zheng, Y.23
Yu, S.Y.24
Luobu, Z.X.25
Guang, X.M.26
Li, J.27
Deng, C.28
Hu, W.S.29
Chen, C.H.30
TaBa, X.N.31
Gao, L.Y.32
Lv, X.D.33
Ben Abu, Y.34
Fang, X.D.35
Nevo, E.36
Yu, M.Q.37
Wang, J.38
Tashi, N.39
more..
-
100
-
-
84924333080
-
Transcriptome sequencing of two wild barley (Hordeum spontaneum L.) ecotypes differentially adapted to drought stress reveals ecotype-specific transcripts
-
Bedada G., Westerbergh A., Muller T., Galkin E., Bdolach E., Moshelion M., Fridman E., Schmid K.J. Transcriptome sequencing of two wild barley (Hordeum spontaneum L.) ecotypes differentially adapted to drought stress reveals ecotype-specific transcripts. BMC Genomics 2014, 15.
-
(2014)
BMC Genomics
, vol.15
-
-
Bedada, G.1
Westerbergh, A.2
Muller, T.3
Galkin, E.4
Bdolach, E.5
Moshelion, M.6
Fridman, E.7
Schmid, K.J.8
-
101
-
-
77957560949
-
The genome of the domesticated apple (Malus×domestica Borkh.)
-
Velasco R., Zharkikh A., Affourtit J., Dhingra A., Cestaro A., Kalyanaraman A., Fontana P., Bhatnagar S.K., Troggio M., Pruss D., Salvi S., Pindo M., Baldi P., Castelletti S., Cavaiuolo M., Coppola G., Costa F., Cova V., Dal Ri A., Goremykin V., Komjanc M., Longhi S., Magnago P., Malacarne G., Malnoy M., Micheletti D., Moretto M., Perazzolli M., Si-Ammour A., Vezzulli S., Zini E., Eldredge G., Fitzgerald L.M., Gutin N., Lanchbury J., Macalma T., Mitchell J.T., Reid J., Wardell B., Kodira C., Chen Z., Desany B., Niazi F., Palmer M., Koepke T., Jiwan D., Schaeffer S., Krishnan V., Wu C., Chu V.T., King S.T., Vick J., Tao Q., Mraz A., Stormo A., Stormo K., Bogden R., Ederle D., Stella A., Vecchietti A., Kater M.M., Masiero S., Lasserre P., Lespinasse Y., Allan A.C., Bus V., Chagne D., Crowhurst R.N., Gleave A.P., Lavezzo E., Fawcett J.A., Proost S., Rouze P., Sterck L., Toppo S., Lazzari B., Hellens R.P., Durel C.E., Gutin A., Bumgarner R.E., Gardiner S.E., Skolnick M., Egholm M., Van de Peer Y., Salamini F., Viola R. The genome of the domesticated apple (Malus×domestica Borkh.). Nat. Genet. 2010, 42:833.
-
(2010)
Nat. Genet.
, vol.42
, pp. 833
-
-
Velasco, R.1
Zharkikh, A.2
Affourtit, J.3
Dhingra, A.4
Cestaro, A.5
Kalyanaraman, A.6
Fontana, P.7
Bhatnagar, S.K.8
Troggio, M.9
Pruss, D.10
Salvi, S.11
Pindo, M.12
Baldi, P.13
Castelletti, S.14
Cavaiuolo, M.15
Coppola, G.16
Costa, F.17
Cova, V.18
Dal Ri, A.19
Goremykin, V.20
Komjanc, M.21
Longhi, S.22
Magnago, P.23
Malacarne, G.24
Malnoy, M.25
Micheletti, D.26
Moretto, M.27
Perazzolli, M.28
Si-Ammour, A.29
Vezzulli, S.30
Zini, E.31
Eldredge, G.32
Fitzgerald, L.M.33
Gutin, N.34
Lanchbury, J.35
Macalma, T.36
Mitchell, J.T.37
Reid, J.38
Wardell, B.39
Kodira, C.40
Chen, Z.41
Desany, B.42
Niazi, F.43
Palmer, M.44
Koepke, T.45
Jiwan, D.46
Schaeffer, S.47
Krishnan, V.48
Wu, C.49
Chu, V.T.50
King, S.T.51
Vick, J.52
Tao, Q.53
Mraz, A.54
Stormo, A.55
Stormo, K.56
Bogden, R.57
Ederle, D.58
Stella, A.59
Vecchietti, A.60
Kater, M.M.61
Masiero, S.62
Lasserre, P.63
Lespinasse, Y.64
Allan, A.C.65
Bus, V.66
Chagne, D.67
Crowhurst, R.N.68
Gleave, A.P.69
Lavezzo, E.70
Fawcett, J.A.71
Proost, S.72
Rouze, P.73
Sterck, L.74
Toppo, S.75
Lazzari, B.76
Hellens, R.P.77
Durel, C.E.78
Gutin, A.79
Bumgarner, R.E.80
Gardiner, S.E.81
Skolnick, M.82
Egholm, M.83
Van de Peer, Y.84
Salamini, F.85
Viola, R.86
more..
-
102
-
-
84919345963
-
Identification of a major quantitative trait locus for resistance to fire blight in the wild apple species Malus fusca
-
Emeriewen O., Richter K., Kilian A., Zini E., Hanke M.V., Malnoy M., Peil A. Identification of a major quantitative trait locus for resistance to fire blight in the wild apple species Malus fusca. Mol. Breed. 2014, 34:407-419.
-
(2014)
Mol. Breed.
, vol.34
, pp. 407-419
-
-
Emeriewen, O.1
Richter, K.2
Kilian, A.3
Zini, E.4
Hanke, M.V.5
Malnoy, M.6
Peil, A.7
-
104
-
-
84884875985
-
Draft genome sequence of the mulberry tree Morus notabilis
-
He N.J., Zhang C., Qi X.W., Zhao S.C., Tao Y., Yang G.J., Lee T.H., Wang X.Y., Cai Q.L., Li D., Lu M.Z., Liao S.T., Luo G.Q., He R.J., Tan X., Xu Y.M., Li T., Zhao A.C., Jia L., Fu Q., Zeng Q.W., Gao C., Ma B., Liang J.B., Wang X.L., Shang J.Z., Song P.H., Wu H.Y., Fan L., Wang Q., Shuai Q., Zhu J.J., Wei C.J., Zhu-Salzman K., Jin D.C., Wang J.P., Liu T., Yu M.D., Tang C.M., Wang Z.J., Dai F.W., Chen J.F., Liu Y., Zhao S.T., Lin T.B., Zhang S.G., Wang J.Y., Wang J., Yang H.M., Yang G.W., Wang J., Paterson A.H., Xia Q.Y., Ji D.F., Xiang Z.H. Draft genome sequence of the mulberry tree Morus notabilis. Nat. Commun. 2013, 4.
-
(2013)
Nat. Commun.
, vol.4
-
-
He, N.J.1
Zhang, C.2
Qi, X.W.3
Zhao, S.C.4
Tao, Y.5
Yang, G.J.6
Lee, T.H.7
Wang, X.Y.8
Cai, Q.L.9
Li, D.10
Lu, M.Z.11
Liao, S.T.12
Luo, G.Q.13
He, R.J.14
Tan, X.15
Xu, Y.M.16
Li, T.17
Zhao, A.C.18
Jia, L.19
Fu, Q.20
Zeng, Q.W.21
Gao, C.22
Ma, B.23
Liang, J.B.24
Wang, X.L.25
Shang, J.Z.26
Song, P.H.27
Wu, H.Y.28
Fan, L.29
Wang, Q.30
Shuai, Q.31
Zhu, J.J.32
Wei, C.J.33
Zhu-Salzman, K.34
Jin, D.C.35
Wang, J.P.36
Liu, T.37
Yu, M.D.38
Tang, C.M.39
Wang, Z.J.40
Dai, F.W.41
Chen, J.F.42
Liu, Y.43
Zhao, S.T.44
Lin, T.B.45
Zhang, S.G.46
Wang, J.Y.47
Wang, J.48
Yang, H.M.49
Yang, G.W.50
Wang, J.51
Paterson, A.H.52
Xia, Q.Y.53
Ji, D.F.54
Xiang, Z.H.55
more..
-
105
-
-
84860804516
-
Phylogenetics of Morus (Moraceae) inferred from ITS and trnL-trnF sequence data
-
Nepal M.P., Ferguson C.J. Phylogenetics of Morus (Moraceae) inferred from ITS and trnL-trnF sequence data. Syst. Bot. 2012, 37:442-450.
-
(2012)
Syst. Bot.
, vol.37
, pp. 442-450
-
-
Nepal, M.P.1
Ferguson, C.J.2
-
106
-
-
77954083370
-
The emerging role of genomic tools in mulberry (Morus) genetic improvement
-
Vijayan K. The emerging role of genomic tools in mulberry (Morus) genetic improvement. Tree Genet. Genomes 2010, 6:613-625.
-
(2010)
Tree Genet. Genomes
, vol.6
, pp. 613-625
-
-
Vijayan, K.1
-
107
-
-
84864696893
-
The banana (Musa acuminata) genome and the evolution of monocotyledonous plants
-
D'Hont A., Denoeud F., Aury J.M., Baurens F.C., Carreel F., Garsmeur O., Noel B., Bocs S., Droc G., Rouard M., Da Silva C., Jabbari K., Cardi C., Poulain J., Souquet M., Labadie K., Jourda C., Lengelle J., Rodier-Goud M., Alberti A., Bernard M., Correa M., Ayyampalayam S., Mckain M.R., Leebens-Mack J., Burgess D., Freeling M., Mbeguie-A-Mbeguie D., Chabannes M., Wicker T., Panaud O., Barbosa J., Hribova E., Heslop-Harrison P., Habas R., Rivallan R., Francois P., Poiron C., Kilian A., Burthia D., Jenny C., Bakry F., Brown S., Guignon V., Kema G., Dita M., Waalwijk C., Joseph S., Dievart A., Jaillon O., Leclercq J., Argout X., Lyons E., Almeida A., Jeridi M., Dolezel J., Roux N., Risterucci A.M., Weissenbach J., Ruiz M., Glaszmann J.C., Quetier F., Yahiaoui N., Wincker P. The banana (Musa acuminata) genome and the evolution of monocotyledonous plants. Nature 2012, 488:213.
-
(2012)
Nature
, vol.488
, pp. 213
-
-
D'Hont, A.1
Denoeud, F.2
Aury, J.M.3
Baurens, F.C.4
Carreel, F.5
Garsmeur, O.6
Noel, B.7
Bocs, S.8
Droc, G.9
Rouard, M.10
Da Silva, C.11
Jabbari, K.12
Cardi, C.13
Poulain, J.14
Souquet, M.15
Labadie, K.16
Jourda, C.17
Lengelle, J.18
Rodier-Goud, M.19
Alberti, A.20
Bernard, M.21
Correa, M.22
Ayyampalayam, S.23
Mckain, M.R.24
Leebens-Mack, J.25
Burgess, D.26
Freeling, M.27
Mbeguie-A-Mbeguie, D.28
Chabannes, M.29
Wicker, T.30
Panaud, O.31
Barbosa, J.32
Hribova, E.33
Heslop-Harrison, P.34
Habas, R.35
Rivallan, R.36
Francois, P.37
Poiron, C.38
Kilian, A.39
Burthia, D.40
Jenny, C.41
Bakry, F.42
Brown, S.43
Guignon, V.44
Kema, G.45
Dita, M.46
Waalwijk, C.47
Joseph, S.48
Dievart, A.49
Jaillon, O.50
Leclercq, J.51
Argout, X.52
Lyons, E.53
Almeida, A.54
Jeridi, M.55
Dolezel, J.56
Roux, N.57
Risterucci, A.M.58
Weissenbach, J.59
Ruiz, M.60
Glaszmann, J.C.61
Quetier, F.62
Yahiaoui, N.63
Wincker, P.64
more..
-
108
-
-
84884921561
-
A draft Musa balbisiana genome sequence for molecular genetics in polyploid, inter- and intra-specific Musa hybrids
-
Davey M.W., Gudimella R., Harikrishna J.A., Sin L.W., Khalid N., Keulemans J. A draft Musa balbisiana genome sequence for molecular genetics in polyploid, inter- and intra-specific Musa hybrids. BMC Genomics 2013, 14.
-
(2013)
BMC Genomics
, vol.14
-
-
Davey, M.W.1
Gudimella, R.2
Harikrishna, J.A.3
Sin, L.W.4
Khalid, N.5
Keulemans, J.6
-
109
-
-
0037023349
-
A draft sequence of the rice genome (Oryza sativa L. ssp japonica)
-
Goff S.A., Ricke D., Lan T.H., Presting G., Wang R.L., Dunn M., Glazebrook J., Sessions A., Oeller P., Varma H., Hadley D., Hutchinson D., Martin C., Katagiri F., Lange B.M., Moughamer T., Xia Y., Budworth P., Zhong J.P., Miguel T., Paszkowski U., Zhang S.P., Colbert M., Sun W.L., Chen L.L., Cooper B., Park S., Wood T.C., Mao L., Quail P., Wing R., Dean R., Yu Y.S., Zharkikh A., Shen R., Sahasrabudhe S., Thomas A., Cannings R., Gutin A., Pruss D., Reid J., Tavtigian S., Mitchell J., Eldredge G., Scholl T., Miller R.M., Bhatnagar S., Adey N., Rubano T., Tusneem N., Robinson R., Feldhaus J., Macalma T., Oliphant A., Briggs S. A draft sequence of the rice genome (Oryza sativa L. ssp japonica). Science 2002, 296:92-100.
-
(2002)
Science
, vol.296
, pp. 92-100
-
-
Goff, S.A.1
Ricke, D.2
Lan, T.H.3
Presting, G.4
Wang, R.L.5
Dunn, M.6
Glazebrook, J.7
Sessions, A.8
Oeller, P.9
Varma, H.10
Hadley, D.11
Hutchinson, D.12
Martin, C.13
Katagiri, F.14
Lange, B.M.15
Moughamer, T.16
Xia, Y.17
Budworth, P.18
Zhong, J.P.19
Miguel, T.20
Paszkowski, U.21
Zhang, S.P.22
Colbert, M.23
Sun, W.L.24
Chen, L.L.25
Cooper, B.26
Park, S.27
Wood, T.C.28
Mao, L.29
Quail, P.30
Wing, R.31
Dean, R.32
Yu, Y.S.33
Zharkikh, A.34
Shen, R.35
Sahasrabudhe, S.36
Thomas, A.37
Cannings, R.38
Gutin, A.39
Pruss, D.40
Reid, J.41
Tavtigian, S.42
Mitchell, J.43
Eldredge, G.44
Scholl, T.45
Miller, R.M.46
Bhatnagar, S.47
Adey, N.48
Rubano, T.49
Tusneem, N.50
Robinson, R.51
Feldhaus, J.52
Macalma, T.53
Oliphant, A.54
Briggs, S.55
more..
-
110
-
-
0037023384
-
A draft sequence of the rice genome (Oryza sativa L. ssp indica)
-
Yu J., Hu S.N., Wang J., Wong G.K.S., Li S.G., Liu B., Deng Y.J., Dai L., Zhou Y., Zhang X.Q., Cao M.L., Liu J., Sun J.D., Tang J.B., Chen Y.J., Huang X.B., Lin W., Ye C., Tong W., Cong L.J., Geng J.N., Han Y.J., Li L., Li W., Hu G.Q., Huang X.G., Li W.J., Li J., Liu Z.W., Li L., Liu J.P., Qi Q.H., Liu J.S., Li L., Li T., Wang X.G., Lu H., Wu T.T., Zhu M., Ni P.X., Han H., Dong W., Ren X.Y., Feng X.L., Cui P., Li X.R., Wang H., Xu X., Zhai W.X., Xu Z., Zhang J.S., He S.J., Zhang J.G., Xu J.C., Zhang K.L., Zheng X.W., Dong J.H., Zeng W.Y., Tao L., Ye J., Tan J., Ren X.D., Chen X.W., He J., Liu D.F., Tian W., Tian C.G., Xia H.G., Bao Q.Y., Li G., Gao H., Cao T., Wang J., Zhao W.M., Li P., Chen W., Wang X.D., Zhang Y., Hu J.F., Wang J., Liu S., Yang J., Zhang G.Y., Xiong Y.Q., Li Z.J., Mao L., Zhou C.S., Zhu Z., Chen R.S., Hao B.L., Zheng W.M., Chen S.Y., Guo W., Li G.J., Liu S.Q., Tao M., Wang J., Zhu L.H., Yuan L.P., Yang H.M. A draft sequence of the rice genome (Oryza sativa L. ssp indica). Science 2002, 296:79-92.
-
(2002)
Science
, vol.296
, pp. 79-92
-
-
Yu, J.1
Hu, S.N.2
Wang, J.3
Wong, G.K.S.4
Li, S.G.5
Liu, B.6
Deng, Y.J.7
Dai, L.8
Zhou, Y.9
Zhang, X.Q.10
Cao, M.L.11
Liu, J.12
Sun, J.D.13
Tang, J.B.14
Chen, Y.J.15
Huang, X.B.16
Lin, W.17
Ye, C.18
Tong, W.19
Cong, L.J.20
Geng, J.N.21
Han, Y.J.22
Li, L.23
Li, W.24
Hu, G.Q.25
Huang, X.G.26
Li, W.J.27
Li, J.28
Liu, Z.W.29
Li, L.30
Liu, J.P.31
Qi, Q.H.32
Liu, J.S.33
Li, L.34
Li, T.35
Wang, X.G.36
Lu, H.37
Wu, T.T.38
Zhu, M.39
Ni, P.X.40
Han, H.41
Dong, W.42
Ren, X.Y.43
Feng, X.L.44
Cui, P.45
Li, X.R.46
Wang, H.47
Xu, X.48
Zhai, W.X.49
Xu, Z.50
Zhang, J.S.51
He, S.J.52
Zhang, J.G.53
Xu, J.C.54
Zhang, K.L.55
Zheng, X.W.56
Dong, J.H.57
Zeng, W.Y.58
Tao, L.59
Ye, J.60
Tan, J.61
Ren, X.D.62
Chen, X.W.63
He, J.64
Liu, D.F.65
Tian, W.66
Tian, C.G.67
Xia, H.G.68
Bao, Q.Y.69
Li, G.70
Gao, H.71
Cao, T.72
Wang, J.73
Zhao, W.M.74
Li, P.75
Chen, W.76
Wang, X.D.77
Zhang, Y.78
Hu, J.F.79
Wang, J.80
Liu, S.81
Yang, J.82
Zhang, G.Y.83
Xiong, Y.Q.84
Li, Z.J.85
Mao, L.86
Zhou, C.S.87
Zhu, Z.88
Chen, R.S.89
Hao, B.L.90
Zheng, W.M.91
Chen, S.Y.92
Guo, W.93
Li, G.J.94
Liu, S.Q.95
Tao, M.96
Wang, J.97
Zhu, L.H.98
Yuan, L.P.99
more..
-
111
-
-
0036955225
-
QTL mapping and introgression of yield-related traits from Oryza glumaepatula to cultivated rice (Oryza sativa) using microsatellite markers
-
Brondani C., Rangel P.H.N., Brondani R.P.V., Ferreira M.E. QTL mapping and introgression of yield-related traits from Oryza glumaepatula to cultivated rice (Oryza sativa) using microsatellite markers. Theor. Appl. Genet. 2002, 104:1192-1203.
-
(2002)
Theor. Appl. Genet.
, vol.104
, pp. 1192-1203
-
-
Brondani, C.1
Rangel, P.H.N.2
Brondani, R.P.V.3
Ferreira, M.E.4
-
112
-
-
0035094430
-
Characterization of euploid backcross progenies derived from interspecific hybrids between Oryza sativa and O. eichingeri by restriction fragment length polymorphism (RFLP) analysis and genomic in situ hybridization (GISH)
-
Yan H.H., Liu G.Q., Cheng Z.K., Min S.K., Zhu L.H. Characterization of euploid backcross progenies derived from interspecific hybrids between Oryza sativa and O. eichingeri by restriction fragment length polymorphism (RFLP) analysis and genomic in situ hybridization (GISH). Genome 2001, 44:86-95.
-
(2001)
Genome
, vol.44
, pp. 86-95
-
-
Yan, H.H.1
Liu, G.Q.2
Cheng, Z.K.3
Min, S.K.4
Zhu, L.H.5
-
113
-
-
84922395367
-
The genome sequence of African rice (Oryza glaberrima) and evidence for independent domestication
-
Wang M.H., Yu Y., Haberer G., Marri P.R., Fan C.Z., Goicoechea J.L., Zuccolo A., Song X., Kudrna D., Ammiraju J.S.S., Cossu R.M., Maldonado C., Chen J., Lee S., Sisneros N., de Baynast K., Golser W., Wissotski M., Kim W., Sanchez P., Ndjiondjop M.N., Sanni K., Long M.Y., Carney J., Panaud O., Wicker T., Machado C.A., Chen M.S., Mayer K.F.X., Rounsley S., Wing R.A. The genome sequence of African rice (Oryza glaberrima) and evidence for independent domestication. Nat. Genet. 2014, 46:982.
-
(2014)
Nat. Genet.
, vol.46
, pp. 982
-
-
Wang, M.H.1
Yu, Y.2
Haberer, G.3
Marri, P.R.4
Fan, C.Z.5
Goicoechea, J.L.6
Zuccolo, A.7
Song, X.8
Kudrna, D.9
Ammiraju, J.S.S.10
Cossu, R.M.11
Maldonado, C.12
Chen, J.13
Lee, S.14
Sisneros, N.15
de Baynast, K.16
Golser, W.17
Wissotski, M.18
Kim, W.19
Sanchez, P.20
Ndjiondjop, M.N.21
Sanni, K.22
Long, M.Y.23
Carney, J.24
Panaud, O.25
Wicker, T.26
Machado, C.A.27
Chen, M.S.28
Mayer, K.F.X.29
Rounsley, S.30
Wing, R.A.31
more..
-
114
-
-
84875859902
-
Whole-genome sequencing of Oryza brachyantha reveals mechanisms underlying Oryza genome evolution
-
Chen J.F., Huang Q.F., Gao D.Y., Wang J.Y., Lang Y.S., Liu T.Y., Li B., Bai Z.T., Goicoechea J.L., Liang C.Z., Chen C.B., Zhang W.L., Sun S.H., Liao Y., Zhang X.M., Yang L., Song C.L., Wang M.J., Shi J.F., Liu G., Liu J.J., Zhou H.L., Zhou W.L., Yu Q.L., An N., Chen Y., Cai Q., Wang B., Liu B.H., Min J.M., Huang Y., Wu H.L., Li Z.Y., Zhang Y., Yin Y., Song W.Q., Jiang J.M., Jackson S.A., Wing R.A., Wang J., Chen M.S. Whole-genome sequencing of Oryza brachyantha reveals mechanisms underlying Oryza genome evolution. Nat. Commun. 2013, 4.
-
(2013)
Nat. Commun.
, vol.4
-
-
Chen, J.F.1
Huang, Q.F.2
Gao, D.Y.3
Wang, J.Y.4
Lang, Y.S.5
Liu, T.Y.6
Li, B.7
Bai, Z.T.8
Goicoechea, J.L.9
Liang, C.Z.10
Chen, C.B.11
Zhang, W.L.12
Sun, S.H.13
Liao, Y.14
Zhang, X.M.15
Yang, L.16
Song, C.L.17
Wang, M.J.18
Shi, J.F.19
Liu, G.20
Liu, J.J.21
Zhou, H.L.22
Zhou, W.L.23
Yu, Q.L.24
An, N.25
Chen, Y.26
Cai, Q.27
Wang, B.28
Liu, B.H.29
Min, J.M.30
Huang, Y.31
Wu, H.L.32
Li, Z.Y.33
Zhang, Y.34
Yin, Y.35
Song, W.Q.36
Jiang, J.M.37
Jackson, S.A.38
Wing, R.A.39
Wang, J.40
Chen, M.S.41
more..
-
115
-
-
84903517143
-
A reference genome for common bean and genome-wide analysis of dual domestications
-
Schmutz J., McClean P.E., Mamidi S., Wu G.A., Cannon S.B., Grimwood J., Jenkins J., Shu S.Q., Song Q.J., Chavarro C., Torres-Torres M., Geffroy V., Moghaddam S.M., Gao D.Y., Abernathy B., Barry K., Blair M., Brick M.A., Chovatia M., Gepts P., Goodstein D.M., Gonzales M., Hellsten U., Hyten D.L., Jia G.F., Kelly J.D., Kudrna D., Lee R., Richard M.M.S., Miklas P.N., Osorno J.M., Rodrigues J., Thareau V., Urrea C.A., Wang M., Yu Y., Zhang M., Wing R.A., Cregan P.B., Rokhsar D.S., Jackson S.A. A reference genome for common bean and genome-wide analysis of dual domestications. Nat. Genet. 2014, 46:707-713.
-
(2014)
Nat. Genet.
, vol.46
, pp. 707-713
-
-
Schmutz, J.1
McClean, P.E.2
Mamidi, S.3
Wu, G.A.4
Cannon, S.B.5
Grimwood, J.6
Jenkins, J.7
Shu, S.Q.8
Song, Q.J.9
Chavarro, C.10
Torres-Torres, M.11
Geffroy, V.12
Moghaddam, S.M.13
Gao, D.Y.14
Abernathy, B.15
Barry, K.16
Blair, M.17
Brick, M.A.18
Chovatia, M.19
Gepts, P.20
Goodstein, D.M.21
Gonzales, M.22
Hellsten, U.23
Hyten, D.L.24
Jia, G.F.25
Kelly, J.D.26
Kudrna, D.27
Lee, R.28
Richard, M.M.S.29
Miklas, P.N.30
Osorno, J.M.31
Rodrigues, J.32
Thareau, V.33
Urrea, C.A.34
Wang, M.35
Yu, Y.36
Zhang, M.37
Wing, R.A.38
Cregan, P.B.39
Rokhsar, D.S.40
Jackson, S.A.41
more..
-
116
-
-
84898452984
-
Introgressing white mold resistance from Phaseolus coccineus PI 439534 to common pinto bean
-
Singh S.P., Schwartz H.F., Viteri D., Teran H., Otto K. Introgressing white mold resistance from Phaseolus coccineus PI 439534 to common pinto bean. Crop Sci. 2014, 54:1026-1032.
-
(2014)
Crop Sci.
, vol.54
, pp. 1026-1032
-
-
Singh, S.P.1
Schwartz, H.F.2
Viteri, D.3
Teran, H.4
Otto, K.5
-
117
-
-
84878553926
-
The high-quality draft genome of peach (Prunus persica) identifies unique patterns of genetic diversity, domestication and genome evolution
-
Verde I., Abbott A.G., Scalabrin S., Jung S., Shu S.Q., Marroni F., Zhebentyayeva T., Dettori M.T., Grimwood J., Cattonaro F., Zuccolo A., Rossini L., Jenkins J., Vendramin E., Meisel L.A., Decroocq V., Sosinski B., Prochnik S., Mitros T., Policriti A., Cipriani G., Dondini L., Ficklin S., Goodstein D.M., Xuan P.F., Del Fabbro C., Aramini V., Copetti D., Gonzalez S., Horner D.S., Falchi R., Lucas S., Mica E., Maldonado J., Lazzari B., Bielenberg D., Pirona R., Miculan M., Barakat A., Testolin R., Stella A., Tartarini S., Tonutti P., Arus P., Orellana A., Wells C., Main D., Vizzotto G., Silva H., Salamini F., Schmutz J., Morgante M., Rokhsar D.S., Initiative I.P.G. The high-quality draft genome of peach (Prunus persica) identifies unique patterns of genetic diversity, domestication and genome evolution. Nat. Genet. 2013, 45:487-494.
-
(2013)
Nat. Genet.
, vol.45
, pp. 487-494
-
-
Verde, I.1
Abbott, A.G.2
Scalabrin, S.3
Jung, S.4
Shu, S.Q.5
Marroni, F.6
Zhebentyayeva, T.7
Dettori, M.T.8
Grimwood, J.9
Cattonaro, F.10
Zuccolo, A.11
Rossini, L.12
Jenkins, J.13
Vendramin, E.14
Meisel, L.A.15
Decroocq, V.16
Sosinski, B.17
Prochnik, S.18
Mitros, T.19
Policriti, A.20
Cipriani, G.21
Dondini, L.22
Ficklin, S.23
Goodstein, D.M.24
Xuan, P.F.25
Del Fabbro, C.26
Aramini, V.27
Copetti, D.28
Gonzalez, S.29
Horner, D.S.30
Falchi, R.31
Lucas, S.32
Mica, E.33
Maldonado, J.34
Lazzari, B.35
Bielenberg, D.36
Pirona, R.37
Miculan, M.38
Barakat, A.39
Testolin, R.40
Stella, A.41
Tartarini, S.42
Tonutti, P.43
Arus, P.44
Orellana, A.45
Wells, C.46
Main, D.47
Vizzotto, G.48
Silva, H.49
Salamini, F.50
Schmutz, J.51
Morgante, M.52
Rokhsar, D.S.53
Initiative, I.P.G.54
more..
-
118
-
-
4544310865
-
QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana
-
Quilot B., Wu B.H., Kervella J., Genard M., Foulongne M., Moreau K. QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana. Theor. Appl. Genet. 2004, 109:884-897.
-
(2004)
Theor. Appl. Genet.
, vol.109
, pp. 884-897
-
-
Quilot, B.1
Wu, B.H.2
Kervella, J.3
Genard, M.4
Foulongne, M.5
Moreau, K.6
-
119
-
-
84899102199
-
The draft genome sequence of European Pear (Pyrus communis L. 'Bartlett')
-
Chagne D., Crowhurst R.N., Pindo M., Thrimawithana A., Deng C., Ireland H., Fiers M., Dzierzon H., Cestaro A., Fontana P., Bianco L., Lu A., Storey R., Knabel M., Saeed M., Montanari S., Kim Y.K., Nicolini D., Larger S., Stefani E., Allan A.C., Bowen J., Harvey I., Johnston J., Malnoy M., Troggio M., Perchepied L., Sawyer G., Wiedow C., Won K., Viola R., Hellens R.P., Brewer L., Bus V.G.M., Schaffer R.J., Gardiner S.E., Velasco R. The draft genome sequence of European Pear (Pyrus communis L. 'Bartlett'). PLoS ONE 2014, 9.
-
(2014)
PLoS ONE
, vol.9
-
-
Chagne, D.1
Crowhurst, R.N.2
Pindo, M.3
Thrimawithana, A.4
Deng, C.5
Ireland, H.6
Fiers, M.7
Dzierzon, H.8
Cestaro, A.9
Fontana, P.10
Bianco, L.11
Lu, A.12
Storey, R.13
Knabel, M.14
Saeed, M.15
Montanari, S.16
Kim, Y.K.17
Nicolini, D.18
Larger, S.19
Stefani, E.20
Allan, A.C.21
Bowen, J.22
Harvey, I.23
Johnston, J.24
Malnoy, M.25
Troggio, M.26
Perchepied, L.27
Sawyer, G.28
Wiedow, C.29
Won, K.30
Viola, R.31
Hellens, R.P.32
Brewer, L.33
Bus, V.G.M.34
Schaffer, R.J.35
Gardiner, S.E.36
Velasco, R.37
more..
-
120
-
-
0002829238
-
Interspecific and intergeneric hybridization of Pyrus
-
Bell R.L., Hough L.F. Interspecific and intergeneric hybridization of Pyrus. Hortscience 1986, 21:62-64.
-
(1986)
Hortscience
, vol.21
, pp. 62-64
-
-
Bell, R.L.1
Hough, L.F.2
-
121
-
-
84863693752
-
The tomato genome sequence provides insights into fleshy fruit evolution
-
Sato S., Tabata S., Hirakawa H., Asamizu E., Shirasawa K., Isobe S., Kaneko T., Nakamura Y., Shibata D., Aoki K., Egholm M., Knight J., Bogden R., Li C.B., Shuang Y., Xu X., Pan S.K., Cheng S.F., Liu X., Ren Y.Y., Wang J., Albiero A., Dal Pero F., Todesco S., Van Eck J., Buels R.M., Bombarely A., Gosselin J.R., Huang M.Y., Leto J.A., Menda N., Strickler S., Mao L.Y., Gao S., Tecle I.Y., York T., Zheng Y., Vrebalov J.T., Lee J., Zhong S.L., Mueller L.A., Stiekema W.J., Ribeca P., Alioto T., Yang W.C., Huang S.W., Du Y.C., Zhang Z.H., Gao J.C., Guo Y.M., Wang X.X., Li Y., He J., Li C.Y., Cheng Z.K., Zuo J.R., Ren J.F., Zhao J.H., Yan L.H., Jiang H.L., Wang B., Li H.S., Li Z.J., Fu F.Y., Chen B.T., Han B., Feng Q., Fan D.L., Wang Y., Ling H.Q., Xue Y.B.A., Ware D., McCombie W.R., Lippman Z.B., Chia J.M., Jiang K., Pasternak S., Gelley L., Kramer M., Anderson L.K., Chang S.B., Royer S.M., Shearer L.A., Stack S.M., Rose J.K.C., Xu Y.M., Eannetta N., Matas A.J., McQuinn R., Tanksley S.D., Camara F., Guigo R., Rombauts S., Fawcett J., Van de Peer Y., Zamir D., Liang C.B., Spannagl M., Gundlach H., Bruggmann R., Mayer K., Jia Z.Q., Zhang J.H., Ye Z.B.A., Bishop G.J., Butcher S., Lopez-Cobollo R., Buchan D., Filippis I., Abbott J., Dixit R., Singh M., Singh A., Pal J.K., Pandit A., Singh P.K., Mahato A.K., Dogra V., Gaikwad K., Sharma T.R., Mohapatra T., Singh N.K., Causse M., Rothan C., Schiex T., Noirot C., Bellec A., Klopp C., Delalande C., Berges H., Mariette J., Frasse P., Vautrin S., Zouine M., Latche A., Rousseau C., Regad F., Pech J.C., Philippot M., Bouzayen M., Pericard P., Osorio S., del Carmen A.F., Monforte A., Granell A., Fernandez-Munoz R., Conte M., Lichtenstein G., Carrari F., De Bellis G., Fuligni F., Peano C., Grandillo S., Termolino P., Pietrella M., Fantini E., Falcone G., Fiore A., Giuliano G., Lopez L., Facella P., Perrotta G., Daddiego L., Bryan G., Orozco M., Pastor X., Torrents D., van Schriek K.N.V.M.G.M., Feron R.M.C., van Oeveren J., de Heer P., daPonte L., Jacobs-Oomen S., Cariaso M., Prins M., van Eijk M.J.T., Janssen A., van Haaren M.J.J., Jo S.H., Kim J., Kwon S.Y., Kim S., Koo D.H., Lee S., Hur C.G., Clouser C., Rico A., Hallab A., Gebhardt C., Klee K., Jocker A., Warfsmann J., Gobel U., Kawamura S., Yano K., Sherman J.D., Fukuoka H., Negoro S., Bhutty S., Chowdhury P., Chattopadhyay D., Datema E., Smit S., Schijlen E.W.M., van de Belt J., van Haarst J.C., Peters S.A., van Staveren M.J., Henkens M.H.C., Mooyman P.J.W., Hesselink T., van Ham R.C.H.J., Jiang G.Y., Droege M., Choi D., Kang B.C., Kim B.D., Park M., Kim S., Yeom S.I., Lee Y.H., Choi Y.D., Li G.C., Gao J.W., Liu Y.S., Huang S.X., Fernandez-Pedrosa V., Collado C., Zuniga S., Wang G.P., Cade R., Dietrich R.A., Rogers J., Knapp S., Fei Z.J., White R.A., Thannhauser T.W., Giovannoni J.J., Botella M.A., Gilbert L., Gonzalez R., Goicoechea J.L., Yu Y., Kudrna D., Collura K., Wissotski M., Wing R., Schoof H., Meyers B.C., Gurazada A.B., Green P.J., Mathur S., Vyas S., Solanke A.U., Kumar R., Gupta V., Sharma A.K., Khurana P., Khurana J.P., Tyagi A.K., Dalmay T., Mohorianu I., Walts B., Chamala S., Barbazuk W.B., Li J.P., Guo H., Lee T.H., Wang Y.P., Zhang D., Paterson A.H., Wang X.Y., Tang H.B., Barone A., Chiusano M.L., Ercolano M.R., D'Agostino N., Di Filippo M., Traini A., Sanseverino W., Frusciante L., Seymour G.B., Elharam M., Fu Y., Hua A., Kenton S., Lewis J., Lin S.P., Najar F., Lai H.S., Qin B.F., Qu C.M., Shi R.H., White D., White J., Xing Y.B., Yang K.Q., Yi J., Yao Z.Y., Zhou L.P., Roe B.A., Vezzi A., D'Angelo M., Zimbello R., Schiavon R., Caniato E., Rigobello C., Campagna D., Vitulo N., Valle G., Nelson D.R., De Paoli E., Szinay D., de Jong H.H., Bai Y.L., Visser R.G.F., Lankhorst R.M.K., Beasley H., McLaren K., Nicholson C., Riddle C., Gianese G., Consortium T.G. The tomato genome sequence provides insights into fleshy fruit evolution. Nature 2012, 485:635-641.
-
(2012)
Nature
, vol.485
, pp. 635-641
-
-
Sato, S.1
Tabata, S.2
Hirakawa, H.3
Asamizu, E.4
Shirasawa, K.5
Isobe, S.6
Kaneko, T.7
Nakamura, Y.8
Shibata, D.9
Aoki, K.10
Egholm, M.11
Knight, J.12
Bogden, R.13
Li, C.B.14
Shuang, Y.15
Xu, X.16
Pan, S.K.17
Cheng, S.F.18
Liu, X.19
Ren, Y.Y.20
Wang, J.21
Albiero, A.22
Dal Pero, F.23
Todesco, S.24
Van Eck, J.25
Buels, R.M.26
Bombarely, A.27
Gosselin, J.R.28
Huang, M.Y.29
Leto, J.A.30
Menda, N.31
Strickler, S.32
Mao, L.Y.33
Gao, S.34
Tecle, I.Y.35
York, T.36
Zheng, Y.37
Vrebalov, J.T.38
Lee, J.39
Zhong, S.L.40
Mueller, L.A.41
Stiekema, W.J.42
Ribeca, P.43
Alioto, T.44
Yang, W.C.45
Huang, S.W.46
Du, Y.C.47
Zhang, Z.H.48
Gao, J.C.49
Guo, Y.M.50
Wang, X.X.51
Li, Y.52
He, J.53
Li, C.Y.54
Cheng, Z.K.55
Zuo, J.R.56
Ren, J.F.57
Zhao, J.H.58
Yan, L.H.59
Jiang, H.L.60
Wang, B.61
Li, H.S.62
Li, Z.J.63
Fu, F.Y.64
Chen, B.T.65
Han, B.66
Feng, Q.67
Fan, D.L.68
Wang, Y.69
Ling, H.Q.70
Xue, Y.B.A.71
Ware, D.72
McCombie, W.R.73
Lippman, Z.B.74
Chia, J.M.75
Jiang, K.76
Pasternak, S.77
Gelley, L.78
Kramer, M.79
Anderson, L.K.80
Chang, S.B.81
Royer, S.M.82
Shearer, L.A.83
Stack, S.M.84
Rose, J.K.C.85
Xu, Y.M.86
Eannetta, N.87
Matas, A.J.88
McQuinn, R.89
Tanksley, S.D.90
Camara, F.91
Guigo, R.92
Rombauts, S.93
Fawcett, J.94
Van de Peer, Y.95
Zamir, D.96
Liang, C.B.97
Spannagl, M.98
Gundlach, H.99
more..
-
122
-
-
80051668121
-
Interspecific reproductive barriers in the tomato clade: opportunities to decipher mechanisms of reproductive isolation
-
Bedinger P., Chetelat R., McClure B., Moyle L., Rose J.C., Stack S., van der Knaap E., Baek Y., Lopez-Casado G., Covey P., Kumar A., Li W., Nunez R., Cruz-Garcia F., Royer S. Interspecific reproductive barriers in the tomato clade: opportunities to decipher mechanisms of reproductive isolation. Sex Plant Reprod. 2011, 24:171-187.
-
(2011)
Sex Plant Reprod.
, vol.24
, pp. 171-187
-
-
Bedinger, P.1
Chetelat, R.2
McClure, B.3
Moyle, L.4
Rose, J.C.5
Stack, S.6
van der Knaap, E.7
Baek, Y.8
Lopez-Casado, G.9
Covey, P.10
Kumar, A.11
Li, W.12
Nunez, R.13
Cruz-Garcia, F.14
Royer, S.15
-
123
-
-
84922395331
-
The genome of the stress-tolerant wild tomato species Solanum pennellii
-
Bolger A., Scossa F., Bolger M.E., Lanz C., Maumus F., Tohge T., Quesneville H., Alseekh S., Sorensen I., Lichtenstein G., Fich E.A., Conte M., Keller H., Schneeberger K., Schwacke R., Ofner I., Vrebalov J., Xu Y.M., Osorio S., Aflitos S.A., Schijlen E., Jimenez-Gomez J.M., Ryngajllo M., Kimura S., Kumar R., Koenig D., Headland L.R., Maloof J.N., Sinha N., van Ham R.C.H.J., Lankhorst R.K., Mao L.Y., Vogel A., Arsova B., Panstruga R., Fei Z.J., Rose J.K.C., Zamir D., Carrari F., Giovannoni J.J., Weigel D., Usadel B., Fernie A.R. The genome of the stress-tolerant wild tomato species Solanum pennellii. Nat. Genet. 2014, 46:1034.
-
(2014)
Nat. Genet.
, vol.46
, pp. 1034
-
-
Bolger, A.1
Scossa, F.2
Bolger, M.E.3
Lanz, C.4
Maumus, F.5
Tohge, T.6
Quesneville, H.7
Alseekh, S.8
Sorensen, I.9
Lichtenstein, G.10
Fich, E.A.11
Conte, M.12
Keller, H.13
Schneeberger, K.14
Schwacke, R.15
Ofner, I.16
Vrebalov, J.17
Xu, Y.M.18
Osorio, S.19
Aflitos, S.A.20
Schijlen, E.21
Jimenez-Gomez, J.M.22
Ryngajllo, M.23
Kimura, S.24
Kumar, R.25
Koenig, D.26
Headland, L.R.27
Maloof, J.N.28
Sinha, N.29
van Ham, R.C.H.J.30
Lankhorst, R.K.31
Mao, L.Y.32
Vogel, A.33
Arsova, B.34
Panstruga, R.35
Fei, Z.J.36
Rose, J.K.C.37
Zamir, D.38
Carrari, F.39
Giovannoni, J.J.40
Weigel, D.41
Usadel, B.42
Fernie, A.R.43
more..
-
124
-
-
84908689021
-
Genomic analyses provide insights into the history of tomato breeding
-
Lin T., Zhu G.T., Zhang J.H., Xu X.Y., Yu Q.H., Zheng Z., Zhang Z.H., Lun Y.Y., Li S., Wang X.X., Huang Z.J., Li J.M., Zhang C.Z., Wang T.T., Zhang Y.Y., Wang A.X., Zhang Y.C., Lin K., Li C.Y., Xiong G.S., Xue Y.B., Mazzucato A., Causse M., Fei Z.J., Giovannoni J.J., Chetelat R.T., Zamir D., Stadler T., Li J.F., Ye Z.B., Du Y.C., Huang S.W. Genomic analyses provide insights into the history of tomato breeding. Nat. Genet. 2014, 46:1220-1226.
-
(2014)
Nat. Genet.
, vol.46
, pp. 1220-1226
-
-
Lin, T.1
Zhu, G.T.2
Zhang, J.H.3
Xu, X.Y.4
Yu, Q.H.5
Zheng, Z.6
Zhang, Z.H.7
Lun, Y.Y.8
Li, S.9
Wang, X.X.10
Huang, Z.J.11
Li, J.M.12
Zhang, C.Z.13
Wang, T.T.14
Zhang, Y.Y.15
Wang, A.X.16
Zhang, Y.C.17
Lin, K.18
Li, C.Y.19
Xiong, G.S.20
Xue, Y.B.21
Mazzucato, A.22
Causse, M.23
Fei, Z.J.24
Giovannoni, J.J.25
Chetelat, R.T.26
Zamir, D.27
Stadler, T.28
Li, J.F.29
Ye, Z.B.30
Du, Y.C.31
Huang, S.W.32
more..
-
125
-
-
85027940343
-
Exploring genetic variation in the tomato (Solanum section Lycopersicon) clade by whole-genome sequencing
-
Aflitos S., Schijlen E., de Jong H., de Ridder D., Smit S., Finkers R., Wang J., Zhang G.Y., Li N., Mao L.K., Bakker F., Dirks R., Breit T., Gravendeel B., Huits H., Struss D., Swanson-Wagner R., van Leeuwen H., van Ham R.C.H.J., Fito L., Guignier L., Sevilla M., Ellul P., Ganko E., Kapur A., Reclus E., Geus B., van de Geest H., te Lintel Hekkert B., van Haarst J., Smits L., Koops A., Sanchez-Perez G., van Heusden A.W., Visser R., Quan Z.W., Min J.M., Liao L., Wang X.L., Wang G.B., Yue Z., Yang X.H., Xu N., Schranz E., Smets E., Vos R., Rauwerda J., Ursem R., Schuit C., Kerns M., van den Berg J., Vriezen W., Janssen A., Datema E., Jahrman T., Mo-quet F., Bonnet J., Peters S., Consorti T.G.S. Exploring genetic variation in the tomato (Solanum section Lycopersicon) clade by whole-genome sequencing. Plant J. 2014, 80:136-148.
-
(2014)
Plant J.
, vol.80
, pp. 136-148
-
-
Aflitos, S.1
Schijlen, E.2
de Jong, H.3
de Ridder, D.4
Smit, S.5
Finkers, R.6
Wang, J.7
Zhang, G.Y.8
Li, N.9
Mao, L.K.10
Bakker, F.11
Dirks, R.12
Breit, T.13
Gravendeel, B.14
Huits, H.15
Struss, D.16
Swanson-Wagner, R.17
van Leeuwen, H.18
van Ham, R.C.H.J.19
Fito, L.20
Guignier, L.21
Sevilla, M.22
Ellul, P.23
Ganko, E.24
Kapur, A.25
Reclus, E.26
Geus, B.27
van de Geest, H.28
te Lintel Hekkert, B.29
van Haarst, J.30
Smits, L.31
Koops, A.32
Sanchez-Perez, G.33
van Heusden, A.W.34
Visser, R.35
Quan, Z.W.36
Min, J.M.37
Liao, L.38
Wang, X.L.39
Wang, G.B.40
Yue, Z.41
Yang, X.H.42
Xu, N.43
Schranz, E.44
Smets, E.45
Vos, R.46
Rauwerda, J.47
Ursem, R.48
Schuit, C.49
Kerns, M.50
van den Berg, J.51
Vriezen, W.52
Janssen, A.53
Datema, E.54
Jahrman, T.55
Mo-quet, F.56
Bonnet, J.57
Peters, S.58
Consorti, T.G.S.59
more..
-
126
-
-
79251632958
-
The genome of Theobroma cacao
-
Argout X., Salse J., Aury J.M., Guiltinan M.J., Droc G., Gouzy J., Allegre M., Chaparro C., Legavre T., Maximova S.N., Abrouk M., Murat F., Fouet O., Poulain J., Ruiz M., Roguet Y., Rodier-Goud M., Barbosa-Neto J.F., Sabot F., Kudrna D., Ammiraju J.S.S., Schuster S.C., Carlson J.E., Sallet E., Schiex T., Dievart A., Kramer M., Gelley L., Shi Z., Berard A., Viot C., Boccara M., Risterucci A.M., Guignon V., Sabau X., Axtell M.J., Ma Z.R., Zhang Y.F., Brown S., Bourge M., Golser W., Song X.A., Clement D., Rivallan R., Tahi M., Akaza J.M., Pitollat B., Gramacho K., D'Hont A., Brunel D., Infante D., Kebe I., Costet P., Wing R., McCombie W.R., Guiderdoni E., Quetier F., Panaud O., Wincker P., Bocs S., Lanaud C. The genome of Theobroma cacao. Nat. Genet. 2011, 43:101-108.
-
(2011)
Nat. Genet.
, vol.43
, pp. 101-108
-
-
Argout, X.1
Salse, J.2
Aury, J.M.3
Guiltinan, M.J.4
Droc, G.5
Gouzy, J.6
Allegre, M.7
Chaparro, C.8
Legavre, T.9
Maximova, S.N.10
Abrouk, M.11
Murat, F.12
Fouet, O.13
Poulain, J.14
Ruiz, M.15
Roguet, Y.16
Rodier-Goud, M.17
Barbosa-Neto, J.F.18
Sabot, F.19
Kudrna, D.20
Ammiraju, J.S.S.21
Schuster, S.C.22
Carlson, J.E.23
Sallet, E.24
Schiex, T.25
Dievart, A.26
Kramer, M.27
Gelley, L.28
Shi, Z.29
Berard, A.30
Viot, C.31
Boccara, M.32
Risterucci, A.M.33
Guignon, V.34
Sabau, X.35
Axtell, M.J.36
Ma, Z.R.37
Zhang, Y.F.38
Brown, S.39
Bourge, M.40
Golser, W.41
Song, X.A.42
Clement, D.43
Rivallan, R.44
Tahi, M.45
Akaza, J.M.46
Pitollat, B.47
Gramacho, K.48
D'Hont, A.49
Brunel, D.50
Infante, D.51
Kebe, I.52
Costet, P.53
Wing, R.54
McCombie, W.R.55
Guiderdoni, E.56
Quetier, F.57
Panaud, O.58
Wincker, P.59
Bocs, S.60
Lanaud, C.61
more..
-
127
-
-
13144261468
-
Hybridization and grafting in species of theobroma which occur in Amazonia
-
Addison G., Tavares R. Hybridization and grafting in species of theobroma which occur in Amazonia. Evolution 1952, 6:380-386.
-
(1952)
Evolution
, vol.6
, pp. 380-386
-
-
Addison, G.1
Tavares, R.2
-
128
-
-
84880383379
-
Transposon fingerprinting using low coverage whole genome shotgun sequencing in Cacao (Theobroma cacao L.) and related species
-
Sveinsson S., Gill N., Kane N.C., Cronk Q. Transposon fingerprinting using low coverage whole genome shotgun sequencing in Cacao (Theobroma cacao L.) and related species. BMC Genomics 2013, 14.
-
(2013)
BMC Genomics
, vol.14
-
-
Sveinsson, S.1
Gill, N.2
Kane, N.C.3
Cronk, Q.4
-
129
-
-
84870260198
-
Analysis of the bread wheat genome using whole-genome shotgun sequencing
-
Brenchley R., Spannagl M., Pfeifer M., Barker G.L.A., D'Amore R., Allen A.M., McKenzie N., Kramer M., Kerhornou A., Bolser D., Kay S., Waite D., Trick M., Bancroft I., Gu Y., Huo N., Luo M.C., Sehgal S., Gill B., Kianian S., Anderson O., Kersey P., Dvorak J., McCombie W.R., Hall A., Mayer K.F.X., Edwards K.J., Bevan M.W., Hall N. Analysis of the bread wheat genome using whole-genome shotgun sequencing. Nature 2012, 491:705-710.
-
(2012)
Nature
, vol.491
, pp. 705-710
-
-
Brenchley, R.1
Spannagl, M.2
Pfeifer, M.3
Barker, G.L.A.4
D'Amore, R.5
Allen, A.M.6
McKenzie, N.7
Kramer, M.8
Kerhornou, A.9
Bolser, D.10
Kay, S.11
Waite, D.12
Trick, M.13
Bancroft, I.14
Gu, Y.15
Huo, N.16
Luo, M.C.17
Sehgal, S.18
Gill, B.19
Kianian, S.20
Anderson, O.21
Kersey, P.22
Dvorak, J.23
McCombie, W.R.24
Hall, A.25
Mayer, K.F.X.26
Edwards, K.J.27
Bevan, M.W.28
Hall, N.29
more..
-
130
-
-
84880764771
-
Synthetic hexaploids harnessing species of the primary gene pool for wheat improvement
-
Ogbonnaya F.C., Abdalla O., Mujeeb-Kazi A., Kazi A.G., Xu S.S., Gosman N., Lagudah E.S., Bonnett D., Sorrells M.E., Tsujimoto H. Synthetic hexaploids harnessing species of the primary gene pool for wheat improvement. Plant Breed. Rev. 2013, 37:35-122.
-
(2013)
Plant Breed. Rev.
, vol.37
, pp. 35-122
-
-
Ogbonnaya, F.C.1
Abdalla, O.2
Mujeeb-Kazi, A.3
Kazi, A.G.4
Xu, S.S.5
Gosman, N.6
Lagudah, E.S.7
Bonnett, D.8
Sorrells, M.E.9
Tsujimoto, H.10
-
131
-
-
84883753883
-
Production of hexaploid triticale by a synthetic hexaploid wheat-rye hybrid method
-
Hao M., Luo J.T., Zhang L.Q., Yuan Z.W., Yang Y.W., Wu M., Chen W.J., Zheng Y.L., Zhang H.G., Liu D.C. Production of hexaploid triticale by a synthetic hexaploid wheat-rye hybrid method. Euphytica 2013, 193:347-357.
-
(2013)
Euphytica
, vol.193
, pp. 347-357
-
-
Hao, M.1
Luo, J.T.2
Zhang, L.Q.3
Yuan, Z.W.4
Yang, Y.W.5
Wu, M.6
Chen, W.J.7
Zheng, Y.L.8
Zhang, H.G.9
Liu, D.C.10
-
132
-
-
84930869978
-
A Thinopyrum intermedium chromosome in bread wheat cultivars as a source of genes conferring resistance to fungal diseases
-
Salina E., Adonina I., Badaeva E., Kroupin P., Stasyuk A., Leonova I., Shishkina A., Divashuk M., Starikova E., Khuat T., Syukov V., Karlov G. A Thinopyrum intermedium chromosome in bread wheat cultivars as a source of genes conferring resistance to fungal diseases. Euphytica 2015, 1-11.
-
(2015)
Euphytica
, pp. 1-11
-
-
Salina, E.1
Adonina, I.2
Badaeva, E.3
Kroupin, P.4
Stasyuk, A.5
Leonova, I.6
Shishkina, A.7
Divashuk, M.8
Starikova, E.9
Khuat, T.10
Syukov, V.11
Karlov, G.12
-
133
-
-
84875886528
-
Draft genome of the wheat A-genome progenitor Triticum urartu
-
Ling H.Q., Zhao S.C., Liu D.C., Wang J.Y., Sun H., Zhang C., Fan H.J., Li D., Dong L.L., Tao Y., Gao C., Wu H.L., Li Y.W., Cui Y., Guo X.S., Zheng S.S., Wang B., Yu K., Liang Q.S., Yang W.L., Lou X.Y., Chen J., Feng M.J., Jian J.B., Zhang X.F., Luo G.B., Jiang Y., Liu J.J., Wang Z.B., Sha Y.H., Zhang B.R., Wu H.J., Tang D.Z., Shen Q.H., Xue P.Y., Zou S.H., Wang X.J., Liu X., Wang F.M., Yang Y.P., An X.L., Dong Z.Y., Zhang K.P., Zhang X.Q., Luo M.C., Dvorak J., Tong Y.P., Wang J., Yang H.M., Li Z.S., Wang D.W., Zhang A.M., Wang J. Draft genome of the wheat A-genome progenitor Triticum urartu. Nature 2013, 496:87-90.
-
(2013)
Nature
, vol.496
, pp. 87-90
-
-
Ling, H.Q.1
Zhao, S.C.2
Liu, D.C.3
Wang, J.Y.4
Sun, H.5
Zhang, C.6
Fan, H.J.7
Li, D.8
Dong, L.L.9
Tao, Y.10
Gao, C.11
Wu, H.L.12
Li, Y.W.13
Cui, Y.14
Guo, X.S.15
Zheng, S.S.16
Wang, B.17
Yu, K.18
Liang, Q.S.19
Yang, W.L.20
Lou, X.Y.21
Chen, J.22
Feng, M.J.23
Jian, J.B.24
Zhang, X.F.25
Luo, G.B.26
Jiang, Y.27
Liu, J.J.28
Wang, Z.B.29
Sha, Y.H.30
Zhang, B.R.31
Wu, H.J.32
Tang, D.Z.33
Shen, Q.H.34
Xue, P.Y.35
Zou, S.H.36
Wang, X.J.37
Liu, X.38
Wang, F.M.39
Yang, Y.P.40
An, X.L.41
Dong, Z.Y.42
Zhang, K.P.43
Zhang, X.Q.44
Luo, M.C.45
Dvorak, J.46
Tong, Y.P.47
Wang, J.48
Yang, H.M.49
Li, Z.S.50
Wang, D.W.51
Zhang, A.M.52
Wang, J.53
more..
-
134
-
-
84875898037
-
Aegilops tauschii draft genome sequence reveals a gene repertoire for wheat adaptation
-
Jia J.Z., Zhao S.C., Kong X.Y., Li Y.R., Zhao G.Y., He W.M., Appels R., Pfeifer M., Tao Y., Zhang X.Y., Jing R.L., Zhang C., Ma Y.Z., Gao L.F., Gao C., Spannagl M., Mayer K.F.X., Li D., Pan S.K., Zheng F.Y., Hu Q., Xia X.C., Li J.W., Liang Q.S., Chen J., Wicker T., Gou C.Y., Kuang H.H., He G.Y., Luo Y.D., Keller B., Xia Q.J., Lu P., Wang J.Y., Zou H.F., Zhang R.Z., Xu J.Y., Gao J.L., Middleton C., Quan Z.W., Liu G.M., Wang J., Yang H.M., Liu X., He Z.H., Mao L., Wang J., Consor I.W.G.S. Aegilops tauschii draft genome sequence reveals a gene repertoire for wheat adaptation. Nature 2013, 496:91-95.
-
(2013)
Nature
, vol.496
, pp. 91-95
-
-
Jia, J.Z.1
Zhao, S.C.2
Kong, X.Y.3
Li, Y.R.4
Zhao, G.Y.5
He, W.M.6
Appels, R.7
Pfeifer, M.8
Tao, Y.9
Zhang, X.Y.10
Jing, R.L.11
Zhang, C.12
Ma, Y.Z.13
Gao, L.F.14
Gao, C.15
Spannagl, M.16
Mayer, K.F.X.17
Li, D.18
Pan, S.K.19
Zheng, F.Y.20
Hu, Q.21
Xia, X.C.22
Li, J.W.23
Liang, Q.S.24
Chen, J.25
Wicker, T.26
Gou, C.Y.27
Kuang, H.H.28
He, G.Y.29
Luo, Y.D.30
Keller, B.31
Xia, Q.J.32
Lu, P.33
Wang, J.Y.34
Zou, H.F.35
Zhang, R.Z.36
Xu, J.Y.37
Gao, J.L.38
Middleton, C.39
Quan, Z.W.40
Liu, G.M.41
Wang, J.42
Yang, H.M.43
Liu, X.44
He, Z.H.45
Mao, L.46
Wang, J.47
Consor, I.W.G.S.48
more..
-
135
-
-
34848886909
-
The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla
-
Jaillon O., Aury J.M., Noel B., Policriti A., Clepet C., Casagrande A., Choisne N., Aubourg S., Vitulo N., Jubin C., Vezzi A., Legeai F., Hugueney P., Dasilva C., Horner D., Mica E., Jublot D., Poulain J., Bruyere C., Billault A., Segurens B., Gouyvenoux M., Ugarte E., Cattonaro F., Anthouard V., Vico V., Del Fabbro C., Alaux M., Di Gaspero G., Dumas V., Felice N., Paillard S., Juman I., Moroldo M., Scalabrin S., Canaguier A., Le Clainche I., Malacrida G., Durand E., Pesole G., Laucou V., Chatelet P., Merdinoglu D., Delledonne M., Pezzotti M., Lecharny A., Scarpelli C., Artiguenave F., Pe M.E., Valle G., Morgante M., Caboche M., Adam-Blondon A.F., Weissenbach J., Quetier F., Wincker P., Public F.-I. The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla. Nature 2007, 449:U463-U465.
-
(2007)
Nature
, vol.449
, pp. U463-U465
-
-
Jaillon, O.1
Aury, J.M.2
Noel, B.3
Policriti, A.4
Clepet, C.5
Casagrande, A.6
Choisne, N.7
Aubourg, S.8
Vitulo, N.9
Jubin, C.10
Vezzi, A.11
Legeai, F.12
Hugueney, P.13
Dasilva, C.14
Horner, D.15
Mica, E.16
Jublot, D.17
Poulain, J.18
Bruyere, C.19
Billault, A.20
Segurens, B.21
Gouyvenoux, M.22
Ugarte, E.23
Cattonaro, F.24
Anthouard, V.25
Vico, V.26
Del Fabbro, C.27
Alaux, M.28
Di Gaspero, G.29
Dumas, V.30
Felice, N.31
Paillard, S.32
Juman, I.33
Moroldo, M.34
Scalabrin, S.35
Canaguier, A.36
Le Clainche, I.37
Malacrida, G.38
Durand, E.39
Pesole, G.40
Laucou, V.41
Chatelet, P.42
Merdinoglu, D.43
Delledonne, M.44
Pezzotti, M.45
Lecharny, A.46
Scarpelli, C.47
Artiguenave, F.48
Pe, M.E.49
Valle, G.50
Morgante, M.51
Caboche, M.52
Adam-Blondon, A.F.53
Weissenbach, J.54
Quetier, F.55
Wincker, P.56
Public, F.-I.57
more..
-
136
-
-
0036950147
-
Identification of resistance gene analogs linked to a powdery mildew resistance locus in grapevine
-
Donald T.M., Pellerone F., Adam-Blondon A.F., Bouquet A., Thomas M.R., Dry I.B. Identification of resistance gene analogs linked to a powdery mildew resistance locus in grapevine. Theor. Appl. Genet. 2002, 104:610-618.
-
(2002)
Theor. Appl. Genet.
, vol.104
, pp. 610-618
-
-
Donald, T.M.1
Pellerone, F.2
Adam-Blondon, A.F.3
Bouquet, A.4
Thomas, M.R.5
Dry, I.B.6
-
137
-
-
76149118846
-
Grapes
-
Springer, The Netherlands, J. Hancock (Ed.)
-
Owens C.L. Grapes. Temperate Fruit Crop Breeding 2008, 197-233. Springer, The Netherlands. J. Hancock (Ed.).
-
(2008)
Temperate Fruit Crop Breeding
, pp. 197-233
-
-
Owens, C.L.1
-
138
-
-
70450202132
-
The B73 maize genome: complexity, diversity, and dynamics
-
Schnable P.S., Ware D., Fulton R.S., Stein J.C., Wei F.S., Pasternak S., Liang C.Z., Zhang J.W., Fulton L., Graves T.A., Minx P., Reily A.D., Courtney L., Kruchowski S.S., Tomlinson C., Strong C., Delehaunty K., Fronick C., Courtney B., Rock S.M., Belter E., Du F.Y., Kim K., Abbott R.M., Cotton M., Levy A., Marchetto P., Ochoa K., Jackson S.M., Gillam B., Chen W.Z., Yan L., Higginbotham J., Cardenas M., Waligorski J., Applebaum E., Phelps L., Falcone J., Kanchi K., Thane T., Scimone A., Thane N., Henke J., Wang T., Ruppert J., Shah N., Rotter K., Hodges J., Ingenthron E., Cordes M., Kohlberg S., Sgro J., Delgado B., Mead K., Chinwalla A., Leonard S., Crouse K., Collura K., Kudrna D., Currie J., He R.F., Angelova A., Rajasekar S., Mueller T., Lomeli R., Scara G., Ko A., Delaney K., Wissotski M., Lopez G., Campos D., Braidotti M., Ashley E., Golser W., Kim H., Lee S., Lin J.K., Dujmic Z., Kim W., Talag J., Zuccolo A., Fan C., Sebastian A., Kramer M., Spiegel L., Nascimento L., Zutavern T., Miller B., Ambroise C., Muller S., Spooner W., Narechania A., Ren L.Y., Wei S., Kumari S., Faga B., Levy M.J., McMahan L., Van Buren P., Vaughn M.W., Ying K., Yeh C.T., Emrich S.J., Jia Y., Kalyanaraman A., Hsia A.P., Barbazuk W.B., Baucom R.S., Brutnell T.P., Carpita N.C., Chaparro C., Chia J.M., Deragon J.M., Estill J.C., Fu Y., Jeddeloh J.A., Han Y.J., Lee H., Li P.H., Lisch D.R., Liu S.Z., Liu Z.J., Nagel D.H., McCann M.C., SanMiguel P., Myers A.M., Nettleton D., Nguyen J., Penning B.W., Ponnala L., Schneider K.L., Schwartz D.C., Sharma A., Soderlund C., Springer N.M., Sun Q., Wang H., Waterman M., Westerman R., Wolfgruber T.K., Yang L.X., Yu Y., Zhang L.F., Zhou S.G., Zhu Q., Bennetzen J.L., Dawe R.K., Jiang J.M., Jiang N., Presting G.G., Wessler S.R., Aluru S., Martienssen R.A., Clifton S.W., McCombie W.R., Wing R.A., Wilson R.K. The B73 maize genome: complexity, diversity, and dynamics. Science 2009, 326:1112-1115.
-
(2009)
Science
, vol.326
, pp. 1112-1115
-
-
Schnable, P.S.1
Ware, D.2
Fulton, R.S.3
Stein, J.C.4
Wei, F.S.5
Pasternak, S.6
Liang, C.Z.7
Zhang, J.W.8
Fulton, L.9
Graves, T.A.10
Minx, P.11
Reily, A.D.12
Courtney, L.13
Kruchowski, S.S.14
Tomlinson, C.15
Strong, C.16
Delehaunty, K.17
Fronick, C.18
Courtney, B.19
Rock, S.M.20
Belter, E.21
Du, F.Y.22
Kim, K.23
Abbott, R.M.24
Cotton, M.25
Levy, A.26
Marchetto, P.27
Ochoa, K.28
Jackson, S.M.29
Gillam, B.30
Chen, W.Z.31
Yan, L.32
Higginbotham, J.33
Cardenas, M.34
Waligorski, J.35
Applebaum, E.36
Phelps, L.37
Falcone, J.38
Kanchi, K.39
Thane, T.40
Scimone, A.41
Thane, N.42
Henke, J.43
Wang, T.44
Ruppert, J.45
Shah, N.46
Rotter, K.47
Hodges, J.48
Ingenthron, E.49
Cordes, M.50
Kohlberg, S.51
Sgro, J.52
Delgado, B.53
Mead, K.54
Chinwalla, A.55
Leonard, S.56
Crouse, K.57
Collura, K.58
Kudrna, D.59
Currie, J.60
He, R.F.61
Angelova, A.62
Rajasekar, S.63
Mueller, T.64
Lomeli, R.65
Scara, G.66
Ko, A.67
Delaney, K.68
Wissotski, M.69
Lopez, G.70
Campos, D.71
Braidotti, M.72
Ashley, E.73
Golser, W.74
Kim, H.75
Lee, S.76
Lin, J.K.77
Dujmic, Z.78
Kim, W.79
Talag, J.80
Zuccolo, A.81
Fan, C.82
Sebastian, A.83
Kramer, M.84
Spiegel, L.85
Nascimento, L.86
Zutavern, T.87
Miller, B.88
Ambroise, C.89
Muller, S.90
Spooner, W.91
Narechania, A.92
Ren, L.Y.93
Wei, S.94
Kumari, S.95
Faga, B.96
Levy, M.J.97
McMahan, L.98
Van Buren, P.99
more..
-
139
-
-
84869085030
-
Teosinte as a model system for population and ecological genomics
-
Hufford M.B., Bilinski P., Pyhajarvi T., Ross-Ibarra J. Teosinte as a model system for population and ecological genomics. Trends Genet. 2012, 28:606-615.
-
(2012)
Trends Genet.
, vol.28
, pp. 606-615
-
-
Hufford, M.B.1
Bilinski, P.2
Pyhajarvi, T.3
Ross-Ibarra, J.4
-
140
-
-
84947033256
-
Zea
-
Springer, Berlin, Heidelberg, C. Kole (Ed.)
-
Wusirika R., Li K., Phillips R., Bennetzen J. Zea. Wild Crop Relatives: Genomic and Breeding Resources 2011, 457-488. Springer, Berlin, Heidelberg. C. Kole (Ed.).
-
(2011)
Wild Crop Relatives: Genomic and Breeding Resources
, pp. 457-488
-
-
Wusirika, R.1
Li, K.2
Phillips, R.3
Bennetzen, J.4
-
141
-
-
3142606351
-
Tripsacum-maize interaction-novel cytogenetic system
-
Wet J.M.J., Harlan J.R. Tripsacum-maize interaction-novel cytogenetic system. Genetics 1974, 78:493-502.
-
(1974)
Genetics
, vol.78
, pp. 493-502
-
-
Wet, J.M.J.1
Harlan, J.R.2
-
142
-
-
84863007735
-
Maize HapMap2 identifies extant variation from a genome in flux
-
803-U238
-
Chia J.M., Song C., Bradbury P.J., Costich D., de Leon N., Doebley J., Elshire R.J., Gaut B., Geller L., Glaubitz J.C., Gore M., Guill K.E., Holland J., Hufford M.B., Lai J.S., Li M., Liu X., Lu Y.L., McCombie R., Nelson R., Poland J., Prasanna B.M., Pyhajarvi T., Rong T.Z., Sekhon R.S., Sun Q., Tenaillon M.I., Tian F., Wang J., Xu X., Zhang Z.W., Kaeppler S.M., Ross-Ibarra J., McMullen M.D., Buckler E.S., Zhang G.Y., Xu Y.B., Ware D. Maize HapMap2 identifies extant variation from a genome in flux. Nat. Genet. 2012, 44:803-U238.
-
(2012)
Nat. Genet.
, vol.44
-
-
Chia, J.M.1
Song, C.2
Bradbury, P.J.3
Costich, D.4
de Leon, N.5
Doebley, J.6
Elshire, R.J.7
Gaut, B.8
Geller, L.9
Glaubitz, J.C.10
Gore, M.11
Guill, K.E.12
Holland, J.13
Hufford, M.B.14
Lai, J.S.15
Li, M.16
Liu, X.17
Lu, Y.L.18
McCombie, R.19
Nelson, R.20
Poland, J.21
Prasanna, B.M.22
Pyhajarvi, T.23
Rong, T.Z.24
Sekhon, R.S.25
Sun, Q.26
Tenaillon, M.I.27
Tian, F.28
Wang, J.29
Xu, X.30
Zhang, Z.W.31
Kaeppler, S.M.32
Ross-Ibarra, J.33
McMullen, M.D.34
Buckler, E.S.35
Zhang, G.Y.36
Xu, Y.B.37
Ware, D.38
more..
-
143
-
-
84862993359
-
Comparative population genomics of maize domestication and improvement
-
Hufford M.B., Xu X., van Heerwaarden J., Pyhajarvi T., Chia J.M., Cartwright R.A., Elshire R.J., Glaubitz J.C., Guill K.E., Kaeppler S.M., Lai J.S., Morrell P.L., Shannon L.M., Song C., Springer N.M., Swanson-Wagner R.A., Tiffin P., Wang J., Zhang G.Y., Doebley J., McMullen M.D., Ware D., Buckler E.S., Yang S., Ross-Ibarra J. Comparative population genomics of maize domestication and improvement. Nat. Genet. 2012, 44:808-811.
-
(2012)
Nat. Genet.
, vol.44
, pp. 808-811
-
-
Hufford, M.B.1
Xu, X.2
van Heerwaarden, J.3
Pyhajarvi, T.4
Chia, J.M.5
Cartwright, R.A.6
Elshire, R.J.7
Glaubitz, J.C.8
Guill, K.E.9
Kaeppler, S.M.10
Lai, J.S.11
Morrell, P.L.12
Shannon, L.M.13
Song, C.14
Springer, N.M.15
Swanson-Wagner, R.A.16
Tiffin, P.17
Wang, J.18
Zhang, G.Y.19
Doebley, J.20
McMullen, M.D.21
Ware, D.22
Buckler, E.S.23
Yang, S.24
Ross-Ibarra, J.25
more..
-
146
-
-
84922433961
-
Testing the SI x SC rule: pollen-pistil interactions in interspecific crosses between members of the tomato clade (Solanum section lycopersicon, Solanaceae)
-
Baek Y.S., Covey P.A., Petersen J.J., Chetelat R.T., McClure B., Bedinger P.A. Testing the SI x SC rule: pollen-pistil interactions in interspecific crosses between members of the tomato clade (Solanum section lycopersicon, Solanaceae). Am. J. Bot. 2015, 102:302-311.
-
(2015)
Am. J. Bot.
, vol.102
, pp. 302-311
-
-
Baek, Y.S.1
Covey, P.A.2
Petersen, J.J.3
Chetelat, R.T.4
McClure, B.5
Bedinger, P.A.6
-
147
-
-
4944244478
-
Unilateral incompatibility in Capsicum (Solanaceae): occurrence and taxonomic distribution
-
Onus A.N., Pickersgill B. Unilateral incompatibility in Capsicum (Solanaceae): occurrence and taxonomic distribution. Ann. Bot. London 2004, 94:289-295.
-
(2004)
Ann. Bot. London
, vol.94
, pp. 289-295
-
-
Onus, A.N.1
Pickersgill, B.2
-
148
-
-
33645288010
-
Overcoming hybridization barriers in potato
-
Jansky S. Overcoming hybridization barriers in potato. Plant Breed. 2006, 125:1-12.
-
(2006)
Plant Breed.
, vol.125
, pp. 1-12
-
-
Jansky, S.1
-
149
-
-
84880792627
-
A large-scale introgression of genomic components of Brassica rapa into B-napus by the bridge of hexaploid derived from hybridization between B. napus and B. oleracea
-
Li Q.F., Mei J.Q., Zhang Y.J., Li J.N., Ge X.H., Li Z.Y., Qian W. A large-scale introgression of genomic components of Brassica rapa into B-napus by the bridge of hexaploid derived from hybridization between B. napus and B. oleracea. Theor. Appl. Genet. 2013, 126:2073-2080.
-
(2013)
Theor. Appl. Genet.
, vol.126
, pp. 2073-2080
-
-
Li, Q.F.1
Mei, J.Q.2
Zhang, Y.J.3
Li, J.N.4
Ge, X.H.5
Li, Z.Y.6
Qian, W.7
-
150
-
-
84861326732
-
Development of advanced interspecific-bridge lines among Cucurbita pepo, C. maxima, and C. moschata
-
Zhang Q., Yu E.D., Medina A. Development of advanced interspecific-bridge lines among Cucurbita pepo, C. maxima, and C. moschata. Hortscience 2012, 47:452-458.
-
(2012)
Hortscience
, vol.47
, pp. 452-458
-
-
Zhang, Q.1
Yu, E.D.2
Medina, A.3
-
152
-
-
80054836743
-
Reproductive characterization of interspecific hybrids among Capsicum species
-
Monteiro C.E.d.S., Pereira T.N.S., Campos K.P.d. Reproductive characterization of interspecific hybrids among Capsicum species. Crop Breed. Appl. Biotechnol. 2011, 11:241-249.
-
(2011)
Crop Breed. Appl. Biotechnol.
, vol.11
, pp. 241-249
-
-
Monteiro, C.1
Pereira, T.N.S.2
Campos, K.3
-
153
-
-
84904255441
-
Horizontal genome transfer as an asexual path to the formation of new species
-
Fuentes I., Stegemann S., Golczyk H., Karcher D., Bock R. Horizontal genome transfer as an asexual path to the formation of new species. Nature 2014, 511:232.
-
(2014)
Nature
, vol.511
, pp. 232
-
-
Fuentes, I.1
Stegemann, S.2
Golczyk, H.3
Karcher, D.4
Bock, R.5
-
154
-
-
84885361865
-
Cytoplasmic genetic variation and extensive cytonuclear interactions influence natural variation in the metabolome
-
Joseph B., Corwin J.A., Li B.H., Atwell S., Kliebenstein D.J. Cytoplasmic genetic variation and extensive cytonuclear interactions influence natural variation in the metabolome. Elife 2013, 2.
-
(2013)
Elife
, vol.2
-
-
Joseph, B.1
Corwin, J.A.2
Li, B.H.3
Atwell, S.4
Kliebenstein, D.J.5
-
155
-
-
84878331646
-
Genetic and physiological analysis of a novel type of interspecific hybrid weakness in rice
-
Chen C., Chen H., Shan J.X., Zhu M.Z., Shi M., Gao J.P., Lin H.X. Genetic and physiological analysis of a novel type of interspecific hybrid weakness in rice. Mol. Plant 2013, 6:716-728.
-
(2013)
Mol. Plant
, vol.6
, pp. 716-728
-
-
Chen, C.1
Chen, H.2
Shan, J.X.3
Zhu, M.Z.4
Shi, M.5
Gao, J.P.6
Lin, H.X.7
-
156
-
-
84857189983
-
Extraordinary transgressive phenotypes of hybrid tomato are influenced by epigenetics and small silencing RNAs
-
Shivaprasad P.V., Dunn R.M., Santos B.A.C.M., Bassett A., Baulcombe D.C. Extraordinary transgressive phenotypes of hybrid tomato are influenced by epigenetics and small silencing RNAs. EMBO J. 2012, 31:257-266.
-
(2012)
EMBO J.
, vol.31
, pp. 257-266
-
-
Shivaprasad, P.V.1
Dunn, R.M.2
Santos, B.A.C.M.3
Bassett, A.4
Baulcombe, D.C.5
-
157
-
-
8844243313
-
Unused natural variation can lift yield barriers in plant breeding
-
Gur A., Zamir D. Unused natural variation can lift yield barriers in plant breeding. PLoS Biol. 2004, 2:1610-1615.
-
(2004)
PLoS Biol.
, vol.2
, pp. 1610-1615
-
-
Gur, A.1
Zamir, D.2
-
158
-
-
80054084242
-
Corn hybrids display lower metabolite variability and complex metabolite inheritance patterns
-
Lisec J., Romisch-Margl L., Nikoloski Z., Piepho H.P., Giavalisco P., Selbig J., Gierl A., Willmitzer L. Corn hybrids display lower metabolite variability and complex metabolite inheritance patterns. Plant J. 2011, 68:326-336.
-
(2011)
Plant J.
, vol.68
, pp. 326-336
-
-
Lisec, J.1
Romisch-Margl, L.2
Nikoloski, Z.3
Piepho, H.P.4
Giavalisco, P.5
Selbig, J.6
Gierl, A.7
Willmitzer, L.8
-
159
-
-
84927171868
-
Exploitation of yield stability in barley
-
Muhleisen J., Piepho H.P., Maurer H.P., Zhao Y.S., Reif J.C. Exploitation of yield stability in barley. Theor. Appl. Genet. 2014, 127:1949-1962.
-
(2014)
Theor. Appl. Genet.
, vol.127
, pp. 1949-1962
-
-
Muhleisen, J.1
Piepho, H.P.2
Maurer, H.P.3
Zhao, Y.S.4
Reif, J.C.5
-
160
-
-
77956795823
-
Heterosis
-
Birchler J.A., Yao H., Chudalayandi S., Vaiman D., Veitia R.A. Heterosis. Plant Cell 2010, 22:2105-2112.
-
(2010)
Plant Cell
, vol.22
, pp. 2105-2112
-
-
Birchler, J.A.1
Yao, H.2
Chudalayandi, S.3
Vaiman, D.4
Veitia, R.A.5
-
161
-
-
23944491611
-
Evolution of phenotypic plasticity: where are we going now?
-
Pigliucci M. Evolution of phenotypic plasticity: where are we going now?. Trends Ecol. Evol. 2005, 20:481-486.
-
(2005)
Trends Ecol. Evol.
, vol.20
, pp. 481-486
-
-
Pigliucci, M.1
-
162
-
-
79952301195
-
Changes in 24-nt siRNA levels in Arabidopsis hybrids suggest an epigenetic contribution to hybrid vigor
-
Groszmann M., Greaves I.K., Albertyn Z.I., Scofield G.N., Peacock W.J., Dennis E.S. Changes in 24-nt siRNA levels in Arabidopsis hybrids suggest an epigenetic contribution to hybrid vigor. Proc. Natl. Acad. Sci. U.S.A. 2011, 108:2617-2622.
-
(2011)
Proc. Natl. Acad. Sci. U.S.A.
, vol.108
, pp. 2617-2622
-
-
Groszmann, M.1
Greaves, I.K.2
Albertyn, Z.I.3
Scofield, G.N.4
Peacock, W.J.5
Dennis, E.S.6
-
163
-
-
84860109530
-
Genome-wide analysis of DNA methylation and gene expression changes in two arabidopsis ecotypes and their reciprocal hybrids
-
Shen H.S., He H., Li J.G., Chen W., Wang X.C., Guo L., Peng Z.Y., He G.M., Zhong S.W., Qi Y.J., Terzaghi W., Deng X.W. Genome-wide analysis of DNA methylation and gene expression changes in two arabidopsis ecotypes and their reciprocal hybrids. Plant Cell 2012, 24:875-892.
-
(2012)
Plant Cell
, vol.24
, pp. 875-892
-
-
Shen, H.S.1
He, H.2
Li, J.G.3
Chen, W.4
Wang, X.C.5
Guo, L.6
Peng, Z.Y.7
He, G.M.8
Zhong, S.W.9
Qi, Y.J.10
Terzaghi, W.11
Deng, X.W.12
-
164
-
-
84857374101
-
Rapid establishment of genetic incompatibility through natural epigenetic variation
-
Durand S., Bouche N., Strand E.P., Loudet O., Camilleri C. Rapid establishment of genetic incompatibility through natural epigenetic variation. Curr. Biol. 2012, 22:326-331.
-
(2012)
Curr. Biol.
, vol.22
, pp. 326-331
-
-
Durand, S.1
Bouche, N.2
Strand, E.P.3
Loudet, O.4
Camilleri, C.5
-
165
-
-
84888138244
-
The role of epigenetics in hybrid vigour
-
Groszmann M., Greaves I.K., Fujimoto R., Peacock W.J., Dennis E.S. The role of epigenetics in hybrid vigour. Trends Genet. 2013, 29:684-690.
-
(2013)
Trends Genet.
, vol.29
, pp. 684-690
-
-
Groszmann, M.1
Greaves, I.K.2
Fujimoto, R.3
Peacock, W.J.4
Dennis, E.S.5
-
166
-
-
84943657355
-
Epigenetic mechanisms of postzygotic reproductive isolation in plants
-
Lafon-Placette C., Köhler C. Epigenetic mechanisms of postzygotic reproductive isolation in plants. Curr. Opin. Plant Biol. 2015, 23:39-44.
-
(2015)
Curr. Opin. Plant Biol.
, vol.23
, pp. 39-44
-
-
Lafon-Placette, C.1
Köhler, C.2
-
167
-
-
77951769145
-
The flowering gene SINGLE FLOWER TRUSS drives heterosis for yield in tomato
-
Krieger U., Lippman Z.B., Zamir D. The flowering gene SINGLE FLOWER TRUSS drives heterosis for yield in tomato. Nat. Genet. 2010, 42:459-463.
-
(2010)
Nat. Genet.
, vol.42
, pp. 459-463
-
-
Krieger, U.1
Lippman, Z.B.2
Zamir, D.3
-
168
-
-
84903441122
-
Yield stability of hybrids versus lines in wheat, barley, and triticale
-
Muhleisen J., Piepho H.P., Maurer H.P., Longin C.F.H., Reif J.C. Yield stability of hybrids versus lines in wheat, barley, and triticale. Theor. Appl. Genet. 2014, 127:309-316.
-
(2014)
Theor. Appl. Genet.
, vol.127
, pp. 309-316
-
-
Muhleisen, J.1
Piepho, H.P.2
Maurer, H.P.3
Longin, C.F.H.4
Reif, J.C.5
-
169
-
-
0027333437
-
Genetics and evolution of phenotypic plasticity
-
Scheiner S.M. Genetics and evolution of phenotypic plasticity. Annu. Rev. Ecol. Syst. 1993, 24:35-68.
-
(1993)
Annu. Rev. Ecol. Syst.
, vol.24
, pp. 35-68
-
-
Scheiner, S.M.1
-
170
-
-
0030829363
-
Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid
-
Yu S.B., Li J.X., Tan Y.F., Gao Y.J., Li X.H., Zhang Q.F., Maroof M.A.S. Importance of epistasis as the genetic basis of heterosis in an elite rice hybrid. Proc. Natl. Acad. Sci. U.S.A. 1997, 94:9226-9231.
-
(1997)
Proc. Natl. Acad. Sci. U.S.A.
, vol.94
, pp. 9226-9231
-
-
Yu, S.B.1
Li, J.X.2
Tan, Y.F.3
Gao, Y.J.4
Li, X.H.5
Zhang, Q.F.6
Maroof, M.A.S.7
-
171
-
-
84920274602
-
Consequences of hybridization and heterozygosity on plant vigor and phenotypic stability
-
Fridman E. Consequences of hybridization and heterozygosity on plant vigor and phenotypic stability. Plant Sci. 2015, 232:35-40.
-
(2015)
Plant Sci.
, vol.232
, pp. 35-40
-
-
Fridman, E.1
-
172
-
-
84921950165
-
Metabolite-based genome-wide association studies in plants
-
Luo J. Metabolite-based genome-wide association studies in plants. Curr. Opin. Plant Biol. 2015, 24:31-38.
-
(2015)
Curr. Opin. Plant Biol.
, vol.24
, pp. 31-38
-
-
Luo, J.1
-
173
-
-
84866692146
-
Association mapping in forest trees and fruit crops
-
Khan M.A., Korban S.S. Association mapping in forest trees and fruit crops. J. Exp. Bot. 2012, 63:4045-4060.
-
(2012)
J. Exp. Bot.
, vol.63
, pp. 4045-4060
-
-
Khan, M.A.1
Korban, S.S.2
-
174
-
-
33745580270
-
The genetics of plant metabolism
-
Keurentjes J.J.B., Fu J.Y., de Vos C.H.R., Lommen A., Hall R.D., Bino R.J., van der Plas L.H.W., Jansen R.C., Vreugdenhil D., Koornneef M. The genetics of plant metabolism. Nat. Genet. 2006, 38:842-849.
-
(2006)
Nat. Genet.
, vol.38
, pp. 842-849
-
-
Keurentjes, J.J.B.1
Fu, J.Y.2
de Vos, C.H.R.3
Lommen, A.4
Hall, R.D.5
Bino, R.J.6
van der Plas, L.H.W.7
Jansen, R.C.8
Vreugdenhil, D.9
Koornneef, M.10
-
175
-
-
55449086329
-
Genome-wide association mapping in Arabidopsis identifies previously known flowering time and pathogen resistance genes
-
Aranzana M.J., Kim S., Zhao K.Y., Bakker E., Horton M., Jakob K., Lister C., Molitor J., Shindo C., Tang C.L., Toomajian C., Traw B., Zheng H.G., Bergelson J., Dean C., Marjoram P., Nordborg M. Genome-wide association mapping in Arabidopsis identifies previously known flowering time and pathogen resistance genes. PLoS Genet. 2005, 1:531-539.
-
(2005)
PLoS Genet.
, vol.1
, pp. 531-539
-
-
Aranzana, M.J.1
Kim, S.2
Zhao, K.Y.3
Bakker, E.4
Horton, M.5
Jakob, K.6
Lister, C.7
Molitor, J.8
Shindo, C.9
Tang, C.L.10
Toomajian, C.11
Traw, B.12
Zheng, H.G.13
Bergelson, J.14
Dean, C.15
Marjoram, P.16
Nordborg, M.17
-
176
-
-
77953233453
-
Genome-wide association study of 107 phenotypes in Arabidopsis thaliana inbred lines
-
Atwell S., Huang Y.S., Vilhjalmsson B.J., Willems G., Horton M., Li Y., Meng D.Z., Platt A., Tarone A.M., Hu T.T., Jiang R., Muliyati N.W., Zhang X., Amer M.A., Baxter I., Brachi B., Chory J., Dean C., Debieu M., de Meaux J., Ecker J.R., Faure N., Kniskern J.M., Jones J.D.G., Michael T., Nemri A., Roux F., Salt D.E., Tang C.L., Todesco M., Traw M.B., Weigel D., Marjoram P., Borevitz J.O., Bergelson J., Nordborg M. Genome-wide association study of 107 phenotypes in Arabidopsis thaliana inbred lines. Nature 2010, 465:627-631.
-
(2010)
Nature
, vol.465
, pp. 627-631
-
-
Atwell, S.1
Huang, Y.S.2
Vilhjalmsson, B.J.3
Willems, G.4
Horton, M.5
Li, Y.6
Meng, D.Z.7
Platt, A.8
Tarone, A.M.9
Hu, T.T.10
Jiang, R.11
Muliyati, N.W.12
Zhang, X.13
Amer, M.A.14
Baxter, I.15
Brachi, B.16
Chory, J.17
Dean, C.18
Debieu, M.19
de Meaux, J.20
Ecker, J.R.21
Faure, N.22
Kniskern, J.M.23
Jones, J.D.G.24
Michael, T.25
Nemri, A.26
Roux, F.27
Salt, D.E.28
Tang, C.L.29
Todesco, M.30
Traw, M.B.31
Weigel, D.32
Marjoram, P.33
Borevitz, J.O.34
Bergelson, J.35
Nordborg, M.36
more..
-
177
-
-
84856270364
-
Genome-wide patterns of genetic variation in worldwide Arabidopsis thaliana accessions from the RegMap panel
-
Horton M.W., Hancock A.M., Huang Y.S., Toomajian C., Atwell S., Auton A., Muliyati N.W., Platt A., Sperone F.G., Vilhjalmsson B.J., Nordborg M., Borevitz J.O., Bergelson J. Genome-wide patterns of genetic variation in worldwide Arabidopsis thaliana accessions from the RegMap panel. Nat. Genet. 2012, 44:212-216.
-
(2012)
Nat. Genet.
, vol.44
, pp. 212-216
-
-
Horton, M.W.1
Hancock, A.M.2
Huang, Y.S.3
Toomajian, C.4
Atwell, S.5
Auton, A.6
Muliyati, N.W.7
Platt, A.8
Sperone, F.G.9
Vilhjalmsson, B.J.10
Nordborg, M.11
Borevitz, J.O.12
Bergelson, J.13
-
178
-
-
69949135484
-
Association mapping critical considerations shift from genotyping to experimental design
-
Myles S., Peiffer J., Brown P.J., Ersoz E.S., Zhang Z.W., Costich D.E., Buckler E.S. Association mapping critical considerations shift from genotyping to experimental design. Plant Cell 2009, 21:2194-2202.
-
(2009)
Plant Cell
, vol.21
, pp. 2194-2202
-
-
Myles, S.1
Peiffer, J.2
Brown, P.J.3
Ersoz, E.S.4
Zhang, Z.W.5
Costich, D.E.6
Buckler, E.S.7
-
179
-
-
84855268714
-
Natural variation in arabidopsis: from molecular genetics to ecological genomics
-
Weigel D. Natural variation in arabidopsis: from molecular genetics to ecological genomics. Plant Physiol. 2012, 158:2-22.
-
(2012)
Plant Physiol.
, vol.158
, pp. 2-22
-
-
Weigel, D.1
-
180
-
-
57649121742
-
Next-generation genetics in plants
-
Nordborg M., Weigel D. Next-generation genetics in plants. Nature 2008, 456:720-723.
-
(2008)
Nature
, vol.456
, pp. 720-723
-
-
Nordborg, M.1
Weigel, D.2
-
181
-
-
79959974750
-
Reference-guided assembly of four diverse Arabidopsis thaliana genomes
-
Schneeberger K., Ossowski S., Ott F., Klein J.D., Wang X., Lanz C., Smith L.M., Cao J., Fitz J., Warthmann N., Henz S.R., Huson D.H., Weigel D. Reference-guided assembly of four diverse Arabidopsis thaliana genomes. Proc. Natl. Acad. Sci. U.S.A. 2011, 108:10249-10254.
-
(2011)
Proc. Natl. Acad. Sci. U.S.A.
, vol.108
, pp. 10249-10254
-
-
Schneeberger, K.1
Ossowski, S.2
Ott, F.3
Klein, J.D.4
Wang, X.5
Lanz, C.6
Smith, L.M.7
Cao, J.8
Fitz, J.9
Warthmann, N.10
Henz, S.R.11
Huson, D.H.12
Weigel, D.13
-
182
-
-
0036259727
-
Comparative analysis of quantitative trait loci controlling glucosinolates, myrosinase and insect resistance in Arabidopsis thaliana
-
Kliebenstein D., Pedersen D., Barker B., Mitchell-Olds T. Comparative analysis of quantitative trait loci controlling glucosinolates, myrosinase and insect resistance in Arabidopsis thaliana. Genetics 2002, 161:325-332.
-
(2002)
Genetics
, vol.161
, pp. 325-332
-
-
Kliebenstein, D.1
Pedersen, D.2
Barker, B.3
Mitchell-Olds, T.4
-
183
-
-
0034816345
-
Comparative quantitative trait loci mapping of aliphatic, indolic and benzylic glucosinolate production in Arabidopsis thaliana leaves and seeds
-
Kliebenstein D.J., Gershenzon J., Mitchell-Olds T. Comparative quantitative trait loci mapping of aliphatic, indolic and benzylic glucosinolate production in Arabidopsis thaliana leaves and seeds. Genetics 2001, 159:359-370.
-
(2001)
Genetics
, vol.159
, pp. 359-370
-
-
Kliebenstein, D.J.1
Gershenzon, J.2
Mitchell-Olds, T.3
-
184
-
-
44449155741
-
A systems biology approach identifies a R2R3 MYB gene subfamily with distinct and overlapping functions in regulation of aliphatic glucosinolates
-
Sonderby I.E., Hansen B.G., Bjarnholt N., Ticconi C., Halkier B.A., Kliebenstein D.J. A systems biology approach identifies a R2R3 MYB gene subfamily with distinct and overlapping functions in regulation of aliphatic glucosinolates. PLoS ONE 2007, 2.
-
(2007)
PLoS ONE
, vol.2
-
-
Sonderby, I.E.1
Hansen, B.G.2
Bjarnholt, N.3
Ticconi, C.4
Halkier, B.A.5
Kliebenstein, D.J.6
-
185
-
-
34848837299
-
Linking metabolic QTLs with network and cis-eQTLs controlling biosynthetic pathways
-
Wentzell A.M., Rowe H.C., Hansen B.G., Ticconi C., Halkier B.A., Kliebenstein D.J. Linking metabolic QTLs with network and cis-eQTLs controlling biosynthetic pathways. PLoS Genet. 2007, 3:1687-1701.
-
(2007)
PLoS Genet.
, vol.3
, pp. 1687-1701
-
-
Wentzell, A.M.1
Rowe, H.C.2
Hansen, B.G.3
Ticconi, C.4
Halkier, B.A.5
Kliebenstein, D.J.6
-
186
-
-
54149090305
-
Biochemical networks and epistasis shape the Arabidopsis thaliana metabolome
-
Rowe H.C., Hansen B.G., Halkier B.A., Kliebenstein D.J. Biochemical networks and epistasis shape the Arabidopsis thaliana metabolome. Plant Cell 2008, 20:1199-1216.
-
(2008)
Plant Cell
, vol.20
, pp. 1199-1216
-
-
Rowe, H.C.1
Hansen, B.G.2
Halkier, B.A.3
Kliebenstein, D.J.4
-
187
-
-
40549123412
-
Identification of metabolic and biomass QTL in Arabidopsis thaliana in a parallel analysis of RIL and IL populations
-
Lisec J., Meyer R.C., Steinfath M., Redestig H., Becher M., Witucka-Wall H., Fiehn O., Torjek O., Selbig J., Altmann T., Willmitzer L. Identification of metabolic and biomass QTL in Arabidopsis thaliana in a parallel analysis of RIL and IL populations. Plant J. 2008, 53:960-972.
-
(2008)
Plant J.
, vol.53
, pp. 960-972
-
-
Lisec, J.1
Meyer, R.C.2
Steinfath, M.3
Redestig, H.4
Becher, M.5
Witucka-Wall, H.6
Fiehn, O.7
Torjek, O.8
Selbig, J.9
Altmann, T.10
Willmitzer, L.11
-
188
-
-
59149100506
-
System-wide molecular evidence for phenotypic buffering in Arabidopsis
-
Fu J., Keurentjes J.J.B., Bouwmeester H., America T., Verstappen F.W.A., Ward J.L., Beale M.H., de Vos R.C.H., Dijkstra M., Scheltema R.A., Johannes F., Koornneef M., Vreugdenhil D., Breitling R., Jansen R.C. System-wide molecular evidence for phenotypic buffering in Arabidopsis. Nat. Genet. 2009, 41:166-167.
-
(2009)
Nat. Genet.
, vol.41
, pp. 166-167
-
-
Fu, J.1
Keurentjes, J.J.B.2
Bouwmeester, H.3
America, T.4
Verstappen, F.W.A.5
Ward, J.L.6
Beale, M.H.7
de Vos, R.C.H.8
Dijkstra, M.9
Scheltema, R.A.10
Johannes, F.11
Koornneef, M.12
Vreugdenhil, D.13
Breitling, R.14
Jansen, R.C.15
-
189
-
-
80052338881
-
Combining genome-wide association mapping and transcriptional networks to identify novel genes controlling glucosinolates in Arabidopsis thaliana
-
Chan E.K.F., Rowe H.C., Corwin J.A., Joseph B., Kliebenstein D.J. Combining genome-wide association mapping and transcriptional networks to identify novel genes controlling glucosinolates in Arabidopsis thaliana. PLoS Biol. 2011, 9:e1001125.
-
(2011)
PLoS Biol.
, vol.9
, pp. e1001125
-
-
Chan, E.K.F.1
Rowe, H.C.2
Corwin, J.A.3
Joseph, B.4
Kliebenstein, D.J.5
-
190
-
-
78649715865
-
The complex genetic architecture of the metabolome
-
Chan E.K.F., Rowe H.C., Hansen B.G., Kliebenstein D.J. The complex genetic architecture of the metabolome. PLoS Genet. 2010, 6:e1001198.
-
(2010)
PLoS Genet.
, vol.6
, pp. e1001198
-
-
Chan, E.K.F.1
Rowe, H.C.2
Hansen, B.G.3
Kliebenstein, D.J.4
-
191
-
-
78349288489
-
Understanding the evolution of defense metabolites in Arabidopsis thaliana using genome-wide association mapping
-
Chan E.K.F., Rowe H.C., Kliebenstein D.J. Understanding the evolution of defense metabolites in Arabidopsis thaliana using genome-wide association mapping. Genetics 2010, 185:991-1007.
-
(2010)
Genetics
, vol.185
, pp. 991-1007
-
-
Chan, E.K.F.1
Rowe, H.C.2
Kliebenstein, D.J.3
-
192
-
-
84863669380
-
Metabolite profiling and quantitative genetics of natural variation for flavonoids in Arabidopsis
-
Routaboul J.M., Dubos C., Beck G., Marquis C., Bidzinski P., Loudet O., Lepiniec L. Metabolite profiling and quantitative genetics of natural variation for flavonoids in Arabidopsis. J. Exp. Bot. 2012, 63:3749-3764.
-
(2012)
J. Exp. Bot.
, vol.63
, pp. 3749-3764
-
-
Routaboul, J.M.1
Dubos, C.2
Beck, G.3
Marquis, C.4
Bidzinski, P.5
Loudet, O.6
Lepiniec, L.7
-
193
-
-
84893084313
-
Genome-wide analysis of branched-chain amino acid levels in Arabidopsis seeds
-
Angelovici R., Lipka A.E., Deason N., Gonzalez-Jorge S., Lin H.N., Cepela J., Buell R., Gore M.A., DellaPenna D. Genome-wide analysis of branched-chain amino acid levels in Arabidopsis seeds. Plant Cell 2013, 25:4827-4843.
-
(2013)
Plant Cell
, vol.25
, pp. 4827-4843
-
-
Angelovici, R.1
Lipka, A.E.2
Deason, N.3
Gonzalez-Jorge, S.4
Lin, H.N.5
Cepela, J.6
Buell, R.7
Gore, M.A.8
DellaPenna, D.9
-
194
-
-
0346035007
-
Mapping QTLs for sucrose content, yield and quality in a sugar beet population fingerprinted by EST-related markers
-
Schneider K., Schafer-Pregl R., Borchardt D.C., Salamini F. Mapping QTLs for sucrose content, yield and quality in a sugar beet population fingerprinted by EST-related markers. Theor. Appl. Genet. 2002, 104:1107-1113.
-
(2002)
Theor. Appl. Genet.
, vol.104
, pp. 1107-1113
-
-
Schneider, K.1
Schafer-Pregl, R.2
Borchardt, D.C.3
Salamini, F.4
-
195
-
-
84897526674
-
Identification of metabolic QTLs and candidate genes for glucosinolate synthesis in Brassica oleracea leaves, seeds and flower buds
-
Sotelo T., Soengas P., Velasco P., Rodriguez V.M., Cartea M.E. Identification of metabolic QTLs and candidate genes for glucosinolate synthesis in Brassica oleracea leaves, seeds and flower buds. PLoS ONE 2014, 9.
-
(2014)
PLoS ONE
, vol.9
-
-
Sotelo, T.1
Soengas, P.2
Velasco, P.3
Rodriguez, V.M.4
Cartea, M.E.5
-
196
-
-
84873360692
-
Identification of QTLs for capsaicinoids, fruit quality, and plant architecture-related traits in an interspecific Capsicum RIL population
-
Yarnes S.C., Ashrafi H., Reyes-Chin-Wo S., Hill T.A., Stoffel K.M., Van Deynze A. Identification of QTLs for capsaicinoids, fruit quality, and plant architecture-related traits in an interspecific Capsicum RIL population. Genome 2013, 56:61-74.
-
(2013)
Genome
, vol.56
, pp. 61-74
-
-
Yarnes, S.C.1
Ashrafi, H.2
Reyes-Chin-Wo, S.3
Hill, T.A.4
Stoffel, K.M.5
Van Deynze, A.6
-
197
-
-
84893798816
-
Genetic mapping of semi-polar metabolites in pepper fruits (Capsicum sp.): towards unravelling the molecular regulation of flavonoid quantitative trait loci
-
Wahyuni Y., Stahl-Hermes V., Ballester A.R., de Vos R.C.H., Voorrips R., Maharijaya A., Molthoff J., Zamora M., Sudarmonowati E., Arisi A., Bino R., Bovy A. Genetic mapping of semi-polar metabolites in pepper fruits (Capsicum sp.): towards unravelling the molecular regulation of flavonoid quantitative trait loci. Mol. Breed. 2014, 33:503-518.
-
(2014)
Mol. Breed.
, vol.33
, pp. 503-518
-
-
Wahyuni, Y.1
Stahl-Hermes, V.2
Ballester, A.R.3
de Vos, R.C.H.4
Voorrips, R.5
Maharijaya, A.6
Molthoff, J.7
Zamora, M.8
Sudarmonowati, E.9
Arisi, A.10
Bino, R.11
Bovy, A.12
-
198
-
-
84863546828
-
Co-mapping studies of QTLs for fruit acidity and candidate genes of organic acid metabolism and proton transport in sweet melon (Cucumis melo L.)
-
Cohen S., Tzuri G., Harel-Beja R., Itkin M., Portnoy V., Sa'ar U., Lev S., Yeselson L., Petrikov M., Rogachev I., Aharoni A., Ophir R., Tadmor Y., Lewinsohn E., Burger Y., Katzir N., Schaffer A.A. Co-mapping studies of QTLs for fruit acidity and candidate genes of organic acid metabolism and proton transport in sweet melon (Cucumis melo L.). Theor. Appl. Genet. 2012, 125:343-353.
-
(2012)
Theor. Appl. Genet.
, vol.125
, pp. 343-353
-
-
Cohen, S.1
Tzuri, G.2
Harel-Beja, R.3
Itkin, M.4
Portnoy, V.5
Sa'ar, U.6
Lev, S.7
Yeselson, L.8
Petrikov, M.9
Rogachev, I.10
Aharoni, A.11
Ophir, R.12
Tadmor, Y.13
Lewinsohn, E.14
Burger, Y.15
Katzir, N.16
Schaffer, A.A.17
-
199
-
-
77957739857
-
A genetic map of melon highly enriched with fruit quality QTLs and EST markers, including sugar and carotenoid metabolism genes
-
Harel-Beja R., Tzuri G., Portnoy V., Lotan-Pompan M., Lev S., Cohen S., Dai N., Yeselson L., Meir A., Libhaber S.E., Avisar E., Melame T., van Koert P., Verbakel H., Hofstede R., Volpin H., Oliver M., Fougedoire A., Stalh C., Fauve J., Copes B., Fei Z., Giovannoni J., Ori N., Lewinsohn E., Sherman A., Burger J., Tadmor Y., Schaffer A.A., Katzir N. A genetic map of melon highly enriched with fruit quality QTLs and EST markers, including sugar and carotenoid metabolism genes. Theor. Appl. Genet. 2010, 121:511-533.
-
(2010)
Theor. Appl. Genet.
, vol.121
, pp. 511-533
-
-
Harel-Beja, R.1
Tzuri, G.2
Portnoy, V.3
Lotan-Pompan, M.4
Lev, S.5
Cohen, S.6
Dai, N.7
Yeselson, L.8
Meir, A.9
Libhaber, S.E.10
Avisar, E.11
Melame, T.12
van Koert, P.13
Verbakel, H.14
Hofstede, R.15
Volpin, H.16
Oliver, M.17
Fougedoire, A.18
Stalh, C.19
Fauve, J.20
Copes, B.21
Fei, Z.22
Giovannoni, J.23
Ori, N.24
Lewinsohn, E.25
Sherman, A.26
Burger, J.27
Tadmor, Y.28
Schaffer, A.A.29
Katzir, N.30
more..
-
200
-
-
84861872418
-
Genetic analysis of strawberry fruit aroma and identification of O-methyltransferase FaOMT as the locus controlling natural variation in mesifurane content (1[C][W][OA])
-
Zorrilla-Fontanesi Y., Rambla J.L., Cabeza A., Medina J.J., Sanchez-Sevilla J.F., Valpuesta V., Botella M.A., Granell A., Amaya I. Genetic analysis of strawberry fruit aroma and identification of O-methyltransferase FaOMT as the locus controlling natural variation in mesifurane content (1[C][W][OA]). Plant Physiol. 2012, 159:851.
-
(2012)
Plant Physiol.
, vol.159
, pp. 851
-
-
Zorrilla-Fontanesi, Y.1
Rambla, J.L.2
Cabeza, A.3
Medina, J.J.4
Sanchez-Sevilla, J.F.5
Valpuesta, V.6
Botella, M.A.7
Granell, A.8
Amaya, I.9
-
201
-
-
84907504634
-
Identification of QTLs for fruit quality traits in Japanese apples: QTLs for early ripening are tightly related to preharvest fruit drop
-
Kunihisa M., Moriya S., Abe K., Okada K., Haji T., Hayashi T., Kim H., Nishitani C., Terakami S., Yamamoto T. Identification of QTLs for fruit quality traits in Japanese apples: QTLs for early ripening are tightly related to preharvest fruit drop. Breed. Sci. 2014, 64:240-251.
-
(2014)
Breed. Sci.
, vol.64
, pp. 240-251
-
-
Kunihisa, M.1
Moriya, S.2
Abe, K.3
Okada, K.4
Haji, T.5
Hayashi, T.6
Kim, H.7
Nishitani, C.8
Terakami, S.9
Yamamoto, T.10
-
202
-
-
84861397672
-
Genetic analysis of metabolites in apple fruits indicates an mQTL hotspot for phenolic compounds on linkage group 16
-
Khan S.A., Chibon P.Y., de Vos R.C.H., Schipper B.A., Walraven E., Beekwilder J., van Dijk T., Finkers R., Visser R.G., van de Weg E.W., Bovy A., Cestaro A., Velasco R., Jacobsen E., Schouten H.J. Genetic analysis of metabolites in apple fruits indicates an mQTL hotspot for phenolic compounds on linkage group 16. J. Exp. Bot. 2012, 63:2895-2908.
-
(2012)
J. Exp. Bot.
, vol.63
, pp. 2895-2908
-
-
Khan, S.A.1
Chibon, P.Y.2
de Vos, R.C.H.3
Schipper, B.A.4
Walraven, E.5
Beekwilder, J.6
van Dijk, T.7
Finkers, R.8
Visser, R.G.9
van de Weg, E.W.10
Bovy, A.11
Cestaro, A.12
Velasco, R.13
Jacobsen, E.14
Schouten, H.J.15
-
203
-
-
84903595019
-
Genome-wide association analyses provide genetic and biochemical insights into natural variation in rice metabolism
-
Chen W., Gao Y.Q., Xie W.B., Gong L., Lu K., Wang W.S., Li Y., Liu X.Q., Zhang H.Y., Dong H.X., Zhang W., Zhang L.J., Yu S.B., Wang G.W., Lian X.M., Luo J. Genome-wide association analyses provide genetic and biochemical insights into natural variation in rice metabolism. Nat. Genet. 2014, 46:714-721.
-
(2014)
Nat. Genet.
, vol.46
, pp. 714-721
-
-
Chen, W.1
Gao, Y.Q.2
Xie, W.B.3
Gong, L.4
Lu, K.5
Wang, W.S.6
Li, Y.7
Liu, X.Q.8
Zhang, H.Y.9
Dong, H.X.10
Zhang, W.11
Zhang, L.J.12
Yu, S.B.13
Wang, G.W.14
Lian, X.M.15
Luo, J.16
-
204
-
-
84920189177
-
Metabolome-genome-wide association study dissects genetic architecture for generating natural variation in rice secondary metabolism
-
Matsuda F., Nakabayashi R., Yang Z.G., Okazaki Y., Yonemaru J., Ebana K., Yano M., Saito K. Metabolome-genome-wide association study dissects genetic architecture for generating natural variation in rice secondary metabolism. Plant J. 2015, 81:13-23.
-
(2015)
Plant J.
, vol.81
, pp. 13-23
-
-
Matsuda, F.1
Nakabayashi, R.2
Yang, Z.G.3
Okazaki, Y.4
Yonemaru, J.5
Ebana, K.6
Yano, M.7
Saito, K.8
-
205
-
-
84921995481
-
Spatiotemporal distribution of phenolamides and the genetics of natural variation of hydroxycinnamoyl spermidine in rice
-
Dong X., Gao Y., Chen W., Wang W., Gong L., Liu X., Luo J. Spatiotemporal distribution of phenolamides and the genetics of natural variation of hydroxycinnamoyl spermidine in rice. Mol. Plant 2015, 8:111-121.
-
(2015)
Mol. Plant
, vol.8
, pp. 111-121
-
-
Dong, X.1
Gao, Y.2
Chen, W.3
Wang, W.4
Gong, L.5
Liu, X.6
Luo, J.7
-
206
-
-
48249152281
-
Mode of inheritance of primary metabolic traits in tomato
-
Schauer N., Semel Y., Balbo I., Steinfath M., Repsilber D., Selbig J., Pleban T., Zamir D., Fernie A.R. Mode of inheritance of primary metabolic traits in tomato. Plant Cell 2008, 20:509-523.
-
(2008)
Plant Cell
, vol.20
, pp. 509-523
-
-
Schauer, N.1
Semel, Y.2
Balbo, I.3
Steinfath, M.4
Repsilber, D.5
Selbig, J.6
Pleban, T.7
Zamir, D.8
Fernie, A.R.9
-
207
-
-
33645746673
-
Comprehensive metabolic profiling and phenotyping of interspecific introgression lines for tomato improvement
-
Schauer N., Semel Y., Roessner U., Gur A., Balbo I., Carrari F., Pleban T., Perez-Melis A., Bruedigam C., Kopka J., Willmitzer L., Zamir D., Fernie A.R. Comprehensive metabolic profiling and phenotyping of interspecific introgression lines for tomato improvement. Nat. Biotechnol. 2006, 24:447-454.
-
(2006)
Nat. Biotechnol.
, vol.24
, pp. 447-454
-
-
Schauer, N.1
Semel, Y.2
Roessner, U.3
Gur, A.4
Balbo, I.5
Carrari, F.6
Pleban, T.7
Perez-Melis, A.8
Bruedigam, C.9
Kopka, J.10
Willmitzer, L.11
Zamir, D.12
Fernie, A.R.13
-
208
-
-
84920260078
-
Combined correlation-based network and mQTL analyses efficiently identified loci for branched-chain amino acid, serine to threonine, and proline metabolism in tomato seeds
-
Toubiana D., Batushansky A., Tzfadia O., Scossa F., Khan A., Barak S., Zamir D., Fernie A.R., Nikoloski Z., Fait A. Combined correlation-based network and mQTL analyses efficiently identified loci for branched-chain amino acid, serine to threonine, and proline metabolism in tomato seeds. Plant J. 2015, 81:121-133.
-
(2015)
Plant J.
, vol.81
, pp. 121-133
-
-
Toubiana, D.1
Batushansky, A.2
Tzfadia, O.3
Scossa, F.4
Khan, A.5
Barak, S.6
Zamir, D.7
Fernie, A.R.8
Nikoloski, Z.9
Fait, A.10
-
209
-
-
84927717970
-
Identification and mode of inheritance of quantitative trait loci for secondary metabolite abundance in tomato
-
Alseekh S., Tohge T., Wendenberg R., Scossa F., Omranian N., Li J., Kleessen S., Giavalisco P., Pleban T., Mueller-Roeber B., Zamir D., Nikoloski Z., Fernie A.R. Identification and mode of inheritance of quantitative trait loci for secondary metabolite abundance in tomato. Plant Cell 2015, 27:485-512.
-
(2015)
Plant Cell
, vol.27
, pp. 485-512
-
-
Alseekh, S.1
Tohge, T.2
Wendenberg, R.3
Scossa, F.4
Omranian, N.5
Li, J.6
Kleessen, S.7
Giavalisco, P.8
Pleban, T.9
Mueller-Roeber, B.10
Zamir, D.11
Nikoloski, Z.12
Fernie, A.R.13
-
210
-
-
84903589651
-
Genome-wide association in tomato reveals 44 candidate loci for fruit metabolic traits
-
Sauvage C., Segura V., Bauchet G., Stevens R., Do P.T., Nikoloski Z., Fernie A.R., Causse M. Genome-wide association in tomato reveals 44 candidate loci for fruit metabolic traits. Plant Physiol. 2014, 165:1120-1132.
-
(2014)
Plant Physiol.
, vol.165
, pp. 1120-1132
-
-
Sauvage, C.1
Segura, V.2
Bauchet, G.3
Stevens, R.4
Do, P.T.5
Nikoloski, Z.6
Fernie, A.R.7
Causse, M.8
-
211
-
-
84857966782
-
Untargeted metabolic quantitative trait loci analyses reveal a relationship between primary metabolism and potato tuber quality
-
Carreno-Quintero N., Acharjee A., Maliepaard C., Bachem C.W.B., Mumm R., Bouwmeester H., Visser R.G.F., Keurentjes J.J.B. Untargeted metabolic quantitative trait loci analyses reveal a relationship between primary metabolism and potato tuber quality. Plant Physiol. 2012, 158:1306-1318.
-
(2012)
Plant Physiol.
, vol.158
, pp. 1306-1318
-
-
Carreno-Quintero, N.1
Acharjee, A.2
Maliepaard, C.3
Bachem, C.W.B.4
Mumm, R.5
Bouwmeester, H.6
Visser, R.G.F.7
Keurentjes, J.J.B.8
-
212
-
-
84879732982
-
Whole-genome mapping of agronomic and metabolic traits to identify novel quantitative trait loci in bread wheat grown in a water-limited environment
-
Hill C.B., Taylor J.D., Edwards J., Mather D., Bacic A., Langridge P., Roessner U. Whole-genome mapping of agronomic and metabolic traits to identify novel quantitative trait loci in bread wheat grown in a water-limited environment. Plant Physiol. 2013, 162:1266-1281.
-
(2013)
Plant Physiol.
, vol.162
, pp. 1266-1281
-
-
Hill, C.B.1
Taylor, J.D.2
Edwards, J.3
Mather, D.4
Bacic, A.5
Langridge, P.6
Roessner, U.7
-
213
-
-
84922223851
-
Detection of QTL for metabolic and agronomic traits in wheat with adjustments for variation at genetic loci that affect plant phenology
-
Hill C.B., Taylor J.D., Edwards J., Mather D., Langridge P., Bacic A., Roessner U. Detection of QTL for metabolic and agronomic traits in wheat with adjustments for variation at genetic loci that affect plant phenology. Plant Sci. 2015, 233:143-154.
-
(2015)
Plant Sci.
, vol.233
, pp. 143-154
-
-
Hill, C.B.1
Taylor, J.D.2
Edwards, J.3
Mather, D.4
Langridge, P.5
Bacic, A.6
Roessner, U.7
-
214
-
-
84861875050
-
Genome-wide association mapping of leaf metabolic profiles for dissecting complex traits in maize
-
Riedelsheimer C., Lisec J., Czedik-Eysenberg A., Sulpice R., Flis A., Grieder C., Altmann T., Stitt M., Willmitzer L., Melchinger A.E. Genome-wide association mapping of leaf metabolic profiles for dissecting complex traits in maize. Proc. Natl. Acad. Sci. U.S.A. 2012, 109:8872-8877.
-
(2012)
Proc. Natl. Acad. Sci. U.S.A.
, vol.109
, pp. 8872-8877
-
-
Riedelsheimer, C.1
Lisec, J.2
Czedik-Eysenberg, A.3
Sulpice, R.4
Flis, A.5
Grieder, C.6
Altmann, T.7
Stitt, M.8
Willmitzer, L.9
Melchinger, A.E.10
-
215
-
-
84883167786
-
The maize leaf lipidome shows multilevel genetic control and high predictive value for agronomic traits
-
Riedelsheimer C., Brotman Y., Meret M., Melchinger A.E., Willmitzer L. The maize leaf lipidome shows multilevel genetic control and high predictive value for agronomic traits. Sci. Rep. UK 2013, 3.
-
(2013)
Sci. Rep. UK
, vol.3
-
-
Riedelsheimer, C.1
Brotman, Y.2
Meret, M.3
Melchinger, A.E.4
Willmitzer, L.5
-
216
-
-
84883250752
-
Genome-wide association study and pathway-level analysis of tocochromanol levels in maize grain
-
Lipka A.E., Gore M.A., Magallanes-Lundback M., Mesberg A., Lin H.N., Tiede T., Chen C., Buell C.R., Buckler E.S., Rocheford T., DellaPenna D. Genome-wide association study and pathway-level analysis of tocochromanol levels in maize grain. G3-Genes Genom. Genet. 2013, 3:1287-1299.
-
(2013)
G3-Genes Genom. Genet.
, vol.3
, pp. 1287-1299
-
-
Lipka, A.E.1
Gore, M.A.2
Magallanes-Lundback, M.3
Mesberg, A.4
Lin, H.N.5
Tiede, T.6
Chen, C.7
Buell, C.R.8
Buckler, E.S.9
Rocheford, T.10
DellaPenna, D.11
-
217
-
-
84896507396
-
Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights
-
Wen W.W., Li D., Li X., Gao Y.Q., Li W.Q., Li H.H., Liu J., Liu H.J., Chen W., Luo J., Yan J.B. Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights. Nat. Commun. 2014, 5.
-
(2014)
Nat. Commun.
, vol.5
-
-
Wen, W.W.1
Li, D.2
Li, X.3
Gao, Y.Q.4
Li, W.Q.5
Li, H.H.6
Liu, J.7
Liu, H.J.8
Chen, W.9
Luo, J.10
Yan, J.B.11
-
218
-
-
84874574537
-
Leveraging non-targeted metabolite profiling via statistical genomics
-
Shen M.Q., Broeckling C.D., Chu E.Y., Ziegler G., Baxter I.R., Prenni J.E., Hoekenga O.A. Leveraging non-targeted metabolite profiling via statistical genomics. PLoS ONE 2013, 8.
-
(2013)
PLoS ONE
, vol.8
-
-
Shen, M.Q.1
Broeckling, C.D.2
Chu, E.Y.3
Ziegler, G.4
Baxter, I.R.5
Prenni, J.E.6
Hoekenga, O.A.7
-
219
-
-
34548016343
-
Recombination and linkage disequilibrium in Arabidopsis thaliana
-
Kim S., Plagnol V., Hu T.T., Toomajian C., Clark R.M., Ossowski S., Ecker J.R., Weigel D., Nordborg M. Recombination and linkage disequilibrium in Arabidopsis thaliana. Nat. Genet. 2007, 39:1151-1155.
-
(2007)
Nat. Genet.
, vol.39
, pp. 1151-1155
-
-
Kim, S.1
Plagnol, V.2
Hu, T.T.3
Toomajian, C.4
Clark, R.M.5
Ossowski, S.6
Ecker, J.R.7
Weigel, D.8
Nordborg, M.9
-
220
-
-
0000555197
-
Lycopersicon esculentum lines containing small overlapping introgressions from L. pennellii
-
Eshed Y., Abu-Abied M., Saranga Y., Zamir D. Lycopersicon esculentum lines containing small overlapping introgressions from L. pennellii. Theor. Appl. Genet. 1992, 83:1027-1034.
-
(1992)
Theor. Appl. Genet.
, vol.83
, pp. 1027-1034
-
-
Eshed, Y.1
Abu-Abied, M.2
Saranga, Y.3
Zamir, D.4
-
221
-
-
84856283792
-
Genomic and metabolic prediction of complex heterotic traits in hybrid maize
-
Riedelsheimer C., Czedik-Eysenberg A., Grieder C., Lisec J., Technow F., Sulpice R., Altmann T., Stitt M., Willmitzer L., Melchinger A.E. Genomic and metabolic prediction of complex heterotic traits in hybrid maize. Nat. Genet. 2012, 44:217-220.
-
(2012)
Nat. Genet.
, vol.44
, pp. 217-220
-
-
Riedelsheimer, C.1
Czedik-Eysenberg, A.2
Grieder, C.3
Lisec, J.4
Technow, F.5
Sulpice, R.6
Altmann, T.7
Stitt, M.8
Willmitzer, L.9
Melchinger, A.E.10
-
222
-
-
84901490737
-
Metabolic variation between japonica and indica rice cultivars as revealed by non-targeted metabolomicsd
-
Hu C.Y., Shi J.X., Quan S., Cui B., Kleessen S., Nikoloski Z., Tohge T., Alexander D., Guo L.N., Lin H., Wang J., Cui X., Rao J., Luo Q., Zhao X.X., Fernie A.R., Zhang D.B. Metabolic variation between japonica and indica rice cultivars as revealed by non-targeted metabolomicsd. Sci. Rep. UK 2014, 4.
-
(2014)
Sci. Rep. UK
, vol.4
-
-
Hu, C.Y.1
Shi, J.X.2
Quan, S.3
Cui, B.4
Kleessen, S.5
Nikoloski, Z.6
Tohge, T.7
Alexander, D.8
Guo, L.N.9
Lin, H.10
Wang, J.11
Cui, X.12
Rao, J.13
Luo, Q.14
Zhao, X.X.15
Fernie, A.R.16
Zhang, D.B.17
-
223
-
-
84925153465
-
Using metabolomic approaches to explore chemical diversity in rice
-
Kusano M., Yang Z.G., Okazaki Y., Nakabayashi R., Fukushima A., Saito K. Using metabolomic approaches to explore chemical diversity in rice. Mol. Plant 2015, 8:58-67.
-
(2015)
Mol. Plant
, vol.8
, pp. 58-67
-
-
Kusano, M.1
Yang, Z.G.2
Okazaki, Y.3
Nakabayashi, R.4
Fukushima, A.5
Saito, K.6
-
224
-
-
84922264677
-
Using next-generation sequencing to isolate mutant genes from forward genetic screens
-
Schneeberger K. Using next-generation sequencing to isolate mutant genes from forward genetic screens. Nat. Rev. Genet. 2014, 15:662-676.
-
(2014)
Nat. Rev. Genet.
, vol.15
, pp. 662-676
-
-
Schneeberger, K.1
-
225
-
-
0026052189
-
Identification of markers linked to disease-resistance genes by bulked segregant analysis-a rapid method to detect markers in specific genomic regions by using segregating populations
-
Michelmore R.W., Paran I., Kesseli R.V. Identification of markers linked to disease-resistance genes by bulked segregant analysis-a rapid method to detect markers in specific genomic regions by using segregating populations. Proc. Natl. Acad. Sci. U.S.A. 1991, 88:9828-9832.
-
(1991)
Proc. Natl. Acad. Sci. U.S.A.
, vol.88
, pp. 9828-9832
-
-
Michelmore, R.W.1
Paran, I.2
Kesseli, R.V.3
-
226
-
-
68349086946
-
SHOREmap: simultaneous mapping and mutation identification by deep sequencing
-
Schneeberger K., Ossowski S., Lanz C., Juul T., Petersen A.H., Nielsen K.L., Jorgensen J.E., Weigel D., Andersen S.U. SHOREmap: simultaneous mapping and mutation identification by deep sequencing. Nat. Methods 2009, 6:550-551.
-
(2009)
Nat. Methods
, vol.6
, pp. 550-551
-
-
Schneeberger, K.1
Ossowski, S.2
Lanz, C.3
Juul, T.4
Petersen, A.H.5
Nielsen, K.L.6
Jorgensen, J.E.7
Weigel, D.8
Andersen, S.U.9
-
227
-
-
84922253346
-
Mapping of a new stripe rust resistance locus Yr57 on chromosome 3BS of wheat
-
Randhawa M.S., Bariana H.S., Mago R., Bansal U.K. Mapping of a new stripe rust resistance locus Yr57 on chromosome 3BS of wheat. Mol. Breed. 2015, 35.
-
(2015)
Mol. Breed.
, vol.35
-
-
Randhawa, M.S.1
Bariana, H.S.2
Mago, R.3
Bansal, U.K.4
-
228
-
-
84929320669
-
RNA-Seq bulked segregant analysis enables the identification of high-resolution genetic markers for breeding in hexaploid wheat
-
Ramirez-Gonzalez R.H., Segovia V., Bird N., Fenwick P., Holdgate S., Berry S., Jack P., Caccamo M., Uauy C. RNA-Seq bulked segregant analysis enables the identification of high-resolution genetic markers for breeding in hexaploid wheat. Plant Biotechnol. J. 2015, 13:613-624.
-
(2015)
Plant Biotechnol. J.
, vol.13
, pp. 613-624
-
-
Ramirez-Gonzalez, R.H.1
Segovia, V.2
Bird, N.3
Fenwick, P.4
Holdgate, S.5
Berry, S.6
Jack, P.7
Caccamo, M.8
Uauy, C.9
-
230
-
-
84875371696
-
QTL-seq: rapid mapping of quantitative trait loci in rice by whole genome resequencing of DNA from two bulked populations
-
Takagi H., Abe A., Yoshida K., Kosugi S., Natsume S., Mitsuoka C., Uemura A., Utsushi H., Tamiru M., Takuno S., Innan H., Cano L.M., Kamoun S., Terauchi R. QTL-seq: rapid mapping of quantitative trait loci in rice by whole genome resequencing of DNA from two bulked populations. Plant J. 2013, 74:174-183.
-
(2013)
Plant J.
, vol.74
, pp. 174-183
-
-
Takagi, H.1
Abe, A.2
Yoshida, K.3
Kosugi, S.4
Natsume, S.5
Mitsuoka, C.6
Uemura, A.7
Utsushi, H.8
Tamiru, M.9
Takuno, S.10
Innan, H.11
Cano, L.M.12
Kamoun, S.13
Terauchi, R.14
-
231
-
-
84856121095
-
Combining SNP discovery from next-generation sequencing data with bulked segregant analysis (BSA) to fine-map genes in polyploid wheat
-
Trick M., Adamski N.M., Mugford S.G., Jiang C.C., Febrer M., Uauy C. Combining SNP discovery from next-generation sequencing data with bulked segregant analysis (BSA) to fine-map genes in polyploid wheat. BMC Plant Biol. 2012, 12.
-
(2012)
BMC Plant Biol.
, vol.12
-
-
Trick, M.1
Adamski, N.M.2
Mugford, S.G.3
Jiang, C.C.4
Febrer, M.5
Uauy, C.6
-
232
-
-
84880819160
-
Mapping of quantitative trait loci underlying cold tolerance in rice seedlings via high-throughput sequencing of pooled extremes
-
Yang Z.M., Huang D.Q., Tang W.Q., Zheng Y., Liang K.J., Cutler A.J., Wu W.R. Mapping of quantitative trait loci underlying cold tolerance in rice seedlings via high-throughput sequencing of pooled extremes. PLoS ONE 2013, 8.
-
(2013)
PLoS ONE
, vol.8
-
-
Yang, Z.M.1
Huang, D.Q.2
Tang, W.Q.3
Zheng, Y.4
Liang, K.J.5
Cutler, A.J.6
Wu, W.R.7
-
233
-
-
4344616881
-
Rapid recent growth and divergence of rice nuclear genomes
-
Ma J.X., Bennetzen J.L. Rapid recent growth and divergence of rice nuclear genomes. Proc. Natl. Acad. Sci. U.S.A. 2004, 101:12404-12410.
-
(2004)
Proc. Natl. Acad. Sci. U.S.A.
, vol.101
, pp. 12404-12410
-
-
Ma, J.X.1
Bennetzen, J.L.2
-
234
-
-
33845215653
-
Remarkable variation in maize genome structure inferred from haplotype diversity at the bz locus
-
Wang Q.H., Dooner H.K. Remarkable variation in maize genome structure inferred from haplotype diversity at the bz locus. Proc. Natl. Acad. Sci. U.S.A. 2006, 103:17644-17649.
-
(2006)
Proc. Natl. Acad. Sci. U.S.A.
, vol.103
, pp. 17644-17649
-
-
Wang, Q.H.1
Dooner, H.K.2
-
235
-
-
84874782723
-
Transposon variants and their effects on gene expression in Arabidopsis
-
Wang X., Weigel D., Smith L.M. Transposon variants and their effects on gene expression in Arabidopsis. PLoS Genet. 2013, 9.
-
(2013)
PLoS Genet.
, vol.9
-
-
Wang, X.1
Weigel, D.2
Smith, L.M.3
-
236
-
-
70350515004
-
Unexpected consequences of a sudden and massive transposon amplification on rice gene expression
-
Naito K., Zhang F., Tsukiyama T., Saito H., Hancock C.N., Richardson A.O., Okumoto Y., Tanisaka T., Wessler S.R. Unexpected consequences of a sudden and massive transposon amplification on rice gene expression. Nature 2009, 461:U1130-U1232.
-
(2009)
Nature
, vol.461
, pp. U1130-U1232
-
-
Naito, K.1
Zhang, F.2
Tsukiyama, T.3
Saito, H.4
Hancock, C.N.5
Richardson, A.O.6
Okumoto, Y.7
Tanisaka, T.8
Wessler, S.R.9
-
237
-
-
84905126067
-
The bright side of transposons in crop evolution
-
Vitte C., Fustier M.A., Alix K., Tenaillon M.I. The bright side of transposons in crop evolution. Brief Funct. Genomics 2014, 13:276-295.
-
(2014)
Brief Funct. Genomics
, vol.13
, pp. 276-295
-
-
Vitte, C.1
Fustier, M.A.2
Alix, K.3
Tenaillon, M.I.4
-
238
-
-
2342648914
-
Retrotransposon-induced mutations in grape skin color
-
Kobayashi S., Goto-Yamamoto N., Hirochika H. Retrotransposon-induced mutations in grape skin color. Science 2004, 304:982.
-
(2004)
Science
, vol.304
, pp. 982
-
-
Kobayashi, S.1
Goto-Yamamoto, N.2
Hirochika, H.3
-
239
-
-
0036943975
-
Myb-related genes of the Kyoho grape (Vitis labruscana) regulate anthocyanin biosynthesis
-
Kobayashi S., Ishimaru M., Hiraoka K., Honda C. Myb-related genes of the Kyoho grape (Vitis labruscana) regulate anthocyanin biosynthesis. Planta 2002, 215:924-933.
-
(2002)
Planta
, vol.215
, pp. 924-933
-
-
Kobayashi, S.1
Ishimaru, M.2
Hiraoka, K.3
Honda, C.4
-
240
-
-
33847102623
-
White grapes arose through the mutation of two similar and adjacent regulatory genes
-
Walker A.R., Lee E., Bogs J., McDavid D.A.J., Thomas M.R., Robinson S.P. White grapes arose through the mutation of two similar and adjacent regulatory genes. Plant J. 2007, 49:772-785.
-
(2007)
Plant J.
, vol.49
, pp. 772-785
-
-
Walker, A.R.1
Lee, E.2
Bogs, J.3
McDavid, D.A.J.4
Thomas, M.R.5
Robinson, S.P.6
-
241
-
-
84860200867
-
Retrotransposons control fruit-specific, cold-dependent accumulation of anthocyanins in blood oranges
-
Butelli E., Licciardello C., Zhang Y., Liu J.J., Mackay S., Bailey P., Reforgiato-Recupero G., Martin C. Retrotransposons control fruit-specific, cold-dependent accumulation of anthocyanins in blood oranges. Plant Cell 2012, 24:1242-1255.
-
(2012)
Plant Cell
, vol.24
, pp. 1242-1255
-
-
Butelli, E.1
Licciardello, C.2
Zhang, Y.3
Liu, J.J.4
Mackay, S.5
Bailey, P.6
Reforgiato-Recupero, G.7
Martin, C.8
-
242
-
-
67349225099
-
Juice of New citrus hybrids (Citrus clementina Hort. ex Tan.xC. sinensis L. Osbeck) as a source of natural antioxidants
-
Rapisarda P., Fabroni S., Peterek S., Russo G., Mock H.P. Juice of New citrus hybrids (Citrus clementina Hort. ex Tan.xC. sinensis L. Osbeck) as a source of natural antioxidants. Food Chem. 2009, 117:212-218.
-
(2009)
Food Chem.
, vol.117
, pp. 212-218
-
-
Rapisarda, P.1
Fabroni, S.2
Peterek, S.3
Russo, G.4
Mock, H.P.5
-
243
-
-
78249242717
-
The purple cauliflower arises from activation of a MYB transcription factor
-
Chiu L.W., Zhou X.J., Burke S., Wu X.L., Prior R.L., Li L. The purple cauliflower arises from activation of a MYB transcription factor. Plant Physiol. 2010, 154:1470-1480.
-
(2010)
Plant Physiol.
, vol.154
, pp. 1470-1480
-
-
Chiu, L.W.1
Zhou, X.J.2
Burke, S.3
Wu, X.L.4
Prior, R.L.5
Li, L.6
-
244
-
-
84885320323
-
Three distinct mutational mechanisms acting on a single gene underpin the origin of yellow flesh in peach
-
Falchi R., Vendramin E., Zanon L., Scalabrin S., Cipriani G., Verde I., Vizzotto G., Morgante M. Three distinct mutational mechanisms acting on a single gene underpin the origin of yellow flesh in peach. Plant J. 2013, 76:175-187.
-
(2013)
Plant J.
, vol.76
, pp. 175-187
-
-
Falchi, R.1
Vendramin, E.2
Zanon, L.3
Scalabrin, S.4
Cipriani, G.5
Verde, I.6
Vizzotto, G.7
Morgante, M.8
-
245
-
-
84963956379
-
Peach
-
Springer, USA, M.L. Badenes, D.H. Byrne (Eds.)
-
Byrne D., Raseira M., Bassi D., Piagnani M., Gasic K., Reighard G., Moreno M., Pérez S. Peach. Handb Plant Breed 2012, 505-569. Springer, USA. M.L. Badenes, D.H. Byrne (Eds.).
-
(2012)
Handb Plant Breed
, pp. 505-569
-
-
Byrne, D.1
Raseira, M.2
Bassi, D.3
Piagnani, M.4
Gasic, K.5
Reighard, G.6
Moreno, M.7
Pérez, S.8
-
246
-
-
79251558785
-
Study of 'Redhaven' peach and its white-fleshed mutant suggests a key role of CCD4 carotenoid dioxygenase in carotenoid and norisoprenoid volatile metabolism
-
Brandi F., Bar E., Mourgues F., Horvath G., Turcsi E., Giuliano G., Liverani A., Tartarini S., Lewinsohn E., Rosati C. Study of 'Redhaven' peach and its white-fleshed mutant suggests a key role of CCD4 carotenoid dioxygenase in carotenoid and norisoprenoid volatile metabolism. BMC Plant Biol. 2011, 11.
-
(2011)
BMC Plant Biol.
, vol.11
-
-
Brandi, F.1
Bar, E.2
Mourgues, F.3
Horvath, G.4
Turcsi, E.5
Giuliano, G.6
Liverani, A.7
Tartarini, S.8
Lewinsohn, E.9
Rosati, C.10
-
247
-
-
84903641120
-
Natural occurring epialleles determine vitamin E accumulation in tomato fruits
-
Quadrana L., Almeida J., Asis R., Duffy T., Dominguez P.G., Bermudez L., Conti G., da Silva J.V.C., Peralta I.E., Colot V., Asurmendi S., Fernie A.R., Rossi M., Carrari F. Natural occurring epialleles determine vitamin E accumulation in tomato fruits. Nat. Commun. 2014, 5.
-
(2014)
Nat. Commun.
, vol.5
-
-
Quadrana, L.1
Almeida, J.2
Asis, R.3
Duffy, T.4
Dominguez, P.G.5
Bermudez, L.6
Conti, G.7
da Silva, J.V.C.8
Peralta, I.E.9
Colot, V.10
Asurmendi, S.11
Fernie, A.R.12
Rossi, M.13
Carrari, F.14
-
248
-
-
84892824447
-
Copy number polymorphism in plant genomes
-
Zmienko A., Samelak A., Kozlowski P., Figlerowicz M. Copy number polymorphism in plant genomes. Theor. Appl. Genet. 2014, 127:1-18.
-
(2014)
Theor. Appl. Genet.
, vol.127
, pp. 1-18
-
-
Zmienko, A.1
Samelak, A.2
Kozlowski, P.3
Figlerowicz, M.4
-
249
-
-
84893361639
-
Whole-genome sequencing reveals untapped genetic potential in Africa's indigenous cereal crop sorghum
-
Mace E.S., Tai S.S., Gilding E.K., Li Y.H., Prentis P.J., Bian L.L., Campbell B.C., Hu W.S., Innes D.J., Han X.L., Cruickshank A., Dai C.M., Frere C., Zhang H.K., Hunt C.H., Wang X.Y., Shatte T., Wang M., Su Z., Li J., Lin X.Z., Godwin I.D., Jordan D.R., Wang J. Whole-genome sequencing reveals untapped genetic potential in Africa's indigenous cereal crop sorghum. Nat. Commun. 2013, 4.
-
(2013)
Nat. Commun.
, vol.4
-
-
Mace, E.S.1
Tai, S.S.2
Gilding, E.K.3
Li, Y.H.4
Prentis, P.J.5
Bian, L.L.6
Campbell, B.C.7
Hu, W.S.8
Innes, D.J.9
Han, X.L.10
Cruickshank, A.11
Dai, C.M.12
Frere, C.13
Zhang, H.K.14
Hunt, C.H.15
Wang, X.Y.16
Shatte, T.17
Wang, M.18
Su, Z.19
Li, J.20
Lin, X.Z.21
Godwin, I.D.22
Jordan, D.R.23
Wang, J.24
more..
-
250
-
-
84904568703
-
A roadmap for functional structural variants in the soybean genome
-
Anderson J.E., Kantar M.B., Kono T.Y., Fu F.L., Stec A.O., Song Q.J., Cregan P.B., Specht J.E., Diers B.W., Cannon S.B., McHale L.K., Stupar R.M. A roadmap for functional structural variants in the soybean genome. G3-Genes Genom. Genet. 2014, 4:1307-1318.
-
(2014)
G3-Genes Genom. Genet.
, vol.4
, pp. 1307-1318
-
-
Anderson, J.E.1
Kantar, M.B.2
Kono, T.Y.3
Fu, F.L.4
Stec, A.O.5
Song, Q.J.6
Cregan, P.B.7
Specht, J.E.8
Diers, B.W.9
Cannon, S.B.10
McHale, L.K.11
Stupar, R.M.12
-
251
-
-
80052831072
-
Targeted analysis of nucleotide and copy number variation by exon capture in allotetraploid wheat genome
-
Saintenac C., Jiang D.Y., Akhunov E.D. Targeted analysis of nucleotide and copy number variation by exon capture in allotetraploid wheat genome. Genome Biol. 2011, 12.
-
(2011)
Genome Biol.
, vol.12
-
-
Saintenac, C.1
Jiang, D.Y.2
Akhunov, E.D.3
-
252
-
-
84867875610
-
A map of rice genome variation reveals the origin of cultivated rice
-
Huang X.H., Kurata N., Wei X.H., Wang Z.X., Wang A., Zhao Q., Zhao Y., Liu K.Y., Lu H.Y., Li W.J., Guo Y.L., Lu Y.Q., Zhou C.C., Fan D.L., Weng Q.J., Zhu C.R., Huang T., Zhang L., Wang Y.C., Feng L., Furuumi H., Kubo T., Miyabayashi T., Yuan X.P., Xu Q., Dong G.J., Zhan Q.L., Li C.Y., Fujiyama A., Toyoda A., Lu T.T., Feng Q., Qian Q., Li J.Y., Han B. A map of rice genome variation reveals the origin of cultivated rice. Nature 2012, 490:497.
-
(2012)
Nature
, vol.490
, pp. 497
-
-
Huang, X.H.1
Kurata, N.2
Wei, X.H.3
Wang, Z.X.4
Wang, A.5
Zhao, Q.6
Zhao, Y.7
Liu, K.Y.8
Lu, H.Y.9
Li, W.J.10
Guo, Y.L.11
Lu, Y.Q.12
Zhou, C.C.13
Fan, D.L.14
Weng, Q.J.15
Zhu, C.R.16
Huang, T.17
Zhang, L.18
Wang, Y.C.19
Feng, L.20
Furuumi, H.21
Kubo, T.22
Miyabayashi, T.23
Yuan, X.P.24
Xu, Q.25
Dong, G.J.26
Zhan, Q.L.27
Li, C.Y.28
Fujiyama, A.29
Toyoda, A.30
Lu, T.T.31
Feng, Q.32
Qian, Q.33
Li, J.Y.34
Han, B.35
more..
-
253
-
-
84884403850
-
Genome-wide copy number variations in Oryza sativa L.
-
Yu P., Wang C.H., Xu Q., Feng Y., Yuan X.P., Yu H.Y., Wang Y.P., Tang S.X., Wei X.H. Genome-wide copy number variations in Oryza sativa L. BMC Genomics 2013, 14.
-
(2013)
BMC Genomics
, vol.14
-
-
Yu, P.1
Wang, C.H.2
Xu, Q.3
Feng, Y.4
Yuan, X.P.5
Yu, H.Y.6
Wang, Y.P.7
Tang, S.X.8
Wei, X.H.9
-
254
-
-
84947035742
-
Genomic variants of genes associated with three horticultural traits in apple revealed by genome re-sequencing
-
Zhang S., Chen W., Xin L., Gao Z., Hou Y., Yu X., Zhang Z., Qu S. Genomic variants of genes associated with three horticultural traits in apple revealed by genome re-sequencing. Hortic. Res. 2014, 1.
-
(2014)
Hortic. Res.
, vol.1
-
-
Zhang, S.1
Chen, W.2
Xin, L.3
Gao, Z.4
Hou, Y.5
Yu, X.6
Zhang, Z.7
Qu, S.8
-
255
-
-
84887396422
-
Whole genome resequencing in tomato reveals variation associated with introgression and breeding events
-
Causse M., Desplat N., Pascual L., Le Paslier M.C., Sauvage C., Bauchet G., Berard A., Bounon R., Tchoumakov M., Brunel D., Bouchet J.P. Whole genome resequencing in tomato reveals variation associated with introgression and breeding events. BMC Genomics 2013, 14.
-
(2013)
BMC Genomics
, vol.14
-
-
Causse, M.1
Desplat, N.2
Pascual, L.3
Le Paslier, M.C.4
Sauvage, C.5
Bauchet, G.6
Berard, A.7
Bounon, R.8
Tchoumakov, M.9
Brunel, D.10
Bouchet, J.P.11
-
256
-
-
34548015235
-
Mapping a candidate gene (MdMYB10) for red flesh and foliage colour in apple
-
Chagne D., Carlisle C.M., Blond C., Volz R.K., Whitworth C.J., Oraguzie N.C., Crowhurst R.N., Allan A.C., Espley R.V., Hellens R.P., Gardiner S.E. Mapping a candidate gene (MdMYB10) for red flesh and foliage colour in apple. BMC Genomics 2007, 8.
-
(2007)
BMC Genomics
, vol.8
-
-
Chagne, D.1
Carlisle, C.M.2
Blond, C.3
Volz, R.K.4
Whitworth, C.J.5
Oraguzie, N.C.6
Crowhurst, R.N.7
Allan, A.C.8
Espley, R.V.9
Hellens, R.P.10
Gardiner, S.E.11
-
257
-
-
62549162624
-
Multiple repeats of a promoter segment causes transcription factor autoregulation in red apples
-
Espley R.V., Brendolise C., Chagne D., Kutty-Amma S., Green S., Volz R., Putterill J., Schouten H.J., Gardiner S.E., Hellens R.P., Allan A.C. Multiple repeats of a promoter segment causes transcription factor autoregulation in red apples. Plant Cell 2009, 21:168-183.
-
(2009)
Plant Cell
, vol.21
, pp. 168-183
-
-
Espley, R.V.1
Brendolise, C.2
Chagne, D.3
Kutty-Amma, S.4
Green, S.5
Volz, R.6
Putterill, J.7
Schouten, H.J.8
Gardiner, S.E.9
Hellens, R.P.10
Allan, A.C.11
-
258
-
-
84924061664
-
Transcriptional control of flavonoid biosynthesis by MYB-bHLH-WDR complexes
-
Xu W., Dubos C., Lepiniec L. Transcriptional control of flavonoid biosynthesis by MYB-bHLH-WDR complexes. Trends Plant Sci. 2015, 20:176-185.
-
(2015)
Trends Plant Sci.
, vol.20
, pp. 176-185
-
-
Xu, W.1
Dubos, C.2
Lepiniec, L.3
-
259
-
-
84890019565
-
A review of target gene specificity of flavonoid R2R3-MYB transcription factors and a discussion of factors contributing to the target gene selectivity
-
Lai Y., Li H., Yamagishi M. A review of target gene specificity of flavonoid R2R3-MYB transcription factors and a discussion of factors contributing to the target gene selectivity. Front. Biol. 2013, 8:577-598.
-
(2013)
Front. Biol.
, vol.8
, pp. 577-598
-
-
Lai, Y.1
Li, H.2
Yamagishi, M.3
-
260
-
-
84898734041
-
Mining transcriptomic data to study the origins and evolution of a plant allopolyploid complex
-
Bombarely A., Coate J.E., Doyle J.J. Mining transcriptomic data to study the origins and evolution of a plant allopolyploid complex. PeerJ 2014, 2.
-
(2014)
PeerJ
, vol.2
-
-
Bombarely, A.1
Coate, J.E.2
Doyle, J.J.3
-
261
-
-
84907984880
-
Back to the wilds: tapping evolutionary adaptations for resilient crops through systematic hybridization with crop wild relatives
-
Warschefsky E., Penmetsa R.V., Cook D.R., von Wettberg E.J.B. Back to the wilds: tapping evolutionary adaptations for resilient crops through systematic hybridization with crop wild relatives. Am. J. Bot. 2014, 101:1791-1800.
-
(2014)
Am. J. Bot.
, vol.101
, pp. 1791-1800
-
-
Warschefsky, E.1
Penmetsa, R.V.2
Cook, D.R.3
von Wettberg, E.J.B.4
-
262
-
-
84924031799
-
Physiological phenotyping of plants for crop improvement
-
Ghanem M.E., Marrou H., Sinclair T.R. Physiological phenotyping of plants for crop improvement. Trends Plant Sci. 2015, 20:139-144.
-
(2015)
Trends Plant Sci.
, vol.20
, pp. 139-144
-
-
Ghanem, M.E.1
Marrou, H.2
Sinclair, T.R.3
-
263
-
-
84907364269
-
Elucidating gene function and function evolution through comparison of co-expression networks in plants
-
Hansen B.O., Vaid N., Musialak-Lange M., Janowski M., Mutwil M. Elucidating gene function and function evolution through comparison of co-expression networks in plants. Front. Plant Sci. 2014, 5.
-
(2014)
Front. Plant Sci.
, vol.5
-
-
Hansen, B.O.1
Vaid, N.2
Musialak-Lange, M.3
Janowski, M.4
Mutwil, M.5
-
264
-
-
84907875169
-
Metabolomics-assisted refinement of the pathways of steroidal glycoalkaloid biosynthesis in the tomato clade
-
Schwahn K., de Souza L.P., Fernie A.R., Tohge T. Metabolomics-assisted refinement of the pathways of steroidal glycoalkaloid biosynthesis in the tomato clade. J. Integr. Plant Biol. 2014, 56:864-875.
-
(2014)
J. Integr. Plant Biol.
, vol.56
, pp. 864-875
-
-
Schwahn, K.1
de Souza, L.P.2
Fernie, A.R.3
Tohge, T.4
|