-
1
-
-
71849095140
-
First indications for the involvement of strigolactones on nodule formation in alfalfa (Medicago sativa)
-
Soto MJ, Fernández-Aparicio M, Castellanos-Morales V, García-Garrido JM, Ocampo JA, Delgado MJ, et al. First indications for the involvement of strigolactones on nodule formation in alfalfa (Medicago sativa). Soil Biol Biochem. 2010;42:383-5.
-
(2010)
Soil Biol Biochem
, vol.42
, pp. 383-385
-
-
Soto, M.J.1
Fernández-Aparicio, M.2
Castellanos-Morales, V.3
García-Garrido, J.M.4
Ocampo, J.A.5
Delgado, M.J.6
-
2
-
-
80255123874
-
Strigolactones promote nodulation in pea
-
Foo E, Davies NW. Strigolactones promote nodulation in pea. Planta. 2011;234:1073-81.
-
(2011)
Planta
, vol.234
, pp. 1073-1081
-
-
Foo, E.1
Davies, N.W.2
-
3
-
-
84875760380
-
Strigolactones and the regulation of pea symbioses in response to nitrate and phosphate deficiency
-
Foo E, Yoneyama K, Hugill CJ, Quittenden LJ, Reid JB. Strigolactones and the regulation of pea symbioses in response to nitrate and phosphate deficiency. Mol Plant. 2013;6:76-87.
-
(2013)
Mol Plant
, vol.6
, pp. 76-87
-
-
Foo, E.1
Yoneyama, K.2
Hugill, C.J.3
Quittenden, L.J.4
Reid, J.B.5
-
4
-
-
84885231386
-
Carotenoid cleavage dioxygenase 7 modulates plant growth, reproduction, senescence, and determinate nodulation in the model legume Lotus japonicus
-
Liu J, Novero M, Charnikhova T, Ferrandino A, Schubert A, Ruyter-Spira C, et al. Carotenoid cleavage dioxygenase 7 modulates plant growth, reproduction, senescence, and determinate nodulation in the model legume Lotus japonicus. J Exp Bot. 2013;64:1967-81.
-
(2013)
J Exp Bot
, vol.64
, pp. 1967-1981
-
-
Liu, J.1
Novero, M.2
Charnikhova, T.3
Ferrandino, A.4
Schubert, A.5
Ruyter-Spira, C.6
-
5
-
-
84922511864
-
From lateral root density to nodule number, the strigolactone analogue GR24 shapes the root architecture of Medicago truncatula
-
De Cuyper C, Fromentin J, Yocgo RE, De Keyser A, Guillotin B, Kunert K, et al. From lateral root density to nodule number, the strigolactone analogue GR24 shapes the root architecture of Medicago truncatula. J Exp Bot. 2014;66:137-46.
-
(2014)
J Exp Bot
, vol.66
, pp. 137-146
-
-
Cuyper, C.1
Fromentin, J.2
Yocgo, R.E.3
Keyser, A.4
Guillotin, B.5
Kunert, K.6
-
6
-
-
84961291224
-
The root hair "infectome" of Medicago truncatula uncovers changes in cell cycle genes and reveals a requirement for auxin signaling in rhizobial infection
-
Breakspear A, Liu C, Roy S, Stacey N, Rogers C, Trick M, et al. The root hair "infectome" of Medicago truncatula uncovers changes in cell cycle genes and reveals a requirement for auxin signaling in rhizobial infection. Plant Cell. 2014;26:4680-701.
-
(2014)
Plant Cell
, vol.26
, pp. 4680-4701
-
-
Breakspear, A.1
Liu, C.2
Roy, S.3
Stacey, N.4
Rogers, C.5
Trick, M.6
-
7
-
-
84876379435
-
Speak, friend, and enter: signalling systems that promote beneficial symbiotic associations in plants
-
Oldroyd GED. Speak, friend, and enter: signalling systems that promote beneficial symbiotic associations in plants. Nat Rev Microbiol. 2013;11:252-63.
-
(2013)
Nat Rev Microbiol
, vol.11
, pp. 252-263
-
-
Oldroyd, G.E.D.1
-
8
-
-
84906861168
-
Fate map of Medicago truncatula root nodules
-
Xiao TT, Schilderink S, Moling S, Deinum EE, Kondorosi E, Franssen H, et al. Fate map of Medicago truncatula root nodules. Development. 2014;141:3517-28.
-
(2014)
Development
, vol.141
, pp. 3517-3528
-
-
Xiao, T.T.1
Schilderink, S.2
Moling, S.3
Deinum, E.E.4
Kondorosi, E.5
Franssen, H.6
-
9
-
-
10744231207
-
Medicago truncatula DMI1 required for bacterial and fungal symbioses in legumes
-
Ané J-M, Kiss GB, Riely BK, Penmetsa RV, Oldroyd GED, Ayax C, et al. Medicago truncatula DMI1 required for bacterial and fungal symbioses in legumes. Science. 2004;303:1364-7.
-
(2004)
Science
, vol.303
, pp. 1364-1367
-
-
Ané, J.-M.1
Kiss, G.B.2
Riely, B.K.3
Penmetsa, R.V.4
Oldroyd, G.E.D.5
Ayax, C.6
-
10
-
-
8844258388
-
A putative Ca2+ and calmodulin-dependent protein kinase required for bacterial and fungal symbioses
-
Lévy J, Bres C, Geurts R, Chalhoub B, Kulikova O, Duc G, et al. A putative Ca2+ and calmodulin-dependent protein kinase required for bacterial and fungal symbioses. Science. 2004;303:1361-4.
-
(2004)
Science
, vol.303
, pp. 1361-1364
-
-
Lévy, J.1
Bres, C.2
Geurts, R.3
Chalhoub, B.4
Kulikova, O.5
Duc, G.6
-
11
-
-
84873543099
-
The role of DMI1 in establishing Ca2+ oscillations in legume symbioses
-
Charpentier M, Vaz Martins T, Granqvist E, Oldroyd GED, Morris R. The role of DMI1 in establishing Ca2+ oscillations in legume symbioses. Plant Signal Behav. 2013;8:8-10.
-
(2013)
Plant Signal Behav
, vol.8
, pp. 8-10
-
-
Charpentier, M.1
Vaz Martins, T.2
Granqvist, E.3
Oldroyd, G.E.D.4
Morris, R.5
-
12
-
-
84893983081
-
CYCLOPS, a DNA-binding transcriptional activator, orchestrates symbiotic root nodule development
-
Singh S, Katzer K, Lambert J, Cerri M, Parniske M. CYCLOPS, a DNA-binding transcriptional activator, orchestrates symbiotic root nodule development. Cell Host Microbe. 2014;15:139-52.
-
(2014)
Cell Host Microbe
, vol.15
, pp. 139-152
-
-
Singh, S.1
Katzer, K.2
Lambert, J.3
Cerri, M.4
Parniske, M.5
-
13
-
-
20544474319
-
Nodulation signaling in legumes requires NSP2, a member of the GRAS family of transcriptional regulators
-
Kalo P, Gleason C, Edwards A, Marsh J, Mitra RM, Hirsch S, et al. Nodulation signaling in legumes requires NSP2, a member of the GRAS family of transcriptional regulators. Science. 2005;308:1786-9.
-
(2005)
Science
, vol.308
, pp. 1786-1789
-
-
Kalo, P.1
Gleason, C.2
Edwards, A.3
Marsh, J.4
Mitra, R.M.5
Hirsch, S.6
-
14
-
-
20544441300
-
NSP1 of the GRAS protein family is essential for rhizobial Nod factor-induced transcription
-
Smit P, Raedts J, Portyanko V, Debelle F, Gough C, Bisseling T, et al. NSP1 of the GRAS protein family is essential for rhizobial Nod factor-induced transcription. Science. 2005;308:1789-91.
-
(2005)
Science
, vol.308
, pp. 1789-1791
-
-
Smit, P.1
Raedts, J.2
Portyanko, V.3
Debelle, F.4
Gough, C.5
Bisseling, T.6
-
15
-
-
84893933697
-
CYCLOPS: a new vision on rhizobium-induced nodule organogenesis
-
Limpens E, Bisseling T. CYCLOPS: a new vision on rhizobium-induced nodule organogenesis. Cell Host Microbe. 2014;15:127-9.
-
(2014)
Cell Host Microbe
, vol.15
, pp. 127-129
-
-
Limpens, E.1
Bisseling, T.2
-
16
-
-
64749101372
-
GRAS proteins form a DNA binding complex to induce gene expression during nodulation signaling in Medicago truncatula
-
Hirsch S, Kim J, Muñoz A, Heckmann AB, Downie JA, Oldroyd GED. GRAS proteins form a DNA binding complex to induce gene expression during nodulation signaling in Medicago truncatula. Plant Cell. 2009;21:545-57.
-
(2009)
Plant Cell
, vol.21
, pp. 545-557
-
-
Hirsch, S.1
Kim, J.2
Muñoz, A.3
Heckmann, A.B.4
Downie, J.A.5
Oldroyd, G.E.D.6
-
17
-
-
82755166960
-
Strigolactone biosynthesis in Medicago truncatula and rice requires the symbiotic GRAS-type transcription factors NSP1 and NSP2
-
Liu W, Kohlen W, Lillo A, Op den Camp R, Ivanov S, Hartog M, et al. Strigolactone biosynthesis in Medicago truncatula and rice requires the symbiotic GRAS-type transcription factors NSP1 and NSP2. Plant Cell. 2011;23:3853-65.
-
(2011)
Plant Cell
, vol.23
, pp. 3853-3865
-
-
Liu, W.1
Kohlen, W.2
Lillo, A.3
Camp, R.4
Ivanov, S.5
Hartog, M.6
-
18
-
-
78650994503
-
Fungal lipochitooligosaccharide symbiotic signals in arbuscular mycorrhiza
-
Maillet F, Poinsot V, André O, Puech-Pagès V, Haouy A, Gueunier M, et al. Fungal lipochitooligosaccharide symbiotic signals in arbuscular mycorrhiza. Nature. 2011;469:58-63.
-
(2011)
Nature
, vol.469
, pp. 58-63
-
-
Maillet, F.1
Poinsot, V.2
André, O.3
Puech-Pagès, V.4
Haouy, A.5
Gueunier, M.6
-
19
-
-
84868199985
-
The microRNA miR171h modulates arbuscular mycorrhizal colonization of Medicago truncatula by targeting NSP2
-
Lauressergues D, Delaux P-M, Formey D, Lelandais-Briere C, Fort S, Cottaz S, et al. The microRNA miR171h modulates arbuscular mycorrhizal colonization of Medicago truncatula by targeting NSP2. Plant J. 2012;72:512-22.
-
(2012)
Plant J
, vol.72
, pp. 512-522
-
-
Lauressergues, D.1
Delaux, P.-M.2
Formey, D.3
Lelandais-Briere, C.4
Fort, S.5
Cottaz, S.6
-
20
-
-
84878353183
-
NSP1 is a component of the Myc signaling pathway
-
Délaux P, Bécard G, Combier J. NSP1 is a component of the Myc signaling pathway. New Phytol. 2013;199:59-65.
-
(2013)
New Phytol
, vol.199
, pp. 59-65
-
-
Délaux, P.1
Bécard, G.2
Combier, J.3
-
21
-
-
67651115565
-
DWARF27, an iron-containing protein required for the biosynthesis of strigolactones, regulates rice tiller bud outgrowth
-
Lin H, Wang R, Qian Q, Yan M, Meng X, Fu Z, et al. DWARF27, an iron-containing protein required for the biosynthesis of strigolactones, regulates rice tiller bud outgrowth. Plant Cell. 2009;21:1512-25.
-
(2009)
Plant Cell
, vol.21
, pp. 1512-1525
-
-
Lin, H.1
Wang, R.2
Qian, Q.3
Yan, M.4
Meng, X.5
Fu, Z.6
-
22
-
-
84858301666
-
The path from beta-carotene to carlactone, a strigolactone-like plant hormone
-
Alder A, Jamil M, Marzorati M, Bruno M, Vermathen M, Bigler P, et al. The path from beta-carotene to carlactone, a strigolactone-like plant hormone. Science. 2012;335:1348-51.
-
(2012)
Science
, vol.335
, pp. 1348-1351
-
-
Alder, A.1
Jamil, M.2
Marzorati, M.3
Bruno, M.4
Vermathen, M.5
Bigler, P.6
-
23
-
-
51649112342
-
Inhibition of shoot branching by new terpenoid plant hormones
-
Umehara M, Hanada A, Yoshida S, Akiyama K, Arite T, Takeda-Kamiya N, et al. Inhibition of shoot branching by new terpenoid plant hormones. Nature. 2008;455:195-200.
-
(2008)
Nature
, vol.455
, pp. 195-200
-
-
Umehara, M.1
Hanada, A.2
Yoshida, S.3
Akiyama, K.4
Arite, T.5
Takeda-Kamiya, N.6
-
24
-
-
51649096075
-
Strigolactone inhibition of shoot branching
-
Gomez-Roldan V, Fermas S, Brewer PB, Puech-Pagès V, Dun EA, Pillot J-P, et al. Strigolactone inhibition of shoot branching. Nature. 2008;455:189-94.
-
(2008)
Nature
, vol.455
, pp. 189-194
-
-
Gomez-Roldan, V.1
Fermas, S.2
Brewer, P.B.3
Puech-Pagès, V.4
Dun, E.A.5
Pillot, J.-P.6
-
25
-
-
20044371180
-
MAX1 encodes a cytochrome P450 family member that acts downstream of MAX3/4 to produce a carotenoid-derived branch-inhibiting hormone
-
Booker J, Sieberer T, Wright W, Williamson L, Willett B, Stirnberg P, et al. MAX1 encodes a cytochrome P450 family member that acts downstream of MAX3/4 to produce a carotenoid-derived branch-inhibiting hormone. Dev Cell. 2005;8:443-9.
-
(2005)
Dev Cell
, vol.8
, pp. 443-449
-
-
Booker, J.1
Sieberer, T.2
Wright, W.3
Williamson, L.4
Willett, B.5
Stirnberg, P.6
-
26
-
-
84893422174
-
Carlactone is an endogenous biosynthetic precursor for strigolactones
-
Seto Y, Sado A, Asami K, Hanada A, Umehara M, Akiyama K, et al. Carlactone is an endogenous biosynthetic precursor for strigolactones. Proc Natl Acad Sci U S A. 2014;111:1640-5.
-
(2014)
Proc Natl Acad Sci U S A
, vol.111
, pp. 1640-1645
-
-
Seto, Y.1
Sado, A.2
Asami, K.3
Hanada, A.4
Umehara, M.5
Akiyama, K.6
-
27
-
-
84893826202
-
Natural variation of rice strigolactone biosynthesis is associated with the deletion of two MAX1 orthologs
-
Cardoso C, Zhang Y, Jamil M, Hepworth J, Charnikhova T, Dimkpa SON, et al. Natural variation of rice strigolactone biosynthesis is associated with the deletion of two MAX1 orthologs. Proc Natl Acad Sci U S A. 2014;111:2379-84.
-
(2014)
Proc Natl Acad Sci U S A
, vol.111
, pp. 2379-2384
-
-
Cardoso, C.1
Zhang, Y.2
Jamil, M.3
Hepworth, J.4
Charnikhova, T.5
Dimkpa, S.O.N.6
-
28
-
-
84921022340
-
Rice cytochrome P450 MAX1 homologs catalyze distinct steps in strigolactone biosynthesis
-
Zhang Y, van Dijk ADJ, Scaffidi A, Flematti GR, Hofmann M, Charnikhova T, et al. Rice cytochrome P450 MAX1 homologs catalyze distinct steps in strigolactone biosynthesis. Nat Chem Biol. 2014;10:1028-33.
-
(2014)
Nat Chem Biol
, vol.10
, pp. 1028-1033
-
-
Zhang, Y.1
Dijk, A.D.J.2
Scaffidi, A.3
Flematti, G.R.4
Hofmann, M.5
Charnikhova, T.6
-
29
-
-
33847319728
-
Phosphorus deficiency in red clover promotes exudation of orobanchol, the signal for mycorrhizal symbionts and germination stimulant for root parasites
-
Yoneyama K, Yoneyama K, Takeuchi Y, Sekimoto H. Phosphorus deficiency in red clover promotes exudation of orobanchol, the signal for mycorrhizal symbionts and germination stimulant for root parasites. Planta. 2007;225:1031-8.
-
(2007)
Planta
, vol.225
, pp. 1031-1038
-
-
Yoneyama, K.1
Yoneyama, K.2
Takeuchi, Y.3
Sekimoto, H.4
-
30
-
-
43449116907
-
Tomato strigolactones are derived from carotenoids and their biosynthesis is promoted by phosphate starvation
-
López-Ráez JA, Charnikhova T, Gómez-Roldán V, Matusova R, Kohlen W, De Vos R, et al. Tomato strigolactones are derived from carotenoids and their biosynthesis is promoted by phosphate starvation. New Phytol. 2008;178:863-74.
-
(2008)
New Phytol
, vol.178
, pp. 863-874
-
-
López-Ráez, J.A.1
Charnikhova, T.2
Gómez-Roldán, V.3
Matusova, R.4
Kohlen, W.5
Vos, R.6
-
31
-
-
84861631166
-
How do nitrogen and phosphorus deficiencies affect strigolactone production and exudation?
-
Yoneyama K, Xie X, Kim HI, Kisugi T, Nomura T, Sekimoto H, et al. How do nitrogen and phosphorus deficiencies affect strigolactone production and exudation? Planta. 2012;235:1197-207.
-
(2012)
Planta
, vol.235
, pp. 1197-1207
-
-
Yoneyama, K.1
Xie, X.2
Kim, H.I.3
Kisugi, T.4
Nomura, T.5
Sekimoto, H.6
-
32
-
-
20444471142
-
Plant sesquiterpenes induce hyphal branching in arbuscular mycorrhizal fungi
-
Akiyama K, Matsuzaki K, Hayashi H. Plant sesquiterpenes induce hyphal branching in arbuscular mycorrhizal fungi. Nature. 2005;435:824-7.
-
(2005)
Nature
, vol.435
, pp. 824-827
-
-
Akiyama, K.1
Matsuzaki, K.2
Hayashi, H.3
-
33
-
-
84858291479
-
A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching
-
Kretzschmar T, Kohlen W, Sasse J, Borghi L, Schlegel M, Bachelier JB, et al. A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching. Nature. 2012;483:341-4.
-
(2012)
Nature
, vol.483
, pp. 341-344
-
-
Kretzschmar, T.1
Kohlen, W.2
Sasse, J.3
Borghi, L.4
Schlegel, M.5
Bachelier, J.B.6
-
34
-
-
36849038444
-
Nitrogen deficiency as well as phosphorus deficiency in sorghum promotes the production and exudation of 5-deoxystrigol, the host recognition signal for arbuscular mycorrhizal fungi and root parasites
-
Yoneyama K, Xie X, Kusumoto D, Sekimoto H, Sugimoto Y, Takeuchi Y, et al. Nitrogen deficiency as well as phosphorus deficiency in sorghum promotes the production and exudation of 5-deoxystrigol, the host recognition signal for arbuscular mycorrhizal fungi and root parasites. Planta. 2007;227:125-32.
-
(2007)
Planta
, vol.227
, pp. 125-132
-
-
Yoneyama, K.1
Xie, X.2
Kusumoto, D.3
Sekimoto, H.4
Sugimoto, Y.5
Takeuchi, Y.6
-
35
-
-
33745191953
-
Strigolactones stimulate arbuscular mycorrhizal fungi by activating mitochondria
-
Besserer A, Puech-Pagès V, Kiefer P, Gomez-Roldan V, Jauneau A, Roy S, et al. Strigolactones stimulate arbuscular mycorrhizal fungi by activating mitochondria. PLoS Biol. 2006;4:1239-47.
-
(2006)
PLoS Biol
, vol.4
, pp. 1239-1247
-
-
Besserer, A.1
Puech-Pagès, V.2
Kiefer, P.3
Gomez-Roldan, V.4
Jauneau, A.5
Roy, S.6
-
36
-
-
47249159847
-
Strigolactones, host recognition signals for root parasitic plants and arbuscular mycorrhizal fungi, from Fabaceae plants
-
Yoneyama K, Xie X, Sekimoto H, Takeuchi Y, Ogasawara S, Akiyama K, et al. Strigolactones, host recognition signals for root parasitic plants and arbuscular mycorrhizal fungi, from Fabaceae plants. New Phytol. 2008;179:484-94.
-
(2008)
New Phytol
, vol.179
, pp. 484-494
-
-
Yoneyama, K.1
Xie, X.2
Sekimoto, H.3
Takeuchi, Y.4
Ogasawara, S.5
Akiyama, K.6
-
37
-
-
52049107644
-
Arbuscular mycorrhiza: the mother of plant root endosymbioses
-
Parniske M. Arbuscular mycorrhiza: the mother of plant root endosymbioses. Nat Rev Microbiol. 2008;6:763-75.
-
(2008)
Nat Rev Microbiol
, vol.6
, pp. 763-775
-
-
Parniske, M.1
-
38
-
-
84863676736
-
The Arabidopsis ortholog of rice DWARF27 acts upstream of MAX1 in the control of plant development by strigolactones
-
Waters MT, Brewer PB, Bussell JD, Smith SM, Beveridge CA. The Arabidopsis ortholog of rice DWARF27 acts upstream of MAX1 in the control of plant development by strigolactones. Plant Physiol. 2012;159:1073-85.
-
(2012)
Plant Physiol
, vol.159
, pp. 1073-1085
-
-
Waters, M.T.1
Brewer, P.B.2
Bussell, J.D.3
Smith, S.M.4
Beveridge, C.A.5
-
39
-
-
47849128399
-
A gene expression atlas of the model legume Medicago truncatula
-
Benedito VA, Torres-Jerez I, Murray JD, Andriankaja A, Allen S, Kakar K, et al. A gene expression atlas of the model legume Medicago truncatula. Plant J. 2008;55:504-13.
-
(2008)
Plant J
, vol.55
, pp. 504-513
-
-
Benedito, V.A.1
Torres-Jerez, I.2
Murray, J.D.3
Andriankaja, A.4
Allen, S.5
Kakar, K.6
-
40
-
-
0027949714
-
Root hair deformation activity of nodulation factors and their fate on Vicia sativa
-
Heidstra R, Geurts R, Franssen H, Spaink HP, Van Kammen A, Bisseling T. Root hair deformation activity of nodulation factors and their fate on Vicia sativa. Plant Physiol. 1994;105:787-97.
-
(1994)
Plant Physiol
, vol.105
, pp. 787-797
-
-
Heidstra, R.1
Geurts, R.2
Franssen, H.3
Spaink, H.P.4
Kammen, A.5
Bisseling, T.6
-
41
-
-
0035007912
-
Medicago truncatula ENOD11: a novel RPRP-encoding early nodulin gene expressed during mycorrhization in arbuscule-containing cells
-
Journet EP, El-Gachtouli N, Vernoud V, de Billy F, Pichon M, Dedieu A, et al. Medicago truncatula ENOD11: a novel RPRP-encoding early nodulin gene expressed during mycorrhization in arbuscule-containing cells. Mol Plant Microbe Interact. 2001;14:737-48.
-
(2001)
Mol Plant Microbe Interact
, vol.14
, pp. 737-748
-
-
Journet, E.P.1
El-Gachtouli, N.2
Vernoud, V.3
Billy, F.4
Pichon, M.5
Dedieu, A.6
-
42
-
-
0033784010
-
Four genes of Medicago truncatula controlling components of a nod factor transduction pathway
-
Catoira R, Galera C, de Billy F, Penmetsa RV, Journet EP, Maillet F, et al. Four genes of Medicago truncatula controlling components of a nod factor transduction pathway. Plant Cell. 2000;12:1647-66.
-
(2000)
Plant Cell
, vol.12
, pp. 1647-1666
-
-
Catoira, R.1
Galera, C.2
Billy, F.3
Penmetsa, R.V.4
Journet, E.P.5
Maillet, F.6
-
43
-
-
0037355454
-
Identification and characterization of nodulation-signaling pathway 2, a gene of Medicago truncatula involved in Nod factor signaling
-
Oldroyd GED, Long SR. Identification and characterization of nodulation-signaling pathway 2, a gene of Medicago truncatula involved in Nod factor signaling. Plant Physiol. 2003;131:1027-32.
-
(2003)
Plant Physiol
, vol.131
, pp. 1027-1032
-
-
Oldroyd, G.E.D.1
Long, S.R.2
-
44
-
-
35748942279
-
AP2-ERF transcription factors mediate Nod factor-dependent MtENOD11 activation in root hairs via a novel cis-regulatory motif
-
Andriankaja A, Boisson-Dernier A, Frances L, Sauviac L, Jauneau A, Barker DG, et al. AP2-ERF transcription factors mediate Nod factor-dependent MtENOD11 activation in root hairs via a novel cis-regulatory motif. Plant Cell. 2007;19:2866-85.
-
(2007)
Plant Cell
, vol.19
, pp. 2866-2885
-
-
Andriankaja, A.1
Boisson-Dernier, A.2
Frances, L.3
Sauviac, L.4
Jauneau, A.5
Barker, D.G.6
-
45
-
-
34250632694
-
An ERF transcription factor in Medicago truncatula that is essential for Nod factor signal transduction
-
Middleton PH, Jakab J, Penmetsa RV, Starker CG, Doll J, Kaló P, et al. An ERF transcription factor in Medicago truncatula that is essential for Nod factor signal transduction. Plant Cell. 2007;19:1221-34.
-
(2007)
Plant Cell
, vol.19
, pp. 1221-1234
-
-
Middleton, P.H.1
Jakab, J.2
Penmetsa, R.V.3
Starker, C.G.4
Doll, J.5
Kaló, P.6
-
46
-
-
0029328422
-
Early nodulin gene expression during Nod factor-induced processes in Vicia sativa
-
Vijn I, Martinez-Abarca F, Yang W-C, Neves L, Brussel A, Kammen A, et al. Early nodulin gene expression during Nod factor-induced processes in Vicia sativa. Plant J. 1995;8:111-9.
-
(1995)
Plant J
, vol.8
, pp. 111-119
-
-
Vijn, I.1
Martinez-Abarca, F.2
Yang, W.-C.3
Neves, L.4
Brussel, A.5
Kammen, A.6
-
47
-
-
84880318520
-
The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus
-
Madsen LH, Tirichine L, Jurkiewicz A, Sullivan JT, Heckmann AB, Bek AS, et al. The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus. Nat Commun. 2010;1:10.
-
(2010)
Nat Commun
, vol.1
, pp. 10
-
-
Madsen, L.H.1
Tirichine, L.2
Jurkiewicz, A.3
Sullivan, J.T.4
Heckmann, A.B.5
Bek, A.S.6
-
48
-
-
84870856057
-
Medicago truncatula ERN transcription factors: regulatory interplay with NSP1/NSP2 GRAS factors and expression dynamics throughout rhizobial infection
-
Cerri MR, Frances L, Laloum T, Auriac M-C, Niebel A, Oldroyd GED, et al. Medicago truncatula ERN transcription factors: regulatory interplay with NSP1/NSP2 GRAS factors and expression dynamics throughout rhizobial infection. Plant Physiol. 2012;160:2155-72.
-
(2012)
Plant Physiol
, vol.160
, pp. 2155-2172
-
-
Cerri, M.R.1
Frances, L.2
Laloum, T.3
Auriac, M.-C.4
Niebel, A.5
Oldroyd, G.E.D.6
-
49
-
-
84880983297
-
Modeling a cortical auxin maximum for nodulation: different signatures of potential strategies
-
Deinum EE, Geurts R, Bisseling T, Mulder BM. Modeling a cortical auxin maximum for nodulation: different signatures of potential strategies. Front Plant Sci. 2012;3:96.
-
(2012)
Front Plant Sci
, vol.3
, pp. 96
-
-
Deinum, E.E.1
Geurts, R.2
Bisseling, T.3
Mulder, B.M.4
-
50
-
-
0031943767
-
Auxin transport inhibition precedes root nodule formation in white clover roots and is regulated by flavonoids and derivatives of chitin oligosaccharides
-
Mathesius U, Schlaman HR, Spaink HP, Of Sautter C, Rolfe BG, Djordjevic MA. Auxin transport inhibition precedes root nodule formation in white clover roots and is regulated by flavonoids and derivatives of chitin oligosaccharides. Plant J. 1998;14:23-34.
-
(1998)
Plant J
, vol.14
, pp. 23-34
-
-
Mathesius, U.1
Schlaman, H.R.2
Spaink, H.P.3
Of Sautter, C.4
Rolfe, B.G.5
Djordjevic, M.A.6
-
51
-
-
79551653507
-
MtCRE1-dependent cytokinin signaling integrates bacterial and plant cues to coordinate symbiotic nodule organogenesis in Medicago truncatula
-
Plet J, Wasson A, Ariel F, Le Signor C, Baker D, Mathesius U, et al. MtCRE1-dependent cytokinin signaling integrates bacterial and plant cues to coordinate symbiotic nodule organogenesis in Medicago truncatula. Plant J. 2011;65:622-33.
-
(2011)
Plant J
, vol.65
, pp. 622-633
-
-
Plet, J.1
Wasson, A.2
Ariel, F.3
Signor, C.4
Baker, D.5
Mathesius, U.6
-
52
-
-
79953041816
-
Signal integration in the control of shoot branching
-
Domagalska MA, Leyser O. Signal integration in the control of shoot branching. Nat Rev Mol Cell Biol. 2011;12:211-21.
-
(2011)
Nat Rev Mol Cell Biol
, vol.12
, pp. 211-221
-
-
Domagalska, M.A.1
Leyser, O.2
-
53
-
-
33645011772
-
The Arabidopsis MAX pathway controls shoot branching by regulating auxin transport
-
Bennett T, Sieberer T, Willett B, Booker J, Luschnig C, Leyser O. The Arabidopsis MAX pathway controls shoot branching by regulating auxin transport. Curr Biol. 2006;16:553-63.
-
(2006)
Curr Biol
, vol.16
, pp. 553-563
-
-
Bennett, T.1
Sieberer, T.2
Willett, B.3
Booker, J.4
Luschnig, C.5
Leyser, O.6
-
54
-
-
77956210642
-
Strigolactones enhance competition between shoot branches by dampening auxin transport
-
Crawford S, Shinohara N, Sieberer T, Williamson L, George G, Hepworth J, et al. Strigolactones enhance competition between shoot branches by dampening auxin transport. Development. 2010;137:2905-13.
-
(2010)
Development
, vol.137
, pp. 2905-2913
-
-
Crawford, S.1
Shinohara, N.2
Sieberer, T.3
Williamson, L.4
George, G.5
Hepworth, J.6
-
55
-
-
84873804094
-
Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane
-
Shinohara N, Taylor C, Leyser O. Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane. PLoS Biol. 2013;11:e1001474.
-
(2013)
PLoS Biol
, vol.11
, pp. e1001474
-
-
Shinohara, N.1
Taylor, C.2
Leyser, O.3
-
56
-
-
84924812547
-
Asymmetric localizations of the ABC transporter PaPDR1 trace paths of directional strigolactone transport
-
Sasse J, Simon S, Gübeli C, Liu G-W, Cheng X, Friml J, et al. Asymmetric localizations of the ABC transporter PaPDR1 trace paths of directional strigolactone transport. Curr Biol. 2015;25:647-55.
-
(2015)
Curr Biol
, vol.25
, pp. 647-655
-
-
Sasse, J.1
Simon, S.2
Gübeli, C.3
Liu, G.-W.4
Cheng, X.5
Friml, J.6
-
57
-
-
79954596954
-
Strigolactones are regulators of root development
-
Koltai H. Strigolactones are regulators of root development. New Phytol. 2011;190:545-9.
-
(2011)
New Phytol
, vol.190
, pp. 545-549
-
-
Koltai, H.1
-
58
-
-
38649083127
-
Emerging role of cytokinin as a regulator of cellular differentiation
-
Dello Ioio R, Linhares FS, Sabatini S. Emerging role of cytokinin as a regulator of cellular differentiation. Curr Opin Plant Biol. 2008;11:23-7.
-
(2008)
Curr Opin Plant Biol
, vol.11
, pp. 23-27
-
-
Dello Ioio, R.1
Linhares, F.S.2
Sabatini, S.3
-
59
-
-
80054746753
-
Cytokinin modulates endocytic trafficking of PIN1 auxin efflux carrier to control plant organogenesis
-
Marhavy P, Bielach A, Abas L, Abuzeineh A, Duclercq J, Tanaka H, et al. Cytokinin modulates endocytic trafficking of PIN1 auxin efflux carrier to control plant organogenesis. Dev Cell. 2011;21:796-804.
-
(2011)
Dev Cell
, vol.21
, pp. 796-804
-
-
Marhavy, P.1
Bielach, A.2
Abas, L.3
Abuzeineh, A.4
Duclercq, J.5
Tanaka, H.6
-
60
-
-
84938747818
-
Rhizobium lipo-chitooligosaccharide signaling triggers accumulation of cytokinins in Medicago truncatula roots
-
Van Zeijl A, Op den Camp RHM, Deinum EE, Charnikhova T, Franssen H, Op den Camp HJM, et al. Rhizobium lipo-chitooligosaccharide signaling triggers accumulation of cytokinins in Medicago truncatula roots. Mol Plant. 2015;8:1213-26.
-
(2015)
Mol Plant
, vol.8
, pp. 1213-1226
-
-
Zeijl, A.1
Camp, R.H.M.2
Deinum, E.E.3
Charnikhova, T.4
Franssen, H.5
Camp, H.J.M.6
-
61
-
-
33745783925
-
Silencing the flavonoid pathway in Medicago truncatula inhibits root nodule formation and prevents auxin transport regulation by rhizobia
-
Wasson AP, Pellerone FI, Mathesius U. Silencing the flavonoid pathway in Medicago truncatula inhibits root nodule formation and prevents auxin transport regulation by rhizobia. Plant Cell. 2006;18:1617-29.
-
(2006)
Plant Cell
, vol.18
, pp. 1617-1629
-
-
Wasson, A.P.1
Pellerone, F.I.2
Mathesius, U.3
-
62
-
-
0037182855
-
A receptor kinase gene regulating symbiotic nodule development
-
Endre G, Kereszt A, Kevei Z, Mihacea S, Kaló P, Kiss GB. A receptor kinase gene regulating symbiotic nodule development. Nature. 2002;417:962-6.
-
(2002)
Nature
, vol.417
, pp. 962-966
-
-
Endre, G.1
Kereszt, A.2
Kevei, Z.3
Mihacea, S.4
Kaló, P.5
Kiss, G.B.6
-
63
-
-
74549221016
-
Genome sequence of the palaeopolyploid soybean
-
Schmutz J, Cannon SB, Schlueter J, Ma J, Mitros T, Nelson W, et al. Genome sequence of the palaeopolyploid soybean. Nature. 2010;463:178-83.
-
(2010)
Nature
, vol.463
, pp. 178-183
-
-
Schmutz, J.1
Cannon, S.B.2
Schlueter, J.3
Ma, J.4
Mitros, T.5
Nelson, W.6
-
64
-
-
56149088569
-
Genome structure of the legume, Lotus japonicus
-
Sato S, Nakamura Y, Kaneko T, Asamizu E, Kato T, Nakao M, et al. Genome structure of the legume, Lotus japonicus. DNA Res. 2008;15:227-39.
-
(2008)
DNA Res
, vol.15
, pp. 227-239
-
-
Sato, S.1
Nakamura, Y.2
Kaneko, T.3
Asamizu, E.4
Kato, T.5
Nakao, M.6
-
65
-
-
84355166513
-
The Medicago genome provides insight into the evolution of rhizobial symbioses
-
Young ND, Debellé F, Oldroyd GED, Geurts R, Cannon SB, Udvardi MK, et al. The Medicago genome provides insight into the evolution of rhizobial symbioses. Nature. 2011;480:520-4.
-
(2011)
Nature
, vol.480
, pp. 520-524
-
-
Young, N.D.1
Debellé, F.2
Oldroyd, G.E.D.3
Geurts, R.4
Cannon, S.B.5
Udvardi, M.K.6
-
66
-
-
33846101405
-
The TIGR Rice Genome Annotation Resource: improvements and new features
-
Ouyang S, Zhu W, Hamilton J, Lin H, Campbell M, Childs K, et al. The TIGR Rice Genome Annotation Resource: improvements and new features. Nucleic Acids Res. 2007;35:D883-887.
-
(2007)
Nucleic Acids Res
, vol.35
, pp. D883-887
-
-
Ouyang, S.1
Zhu, W.2
Hamilton, J.3
Lin, H.4
Campbell, M.5
Childs, K.6
-
67
-
-
33748760611
-
The genome of black cottonwood, Populus trichocarpa (Torr. & Gray)
-
Tuskan GA, Difazio S, Jansson S, Bohlmann J, Grigoriev I, Hellsten U, et al. The genome of black cottonwood, Populus trichocarpa (Torr. & Gray). Science. 2006;313:1596-604.
-
(2006)
Science
, vol.313
, pp. 1596-1604
-
-
Tuskan, G.A.1
Difazio, S.2
Jansson, S.3
Bohlmann, J.4
Grigoriev, I.5
Hellsten, U.6
-
68
-
-
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, et al. The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla. Nature. 2007;449:463-7.
-
(2007)
Nature
, vol.449
, pp. 463-467
-
-
Jaillon, O.1
Aury, J.-M.2
Noel, B.3
Policriti, A.4
Clepet, C.5
Casagrande, A.6
-
69
-
-
0037100671
-
MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform
-
Katoh K, Misawa K, Kuma K, Miyata T. MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform. Nucleic Acids Res. 2002;30:3059-66.
-
(2002)
Nucleic Acids Res
, vol.30
, pp. 3059-3066
-
-
Katoh, K.1
Misawa, K.2
Kuma, K.3
Miyata, T.4
-
70
-
-
0034849408
-
MRBAYES: Bayesian inference of phylogenetic trees
-
Huelsenbeck JP, Ronquist F. MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics. 2001;17:754-5.
-
(2001)
Bioinformatics
, vol.17
, pp. 754-755
-
-
Huelsenbeck, J.P.1
Ronquist, F.2
-
71
-
-
22544482025
-
Formation of organelle-like N2-fixing symbiosomes in legume root nodules is controlled by DMI2
-
Limpens E, Mirabella R, Fedorova E, Franken C, Franssen H, Bisseling T, et al. Formation of organelle-like N2-fixing symbiosomes in legume root nodules is controlled by DMI2. Proc Natl Acad Sci U S A. 2005;102:10375-80.
-
(2005)
Proc Natl Acad Sci U S A
, vol.102
, pp. 10375-10380
-
-
Limpens, E.1
Mirabella, R.2
Fedorova, E.3
Franken, C.4
Franssen, H.5
Bisseling, T.6
-
72
-
-
2442552928
-
RNA interference in Agrobacterium rhizogenes-transformed roots of Arabidopsis and Medicago truncatula
-
Limpens E, Ramos J, Franken C, Raz V, Compaan B, Franssen H, et al. RNA interference in Agrobacterium rhizogenes-transformed roots of Arabidopsis and Medicago truncatula. J Exp Bot. 2004;55:983-92.
-
(2004)
J Exp Bot
, vol.55
, pp. 983-992
-
-
Limpens, E.1
Ramos, J.2
Franken, C.3
Raz, V.4
Compaan, B.5
Franssen, H.6
-
73
-
-
0026655047
-
Depolarization of alfalfa root hair membrane potential by Rhizobium meliloti Nod factors
-
Ehrhardt DW, Atkinson EM, Long SR. Depolarization of alfalfa root hair membrane potential by Rhizobium meliloti Nod factors. Science. 1992;256:998-1000.
-
(1992)
Science
, vol.256
, pp. 998-1000
-
-
Ehrhardt, D.W.1
Atkinson, E.M.2
Long, S.R.3
-
74
-
-
0344402637
-
The infection of clover root hairs by nodule bacteria studied by a simple glass slide technique
-
Fåhraeus G. The infection of clover root hairs by nodule bacteria studied by a simple glass slide technique. J Gen Microbiol. 1957;16:374-81.
-
(1957)
J Gen Microbiol
, vol.16
, pp. 374-381
-
-
Fåhraeus, G.1
-
75
-
-
0001864081
-
The water-culture method for growing plants without soil
-
(2nd edit)
-
Hoagland DR, Arnon DI. The water-culture method for growing plants without soil. Circ Calif Agric Exp Stn. 1950;347(2nd edit):1-32.
-
(1950)
Circ Calif Agric Exp Stn
, vol.347
, pp. 1-32
-
-
Hoagland, D.R.1
Arnon, D.I.2
-
76
-
-
34547591343
-
Primer3Plus, an enhanced web interface to Primer3
-
Untergasser A, Nijveen H, Rao X, Bisseling T, Geurts R, Leunissen JAM. Primer3Plus, an enhanced web interface to Primer3. Nucleic Acids Res. 2007;35:W71-4.
-
(2007)
Nucleic Acids Res
, vol.35
, pp. W71-W74
-
-
Untergasser, A.1
Nijveen, H.2
Rao, X.3
Bisseling, T.4
Geurts, R.5
Leunissen, J.A.M.6
-
77
-
-
79551702315
-
Strigolactones are transported through the xylem and play a key role in shoot architectural response to phosphate deficiency in nonarbuscular mycorrhizal host Arabidopsis
-
Kohlen W, Charnikhova T, Liu Q, Bours R, Domagalska MA, Beguerie S, et al. Strigolactones are transported through the xylem and play a key role in shoot architectural response to phosphate deficiency in nonarbuscular mycorrhizal host Arabidopsis. Plant Physiol. 2011;155:974-87.
-
(2011)
Plant Physiol
, vol.155
, pp. 974-987
-
-
Kohlen, W.1
Charnikhova, T.2
Liu, Q.3
Bours, R.4
Domagalska, M.A.5
Beguerie, S.6
|