-
1
-
-
84873911381
-
Estimating deaths from cardiovascular disease: A review of global methodologies of mortality measurement
-
Pagidipati NJ and Gaziano TA. Estimating deaths from cardiovascular disease: A review of global methodologies of mortality measurement. Circulation. 2013;127:749-56.
-
(2013)
Circulation
, vol.127
, pp. 749-756
-
-
Pagidipati, N.J.1
Gaziano, T.A.2
-
2
-
-
84922381210
-
Heart disease and stroke statistics-2015 update: a report from the American Heart Association
-
Mozaffarian D, Benjamin EJ, Go AS, Arnett DK, Blaha MJ, Cushman M, de Ferranti S, Despres JP, Fullerton HJ, Howard VJ, Huffman MD, Judd SE, Kissela BM, Lackland DT, Lichtman JH, Lisabeth LD, Liu S, Mackey RH, Matchar DB, McGuire DK, Mohler ER, 3rd, Moy CS, Muntner P, Mussolino ME, Nasir K, Neumar RW, Nichol G, Palaniappan L, Pandey DK, Reeves MJ, Rodriguez CJ, Sorlie PD, Stein J, Towfighi A, Turan TN, Virani SS, Willey JZ, Woo D, Yeh RW, Turner MB, American Heart Association Statistics C and Stroke Statistics S. Heart disease and stroke statistics-2015 update: a report from the American Heart Association. Circulation. 2015;131:e29-322.
-
(2015)
Circulation
, vol.131
, pp. e29-e322
-
-
Mozaffarian, D.1
Benjamin, E.J.2
Go, A.S.3
Arnett, D.K.4
Blaha, M.J.5
Cushman, M.6
de Ferranti, S.7
Despres, J.P.8
Fullerton, H.J.9
Howard, V.J.10
Huffman, M.D.11
Judd, S.E.12
Kissela, B.M.13
Lackland, D.T.14
Lichtman, J.H.15
Lisabeth, L.D.16
Liu, S.17
Mackey, R.H.18
Matchar, D.B.19
McGuire, D.K.20
Mohler, E.R.21
Moy, C.S.22
Muntner, P.23
Mussolino, M.E.24
Nasir, K.25
Neumar, R.W.26
Nichol, G.27
Palaniappan, L.28
Pandey, D.K.29
Reeves, M.J.30
Rodriguez, C.J.31
Sorlie, P.D.32
Stein, J.33
Towfighi, A.34
Turan, T.N.35
Virani, S.S.36
Willey, J.Z.37
Woo, D.38
Yeh, R.W.39
Turner, M.B.40
American Heart Association Statistics, C.41
Stroke Statistics, S.42
more..
-
3
-
-
64249107059
-
Evidence for cardiomyocyte renewal in humans
-
Bergmann O, Bhardwaj RD, Bernard S, Zdunek S, Barnabe-Heider F, Walsh S, Zupicich J, Alkass K, Buchholz BA, Druid H, Jovinge S and Frisen J. Evidence for cardiomyocyte renewal in humans. Science. 2009;324:98-102.
-
(2009)
Science
, vol.324
, pp. 98-102
-
-
Bergmann, O.1
Bhardwaj, R.D.2
Bernard, S.3
Zdunek, S.4
Barnabe-Heider, F.5
Walsh, S.6
Zupicich, J.7
Alkass, K.8
Buchholz, B.A.9
Druid, H.10
Jovinge, S.11
Frisen, J.12
-
4
-
-
84871518109
-
Molecular basis of physiological heart growth: fundamental concepts and new players
-
Maillet M, van Berlo JH and Molkentin JD. Molecular basis of physiological heart growth: fundamental concepts and new players. Nat Rev Mol Cell Biol. 2013; 14: 38-48.
-
(2013)
Nat Rev Mol Cell Biol
, vol.14
, pp. 38-48
-
-
Maillet, M.1
van Berlo, J.H.2
Molkentin, J.D.3
-
5
-
-
77952371023
-
Cardiomyocyte cell cycle control and growth estimation in vivo-an analysis based on cardiomyocyte nuclei
-
Walsh S, Ponten A, Fleischmann BK and Jovinge S. Cardiomyocyte cell cycle control and growth estimation in vivo-an analysis based on cardiomyocyte nuclei. Cardiovasc Res. 2010;86:365-73.
-
(2010)
Cardiovasc Res
, vol.86
, pp. 365-373
-
-
Walsh, S.1
Ponten, A.2
Fleischmann, B.K.3
Jovinge, S.4
-
6
-
-
84923535492
-
An emerging consensus on cardiac regeneration
-
van Berlo JH and Molkentin JD. An emerging consensus on cardiac regeneration. Nat Med. 2014;20:1386-93.
-
(2014)
Nat Med
, vol.20
, pp. 1386-1393
-
-
van Berlo, J.H.1
Molkentin, J.D.2
-
8
-
-
84873305461
-
Cardiomyocyte proliferation and progenitor cell recruitment underlie therapeutic regeneration after myocardial infarction in the adult mouse heart
-
Malliaras K, Zhang Y, Seinfeld J, Galang G, Tseliou E, Cheng K, Sun B, Aminzadeh M and Marban E. Cardiomyocyte proliferation and progenitor cell recruitment underlie therapeutic regeneration after myocardial infarction in the adult mouse heart. EMBO Mol Med. 2013;5:191-209.
-
(2013)
EMBO Mol Med
, vol.5
, pp. 191-209
-
-
Malliaras, K.1
Zhang, Y.2
Seinfeld, J.3
Galang, G.4
Tseliou, E.5
Cheng, K.6
Sun, B.7
Aminzadeh, M.8
Marban, E.9
-
9
-
-
84857643399
-
Reverse remodeling in heart failure-mechanisms and therapeutic opportunities
-
Koitabashi N and Kass DA. Reverse remodeling in heart failure-mechanisms and therapeutic opportunities. Nat Rev Cardiol. 2012;9:147-57.
-
(2012)
Nat Rev Cardiol
, vol.9
, pp. 147-157
-
-
Koitabashi, N.1
Kass, D.A.2
-
10
-
-
84878632153
-
Small solutions to big problems: microRNAs for cardiac regeneration
-
Srivastava D and Heidersbach AJ. Small solutions to big problems: microRNAs for cardiac regeneration. Cardiovasc Res. 2013;112:1412-4.
-
(2013)
Cardiovasc Res
, vol.112
, pp. 1412-1414
-
-
Srivastava, D.1
Heidersbach, A.J.2
-
11
-
-
84909954397
-
Expression profile of long non-coding RNAs in a mouse model of cardiac hypertrophy
-
Sun L, Zhang Y, Zhang Y, Gu Y, Xuan L, Liu S, Zhao X, Wang N, Huang L, Huang Y, Zhang Y, Ren L, Wang Z, Lu Y and Yang B. Expression profile of long non-coding RNAs in a mouse model of cardiac hypertrophy. Int J Cardiol. 2014;177:73-5.
-
(2014)
Int J Cardiol
, vol.177
, pp. 73-75
-
-
Sun, L.1
Zhang, Y.2
Zhang, Y.3
Gu, Y.4
Xuan, L.5
Liu, S.6
Zhao, X.7
Wang, N.8
Huang, L.9
Huang, Y.10
Zhang, Y.11
Ren, L.12
Wang, Z.13
Lu, Y.14
Yang, B.15
-
12
-
-
84933509543
-
Non coding RNAs in aortic aneurysmal disease
-
Duggirala A, Delogu F, Angelini TG, Smith T, Caputo M, Rajakaruna C and Emanueli C. Non coding RNAs in aortic aneurysmal disease. Front Genet. 2015; 6: 125.
-
(2015)
Front Genet
, vol.6
, pp. 125
-
-
Duggirala, A.1
Delogu, F.2
Angelini, T.G.3
Smith, T.4
Caputo, M.5
Rajakaruna, C.6
Emanueli, C.7
-
13
-
-
84880997880
-
MicroRNAs in stem cell function and regenerative therapy of the heart
-
Seeger FH, Zeiher AM and Dimmeler S. MicroRNAs in stem cell function and regenerative therapy of the heart. Arterioscler Thromb Vasc Biol. 2013; 33: 1739-46.
-
(2013)
Arterioscler Thromb Vasc Biol
, vol.33
, pp. 1739-1746
-
-
Seeger, F.H.1
Zeiher, A.M.2
Dimmeler, S.3
-
14
-
-
84867879862
-
Migration of cardiomyocytes is essential for heart regeneration in zebrafish
-
Itou J, Oishi I, Kawakami H, Glass TJ, Richter J, Johnson A, Lund TC and Kawakami Y. Migration of cardiomyocytes is essential for heart regeneration in zebrafish. Development. 2012;139:4133-42.
-
(2012)
Development
, vol.139
, pp. 4133-4142
-
-
Itou, J.1
Oishi, I.2
Kawakami, H.3
Glass, T.J.4
Richter, J.5
Johnson, A.6
Lund, T.C.7
Kawakami, Y.8
-
15
-
-
33750483609
-
A dynamic epicardial injury response supports progenitor cell activity during zebrafish heart regeneration
-
Lepilina A, Coon AN, Kikuchi K, Holdway JE, Roberts RW, Burns CG and Poss KD. A dynamic epicardial injury response supports progenitor cell activity during zebrafish heart regeneration. Cell. 2006;127:607-19.
-
(2006)
Cell
, vol.127
, pp. 607-619
-
-
Lepilina, A.1
Coon, A.N.2
Kikuchi, K.3
Holdway, J.E.4
Roberts, R.W.5
Burns, C.G.6
Poss, K.D.7
-
17
-
-
77950201708
-
Primary contribution to zebrafish heart regeneration by gata4(+) cardiomyocytes
-
Kikuchi K, Holdway JE, Werdich AA, Anderson RM, Fang Y, Egnaczyk GF, Evans T, Macrae CA, Stainier DY and Poss KD. Primary contribution to zebrafish heart regeneration by gata4(+) cardiomyocytes. Nature. 2010;464:601-5.
-
(2010)
Nature
, vol.464
, pp. 601-605
-
-
Kikuchi, K.1
Holdway, J.E.2
Werdich, A.A.3
Anderson, R.M.4
Fang, Y.5
Egnaczyk, G.F.6
Evans, T.7
Macrae, C.A.8
Stainier, D.Y.9
Poss, K.D.10
-
19
-
-
77950200829
-
Zebrafish heart regeneration occurs by cardiomyocyte dedifferentiation and proliferation
-
Jopling C, Sleep E, Raya M, Marti M, Raya A and Izpisua Belmonte JC. Zebrafish heart regeneration occurs by cardiomyocyte dedifferentiation and proliferation. Nature. 2010;464:606-9.
-
(2010)
Nature
, vol.464
, pp. 606-609
-
-
Jopling, C.1
Sleep, E.2
Raya, M.3
Marti, M.4
Raya, A.5
Izpisua Belmonte, J.C.6
-
21
-
-
84874805183
-
Complete cardiac regeneration in a mouse model of myocardial infarction
-
Dec
-
Haubner BJ, Adamowicz-Brice M, Khadayate S, Tiefenthaler V, Metzler B, Aitman T, Penninger JM. Complete cardiac regeneration in a mouse model of myocardial infarction. Aging (Albany NY). 2012 Dec;4(12):966-77.
-
(2012)
Aging (Albany NY)
, vol.4
, Issue.12
, pp. 966-977
-
-
Haubner, B.J.1
Adamowicz-Brice, M.2
Khadayate, S.3
Tiefenthaler, V.4
Metzler, B.5
Aitman, T.6
Penninger, J.M.7
-
22
-
-
84872611623
-
Mammalian heart renewal by pre-existing cardiomyocytes
-
Senyo SE, Steinhauser ML, Pizzimenti CL, Yang VK, Cai L, Wang M, Wu TD, Guerquin-Kern JL, Lechene CP and Lee RT. Mammalian heart renewal by pre-existing cardiomyocytes. Nature. 2013;493:433-6.
-
(2013)
Nature
, vol.493
, pp. 433-436
-
-
Senyo, S.E.1
Steinhauser, M.L.2
Pizzimenti, C.L.3
Yang, V.K.4
Cai, L.5
Wang, M.6
Wu, T.D.7
Guerquin-Kern, J.L.8
Lechene, C.P.9
Lee, R.T.10
-
23
-
-
84866150446
-
Human ES-cell-derived cardiomyocytes electrically couple and suppress arrhythmias in injured hearts
-
Shiba Y, Fernandes S, Zhu WZ, Filice D, Muskheli V, Kim J, Palpant NJ, Gantz J, Moyes KW, Reinecke H, Van Biber B, Dardas T, Mignone JL, Izawa A, Hanna R, Viswanathan M, Gold JD, Kotlikoff MI, Sarvazyan N, Kay MW, Murry CE and Laflamme MA. Human ES-cell-derived cardiomyocytes electrically couple and suppress arrhythmias in injured hearts. Nature. 2012;489:322-5.
-
(2012)
Nature
, vol.489
, pp. 322-325
-
-
Shiba, Y.1
Fernandes, S.2
Zhu, W.Z.3
Filice, D.4
Muskheli, V.5
Kim, J.6
Palpant, N.J.7
Gantz, J.8
Moyes, K.W.9
Reinecke, H.10
Van Biber, B.11
Dardas, T.12
Mignone, J.L.13
Izawa, A.14
Hanna, R.15
Viswanathan, M.16
Gold, J.D.17
Kotlikoff, M.I.18
Sarvazyan, N.19
Kay, M.W.20
Murry, C.E.21
Laflamme, M.A.22
more..
-
24
-
-
84858019974
-
Intracoronary cardiosphere-derived cells for heart regeneration after myocardial infarction (CADUCEUS): a prospective, randomised phase 1 trial
-
Makkar RR, Smith RR, Cheng K, Malliaras K, Thomson LE, Berman D, Czer LS, Marban L, Mendizabal A, Johnston PV, Russell SD, Schuleri KH, Lardo AC, Gerstenblith G and Marban E. Intracoronary cardiosphere-derived cells for heart regeneration after myocardial infarction (CADUCEUS): a prospective, randomised phase 1 trial. Lancet. 2012;379:895-904.
-
(2012)
Lancet
, vol.379
, pp. 895-904
-
-
Makkar, R.R.1
Smith, R.R.2
Cheng, K.3
Malliaras, K.4
Thomson, L.E.5
Berman, D.6
Czer, L.S.7
Marban, L.8
Mendizabal, A.9
Johnston, P.V.10
Russell, S.D.11
Schuleri, K.H.12
Lardo, A.C.13
Gerstenblith, G.14
Marban, E.15
-
25
-
-
70350131483
-
Generation of functional ventricular heart muscle from mouse ventricular progenitor cells
-
Domian IJ, Chiravuri M, van der Meer P, Feinberg AW, Shi X, Shao Y, Wu SM, Parker KK and Chien KR. Generation of functional ventricular heart muscle from mouse ventricular progenitor cells. Science. 2009;326:426-9.
-
(2009)
Science
, vol.326
, pp. 426-429
-
-
Domian, I.J.1
Chiravuri, M.2
van der Meer, P.3
Feinberg, A.W.4
Shi, X.5
Shao, Y.6
Wu, S.M.7
Parker, K.K.8
Chien, K.R.9
-
26
-
-
34547699399
-
Evidence from a genetic fate-mapping study that stem cells refresh adult mammalian cardiomyocytes after injury
-
Hsieh PC, Segers VF, Davis ME, MacGillivray C, Gannon J, Molkentin JD, Robbins J and Lee RT. Evidence from a genetic fate-mapping study that stem cells refresh adult mammalian cardiomyocytes after injury. Nat Med. 2007;13:970-4.
-
(2007)
Nat Med
, vol.13
, pp. 970-974
-
-
Hsieh, P.C.1
Segers, V.F.2
Davis, M.E.3
MacGillivray, C.4
Gannon, J.5
Molkentin, J.D.6
Robbins, J.7
Lee, R.T.8
-
27
-
-
84880293423
-
Induced regeneration-the progress and promise of direct reprogramming for heart repair
-
Addis RC and Epstein JA. Induced regeneration-the progress and promise of direct reprogramming for heart repair. Nat Med. 2013;19:829-36.
-
(2013)
Nat Med
, vol.19
, pp. 829-836
-
-
Addis, R.C.1
Epstein, J.A.2
-
28
-
-
15344340446
-
Embryonic stem cells: differentiation into cardiomyocytes and potential for heart repair and regeneration
-
Kumar D, Kamp TJ and LeWinter MM. Embryonic stem cells: differentiation into cardiomyocytes and potential for heart repair and regeneration. Coron Artery Dis. 2005;16:111-6.
-
(2005)
Coron Artery Dis
, vol.16
, pp. 111-116
-
-
Kumar, D.1
Kamp, T.J.2
LeWinter, M.M.3
-
29
-
-
79953903083
-
Bone marrow-derived cell therapy stimulates endogenous cardiomyocyte progenitors and promotes cardiac repair
-
Loffredo FS, Steinhauser ML, Gannon J and Lee RT. Bone marrow-derived cell therapy stimulates endogenous cardiomyocyte progenitors and promotes cardiac repair. Cell Stem Cell. 2011;8:389-98.
-
(2011)
Cell Stem Cell
, vol.8
, pp. 389-398
-
-
Loffredo, F.S.1
Steinhauser, M.L.2
Gannon, J.3
Lee, R.T.4
-
30
-
-
84925122298
-
Functional properties of bone marrow derived multipotent mesenchymal stromal cells are altered in heart failure patients, and could be corrected by adjustment of expansion strategies
-
Jan
-
Dmitrieva RI, Revittser AV, Klukina MA, Sviryaev YV, Korostovtseva LS, Kostareva AA, Zaritskey AY, Shlyakhto EV. Functional properties of bone marrow derived multipotent mesenchymal stromal cells are altered in heart failure patients, and could be corrected by adjustment of expansion strategies. Aging (Albany NY). 2015 Jan;7:14-25.
-
(2015)
Aging (Albany NY)
, vol.7
, pp. 14-25
-
-
Dmitrieva, R.I.1
Revittser, A.V.2
Klukina, M.A.3
Sviryaev, Y.V.4
Korostovtseva, L.S.5
Kostareva, A.A.6
Zaritskey, A.Y.7
Shlyakhto, E.V.8
-
31
-
-
67650569135
-
Neuregulin1/ErbB4 signaling induces cardiomyocyte proliferation and repair of heart injury
-
Bersell K, Arab S, Haring B and Kuhn B. Neuregulin1/ErbB4 signaling induces cardiomyocyte proliferation and repair of heart injury. Cell. 2009;138:257-70.
-
(2009)
Cell
, vol.138
, pp. 257-270
-
-
Bersell, K.1
Arab, S.2
Haring, B.3
Kuhn, B.4
-
32
-
-
84922450324
-
The adult heart responds to increased workload with physiologic hypertrophy, cardiac stem cell activation, and new myocyte formation
-
Waring CD, Vicinanza C, Papalamprou A, Smith AJ, Purushothaman S, Goldspink DF, Nadal-Ginard B, Torella D and Ellison GM. The adult heart responds to increased workload with physiologic hypertrophy, cardiac stem cell activation, and new myocyte formation. Eur Heart J. 2014;35:2722-31.
-
(2014)
Eur Heart J
, vol.35
, pp. 2722-2731
-
-
Waring, C.D.1
Vicinanza, C.2
Papalamprou, A.3
Smith, A.J.4
Purushothaman, S.5
Goldspink, D.F.6
Nadal-Ginard, B.7
Torella, D.8
Ellison, G.M.9
-
33
-
-
79958792472
-
Exercise protects against myocardial ischemia-reperfusion injury via stimulation of beta(3)-adrenergic receptors and increased nitric oxide signaling: role of nitrite and nitrosothiols
-
Calvert JW, Condit ME, Aragon JP, Nicholson CK, Moody BF, Hood RL, Sindler AL, Gundewar S, Seals DR, Barouch LA and Lefer DJ. Exercise protects against myocardial ischemia-reperfusion injury via stimulation of beta(3)-adrenergic receptors and increased nitric oxide signaling: role of nitrite and nitrosothiols. Circ Res. 2011;108:1448-58.
-
(2011)
Circ Res
, vol.108
, pp. 1448-1458
-
-
Calvert, J.W.1
Condit, M.E.2
Aragon, J.P.3
Nicholson, C.K.4
Moody, B.F.5
Hood, R.L.6
Sindler, A.L.7
Gundewar, S.8
Seals, D.R.9
Barouch, L.A.10
Lefer, D.J.11
-
34
-
-
84931571363
-
Dynamics of Cell Generation and Turnover in the Human Heart
-
Bergmann O, Zdunek S, Felker A, Salehpour M, Alkass K, Bernard S, Sjostrom SL, Szewczykowska M, Jackowska T, Dos Remedios C, Malm T, Andra M, Jashari R, Nyengaard JR, Possnert G, Jovinge S, Druid H and Frisen J. Dynamics of Cell Generation and Turnover in the Human Heart. Cell. 2015;161:1566-75.
-
(2015)
Cell
, vol.161
, pp. 1566-1575
-
-
Bergmann, O.1
Zdunek, S.2
Felker, A.3
Salehpour, M.4
Alkass, K.5
Bernard, S.6
Sjostrom, S.L.7
Szewczykowska, M.8
Jackowska, T.9
Dos Remedios, C.10
Malm, T.11
Andra, M.12
Jashari, R.13
Nyengaard, J.R.14
Possnert, G.15
Jovinge, S.16
Druid, H.17
Frisen, J.18
-
35
-
-
84875200257
-
Long noncoding RNAs: cellular address codes in development and disease
-
Batista PJ and Chang HY. Long noncoding RNAs: cellular address codes in development and disease. Cell. 2013;152:1298-307.
-
(2013)
Cell
, vol.152
, pp. 1298-1307
-
-
Batista, P.J.1
Chang, H.Y.2
-
36
-
-
84875183056
-
Structure and function of long noncoding RNAs in epigenetic regulation
-
Mercer TR and Mattick JS. Structure and function of long noncoding RNAs in epigenetic regulation. Nat Struct Mol Biol. 2013;20:300-7.
-
(2013)
Nat Struct Mol Biol
, vol.20
, pp. 300-307
-
-
Mercer, T.R.1
Mattick, J.S.2
-
37
-
-
84875078530
-
Small and long non-coding RNAs in cardiac homeostasis and regeneration
-
Ounzain S, Crippa S and Pedrazzini T. Small and long non-coding RNAs in cardiac homeostasis and regeneration. Biochim Biophys Acta. 2013;1833:923-33.
-
(2013)
Biochim Biophys Acta
, vol.1833
, pp. 923-933
-
-
Ounzain, S.1
Crippa, S.2
Pedrazzini, T.3
-
38
-
-
84871442001
-
Functional screening identifies miRNAs inducing cardiac regeneration
-
Eulalio A, Mano M, Dal Ferro M, Zentilin L, Sinagra G, Zacchigna S and Giacca M. Functional screening identifies miRNAs inducing cardiac regeneration. Nature. 2012;492:376-81.
-
(2012)
Nature
, vol.492
, pp. 376-381
-
-
Eulalio, A.1
Mano, M.2
Dal Ferro, M.3
Zentilin, L.4
Sinagra, G.5
Zacchigna, S.6
Giacca, M.7
-
39
-
-
84880040358
-
mir-17-92 cluster is required for and sufficient to induce cardiomyocyte proliferation in postnatal and adult hearts
-
Chen J, Huang ZP, Seok HY, Ding J, Kataoka M, Zhang Z, Hu X, Wang G, Lin Z, Wang S, Pu WT, Liao R and Wang DZ. mir-17-92 cluster is required for and sufficient to induce cardiomyocyte proliferation in postnatal and adult hearts. Circ Res. 2013;112:1557-66.
-
(2013)
Circ Res
, vol.112
, pp. 1557-1566
-
-
Chen, J.1
Huang, Z.P.2
Seok, H.Y.3
Ding, J.4
Kataoka, M.5
Zhang, Z.6
Hu, X.7
Wang, G.8
Lin, Z.9
Wang, S.10
Pu, W.T.11
Liao, R.12
Wang, D.Z.13
-
40
-
-
84925263676
-
A microRNA-Hippo pathway that promotes cardiomyocyte proliferation and cardiac regeneration in mice
-
Tian Y, Liu Y, Wang T, Zhou N, Kong J, Chen L, Snitow M, Morley M, Li D, Petrenko N, Zhou S, Lu M, Gao E, Koch WJ, Stewart KM and Morrisey EE. A microRNA-Hippo pathway that promotes cardiomyocyte proliferation and cardiac regeneration in mice. Sci Transl Med. 2015;7:279ra38.
-
(2015)
Sci Transl Med
, vol.7
-
-
Tian, Y.1
Liu, Y.2
Wang, T.3
Zhou, N.4
Kong, J.5
Chen, L.6
Snitow, M.7
Morley, M.8
Li, D.9
Petrenko, N.10
Zhou, S.11
Lu, M.12
Gao, E.13
Koch, W.J.14
Stewart, K.M.15
Morrisey, E.E.16
-
41
-
-
78650472007
-
C/EBPbeta controls exercise-induced cardiac growth and protects against pathological cardiac remodeling
-
Bostrom P, Mann N, Wu J, Quintero PA, Plovie ER, Panakova D, Gupta RK, Xiao C, MacRae CA, Rosenzweig A and Spiegelman BM. C/EBPbeta controls exercise-induced cardiac growth and protects against pathological cardiac remodeling. Cell. 2010;143:1072-83.
-
(2010)
Cell
, vol.143
, pp. 1072-1083
-
-
Bostrom, P.1
Mann, N.2
Wu, J.3
Quintero, P.A.4
Plovie, E.R.5
Panakova, D.6
Gupta, R.K.7
Xiao, C.8
MacRae, C.A.9
Rosenzweig, A.10
Spiegelman, B.M.11
-
42
-
-
0034537227
-
Effects of exercise training on cardiac function, gene expression, and apoptosis in rats
-
Jin H, Yang R, Li W, Lu H, Ryan AM, Ogasawara AK, Van Peborgh J and Paoni NF. Effects of exercise training on cardiac function, gene expression, and apoptosis in rats. Am J Physiol Heart Circ Physiol. 2000;279:H2994-3002.
-
(2000)
Am J Physiol Heart Circ Physiol
, vol.279
, pp. H2994-H3002
-
-
Jin, H.1
Yang, R.2
Li, W.3
Lu, H.4
Ryan, A.M.5
Ogasawara, A.K.6
Van Peborgh, J.7
Paoni, N.F.8
-
43
-
-
79959452607
-
Molecular mechanisms in exercise-induced cardioprotection
-
Golbidi S and Laher I. Molecular mechanisms in exercise-induced cardioprotection. Cardiol Res Pract. 2011;2011:972807.
-
(2011)
Cardiol Res Pract
, vol.2011
-
-
Golbidi, S.1
Laher, I.2
-
44
-
-
84928377666
-
miR-222 Is Necessary for Exercise-Induced Cardiac Growth and Protects against Pathological Cardiac Remodeling
-
Liu X, Xiao J, Zhu H, Wei X, Platt C, Damilano F, Xiao C, Bezzerides V, Bostrom P, Che L, Zhang C, Spiegelman BM and Rosenzweig A. miR-222 Is Necessary for Exercise-Induced Cardiac Growth and Protects against Pathological Cardiac Remodeling. Cell Metab. 2015;21:584-95.
-
(2015)
Cell Metab
, vol.21
, pp. 584-595
-
-
Liu, X.1
Xiao, J.2
Zhu, H.3
Wei, X.4
Platt, C.5
Damilano, F.6
Xiao, C.7
Bezzerides, V.8
Bostrom, P.9
Che, L.10
Zhang, C.11
Spiegelman, B.M.12
Rosenzweig, A.13
-
45
-
-
80052557916
-
MiR-15 family regulates postnatal mitotic arrest of cardiomyocytes
-
Porrello ER, Johnson BA, Aurora AB, Simpson E, Nam YJ, Matkovich SJ, Dorn GW, 2nd, van Rooij E and Olson EN. MiR-15 family regulates postnatal mitotic arrest of cardiomyocytes. Circ Res. 2011;109:670-9.
-
(2011)
Circ Res
, vol.109
, pp. 670-679
-
-
Porrello, E.R.1
Johnson, B.A.2
Aurora, A.B.3
Simpson, E.4
Nam, Y.J.5
Matkovich, S.J.6
Dorn, G.W.7
van Rooij, E.8
Olson, E.N.9
-
46
-
-
84871992154
-
Regulation of neonatal and adult mammalian heart regeneration by the miR-15 family
-
Porrello ER, Mahmoud AI, Simpson E, Johnson BA, Grinsfelder D, Canseco D, Mammen PP, Rothermel BA, Olson EN and Sadek HA. Regulation of neonatal and adult mammalian heart regeneration by the miR-15 family. Proc Natl Acad Sci U S A. 2013;110:187-92.
-
(2013)
Proc Natl Acad Sci U S A
, vol.110
, pp. 187-192
-
-
Porrello, E.R.1
Mahmoud, A.I.2
Simpson, E.3
Johnson, B.A.4
Grinsfelder, D.5
Canseco, D.6
Mammen, P.P.7
Rothermel, B.A.8
Olson, E.N.9
Sadek, H.A.10
-
47
-
-
84855350458
-
Inhibition of miR-15 protects against cardiac ischemic injury
-
Hullinger TG, Montgomery RL, Seto AG, Dickinson BA, Semus HM, Lynch JM, Dalby CM, Robinson K, Stack C, Latimer PA, Hare JM, Olson EN and van Rooij E. Inhibition of miR-15 protects against cardiac ischemic injury. Circ Res. 2012; 110:71-81.
-
(2012)
Circ Res
, vol.110
, pp. 71-81
-
-
Hullinger, T.G.1
Montgomery, R.L.2
Seto, A.G.3
Dickinson, B.A.4
Semus, H.M.5
Lynch, J.M.6
Dalby, C.M.7
Robinson, K.8
Stack, C.9
Latimer, P.A.10
Hare, J.M.11
Olson, E.N.12
van Rooij, E.13
-
48
-
-
34147153781
-
Dysregulation of cardiogenesis, cardiac conduction, and cell cycle in mice lacking miRNA-1-2
-
Zhao Y, Ransom JF, Li A, Vedantham V, von Drehle M, Muth AN, Tsuchihashi T, McManus MT, Schwartz RJ and Srivastava D. Dysregulation of cardiogenesis, cardiac conduction, and cell cycle in mice lacking miRNA-1-2. Cell. 2007;129:303-17.
-
(2007)
Cell
, vol.129
, pp. 303-317
-
-
Zhao, Y.1
Ransom, J.F.2
Li, A.3
Vedantham, V.4
von Drehle, M.5
Muth, A.N.6
Tsuchihashi, T.7
McManus, M.T.8
Schwartz, R.J.9
Srivastava, D.10
-
49
-
-
22444437609
-
Serum response factor regulates a muscle-specific microRNA that targets Hand2 during cardiogenesis
-
Zhao Y, Samal E and Srivastava D. Serum response factor regulates a muscle-specific microRNA that targets Hand2 during cardiogenesis. Nature. 2005;436:214-20.
-
(2005)
Nature
, vol.436
, pp. 214-220
-
-
Zhao, Y.1
Samal, E.2
Srivastava, D.3
-
50
-
-
77950871771
-
MicroRNA-1 and-499 regulate differentiation and proliferation in human-derived cardiomyocyte progenitor cells
-
Sluijter JP, van Mil A, van Vliet P, Metz CH, Liu J, Doevendans PA and Goumans MJ. MicroRNA-1 and-499 regulate differentiation and proliferation in human-derived cardiomyocyte progenitor cells. Arterioscler Thromb Vasc Biol. 2010;30:859-68.
-
(2010)
Arterioscler Thromb Vasc Biol
, vol.30
, pp. 859-868
-
-
Sluijter, J.P.1
van Mil, A.2
van Vliet, P.3
Metz, C.H.4
Liu, J.5
Doevendans, P.A.6
Goumans, M.J.7
-
51
-
-
57749121689
-
microRNA-133a regulates cardiomyocyte proliferation and suppresses smooth muscle gene expression in the heart
-
Liu N, Bezprozvannaya S, Williams AH, Qi X, Richardson JA, Bassel-Duby R and Olson EN. microRNA-133a regulates cardiomyocyte proliferation and suppresses smooth muscle gene expression in the heart. Genes Dev. 2008;22:3242-54.
-
(2008)
Genes Dev
, vol.22
, pp. 3242-3254
-
-
Liu, N.1
Bezprozvannaya, S.2
Williams, A.H.3
Qi, X.4
Richardson, J.A.5
Bassel-Duby, R.6
Olson, E.N.7
-
52
-
-
38049156025
-
An intragenic MEF2-dependent enhancer directs muscle-specific expression of microRNAs 1 and 133
-
Liu N, Williams AH, Kim Y, McAnally J, Bezprozvannaya S, Sutherland LB, Richardson JA, Bassel-Duby R and Olson EN. An intragenic MEF2-dependent enhancer directs muscle-specific expression of microRNAs 1 and 133. Proc Natl Acad Sci U S A. 2007;104:20844-9.
-
(2007)
Proc Natl Acad Sci U S A
, vol.104
, pp. 20844-20849
-
-
Liu, N.1
Williams, A.H.2
Kim, Y.3
McAnally, J.4
Bezprozvannaya, S.5
Sutherland, L.B.6
Richardson, J.A.7
Bassel-Duby, R.8
Olson, E.N.9
-
53
-
-
84859989029
-
Regulation of zebrafish heart regeneration by miR-133
-
Yin VP, Lepilina A, Smith A and Poss KD. Regulation of zebrafish heart regeneration by miR-133. Dev Biol. 2012;365:319-27.
-
(2012)
Dev Biol
, vol.365
, pp. 319-327
-
-
Yin, V.P.1
Lepilina, A.2
Smith, A.3
Poss, K.D.4
-
54
-
-
77649253288
-
MicroRNAs add a new dimension to cardiovascular disease
-
Small EM, Frost RJ and Olson EN. MicroRNAs add a new dimension to cardiovascular disease. Circulation. 2010;121:1022-32.
-
(2010)
Circulation
, vol.121
, pp. 1022-1032
-
-
Small, E.M.1
Frost, R.J.2
Olson, E.N.3
-
55
-
-
34247589595
-
Control of stress-dependent cardiac growth and gene expression by a microRNA
-
van Rooij E, Sutherland LB, Qi X, Richardson JA, Hill J and Olson EN. Control of stress-dependent cardiac growth and gene expression by a microRNA. Science. 2007;316:575-9.
-
(2007)
Science
, vol.316
, pp. 575-579
-
-
van Rooij, E.1
Sutherland, L.B.2
Qi, X.3
Richardson, J.A.4
Hill, J.5
Olson, E.N.6
-
56
-
-
31744432337
-
The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation
-
Chen JF, Mandel EM, Thomson JM, Wu Q, Callis TE, Hammond SM, Conlon FL and Wang DZ. The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation. Nat Genet. 2006;38:228-33.
-
(2006)
Nat Genet
, vol.38
, pp. 228-233
-
-
Chen, J.F.1
Mandel, E.M.2
Thomson, J.M.3
Wu, Q.4
Callis, T.E.5
Hammond, S.M.6
Conlon, F.L.7
Wang, D.Z.8
-
57
-
-
39749140336
-
MicroRNA regulation of cell lineages in mouse and human embryonic stem cells
-
Ivey KN, Muth A, Arnold J, King FW, Yeh RF, Fish JE, Hsiao EC, Schwartz RJ, Conklin BR, Bernstein HS and Srivastava D. MicroRNA regulation of cell lineages in mouse and human embryonic stem cells. Cell stem cell. 2008;2:219-29.
-
(2008)
Cell stem cell
, vol.2
, pp. 219-229
-
-
Ivey, K.N.1
Muth, A.2
Arnold, J.3
King, F.W.4
Yeh, R.F.5
Fish, J.E.6
Hsiao, E.C.7
Schwartz, R.J.8
Conklin, B.R.9
Bernstein, H.S.10
Srivastava, D.11
-
58
-
-
78649366701
-
Dynamic microRNA expression programs during cardiac differentiation of human embryonic stem cells: role for miR-499
-
Wilson KD, Hu S, Venkatasubrahmanyam S, Fu JD, Sun N, Abilez OJ, Baugh JJ, Jia F, Ghosh Z, Li RA, Butte AJ and Wu JC. Dynamic microRNA expression programs during cardiac differentiation of human embryonic stem cells: role for miR-499. Circ Cardiovasc Genet. 2010;3:426-35.
-
(2010)
Circ Cardiovasc Genet
, vol.3
, pp. 426-435
-
-
Wilson, K.D.1
Hu, S.2
Venkatasubrahmanyam, S.3
Fu, J.D.4
Sun, N.5
Abilez, O.J.6
Baugh, J.J.7
Jia, F.8
Ghosh, Z.9
Li, R.A.10
Butte, A.J.11
Wu, J.C.12
-
59
-
-
80355128968
-
MicroRNA-1 transfected embryonic stem cells enhance cardiac myocyte differentiation and inhibit apoptosis by modulating the PTEN/Akt pathway in the infarcted heart
-
Glass C and Singla DK. MicroRNA-1 transfected embryonic stem cells enhance cardiac myocyte differentiation and inhibit apoptosis by modulating the PTEN/Akt pathway in the infarcted heart. Am J Physiol Heart Circ Physiol. 2011;301:H2038-49.
-
(2011)
Am J Physiol Heart Circ Physiol
, vol.301
, pp. H2038-H2049
-
-
Glass, C.1
Singla, D.K.2
-
60
-
-
79954629901
-
Human cardiac stem cell differentiation is regulated by a mircrine mechanism
-
Hosoda T, Zheng H, Cabral-da-Silva M, Sanada F, Ide-Iwata N, Ogorek B, Ferreira-Martins J, Arranto C, D'Amario D, del Monte F, Urbanek K, D'Alessandro DA, Michler RE, Anversa P, Rota M, Kajstura J and Leri A. Human cardiac stem cell differentiation is regulated by a mircrine mechanism. Circulation. 2011;123:1287-96.
-
(2011)
Circulation
, vol.123
, pp. 1287-1296
-
-
Hosoda, T.1
Zheng, H.2
Cabral-da-Silva, M.3
Sanada, F.4
Ide-Iwata, N.5
Ogorek, B.6
Ferreira-Martins, J.7
Arranto, C.8
D'Amario, D.9
del Monte, F.10
Urbanek, K.11
D'Alessandro, D.A.12
Michler, R.E.13
Anversa, P.14
Rota, M.15
Kajstura, J.16
Leri, A.17
-
61
-
-
70350138340
-
H19 acts as a trans regulator of the imprinted gene network controlling growth in mice
-
Gabory A, Ripoche MA, Le Digarcher A, Watrin F, Ziyyat A, Forne T, Jammes H, Ainscough JF, Surani MA, Journot L and Dandolo L. H19 acts as a trans regulator of the imprinted gene network controlling growth in mice. Development. 2009;136:3413-21.
-
(2009)
Development
, vol.136
, pp. 3413-3421
-
-
Gabory, A.1
Ripoche, M.A.2
Le Digarcher, A.3
Watrin, F.4
Ziyyat, A.5
Forne, T.6
Jammes, H.7
Ainscough, J.F.8
Surani, M.A.9
Journot, L.10
Dandolo, L.11
-
62
-
-
84855177761
-
Downregulation of H19 improves the differentiation potential of mouse parthenogenetic embryonic stem cells
-
Ragina NP, Schlosser K, Knott JG, Senagore PK, Swiatek PJ, Chang EA, Fakhouri WD, Schutte BC, Kiupel M and Cibelli JB. Downregulation of H19 improves the differentiation potential of mouse parthenogenetic embryonic stem cells. Stem Cells Dev. 2012;21:1134-44.
-
(2012)
Stem Cells Dev
, vol.21
, pp. 1134-1144
-
-
Ragina, N.P.1
Schlosser, K.2
Knott, J.G.3
Senagore, P.K.4
Swiatek, P.J.5
Chang, E.A.6
Fakhouri, W.D.7
Schutte, B.C.8
Kiupel, M.9
Cibelli, J.B.10
-
63
-
-
84906255362
-
Knockdown of H19 enhances differentiation capacity to epidermis of parthenogenetic embryonic stem cells
-
Yin Y, Wang H, Liu K, Wang F, Ye X, Liu M, Xiang R, Liu N and Liu L. Knockdown of H19 enhances differentiation capacity to epidermis of parthenogenetic embryonic stem cells. Curr Mol Med. 2014;14:737-48.
-
(2014)
Curr Mol Med
, vol.14
, pp. 737-748
-
-
Yin, Y.1
Wang, H.2
Liu, K.3
Wang, F.4
Ye, X.5
Liu, M.6
Xiang, R.7
Liu, N.8
Liu, L.9
-
64
-
-
34948891467
-
Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts
-
Laflamme MA, Chen KY, Naumova AV, Muskheli V, Fugate JA, Dupras SK, Reinecke H, Xu C, Hassanipour M, Police S, O'Sullivan C, Collins L, Chen Y, Minami E, Gill EA, Ueno S, Yuan C, Gold J and Murry CE. Cardiomyocytes derived from human embryonic stem cells in pro-survival factors enhance function of infarcted rat hearts. Nat Biotechnol. 2007;25:1015-24.
-
(2007)
Nat Biotechnol
, vol.25
, pp. 1015-1024
-
-
Laflamme, M.A.1
Chen, K.Y.2
Naumova, A.V.3
Muskheli, V.4
Fugate, J.A.5
Dupras, S.K.6
Reinecke, H.7
Xu, C.8
Hassanipour, M.9
Police, S.10
O'Sullivan, C.11
Collins, L.12
Chen, Y.13
Minami, E.14
Gill, E.A.15
Ueno, S.16
Yuan, C.17
Gold, J.18
Murry, C.E.19
-
65
-
-
70350353082
-
MicroRNA expression signature and the role of microRNA-21 in the early phase of acute myocardial infarction
-
Dong S, Cheng Y, Yang J, Li J, Liu X, Wang X, Wang D, Krall TJ, Delphin ES and Zhang C. MicroRNA expression signature and the role of microRNA-21 in the early phase of acute myocardial infarction. J Biol Chem. 2009;284:29514-25.
-
(2009)
J Biol Chem
, vol.284
, pp. 29514-29525
-
-
Dong, S.1
Cheng, Y.2
Yang, J.3
Li, J.4
Liu, X.5
Wang, X.6
Wang, D.7
Krall, T.J.8
Delphin, E.S.9
Zhang, C.10
-
66
-
-
84942124240
-
miR-21-3p regulates cardiac hypertrophic response by targeting histone deacetylase-8
-
Yan M, Chen C, Gong W, Yin Z, Zhou L, Chaugai S and Wang DW. miR-21-3p regulates cardiac hypertrophic response by targeting histone deacetylase-8. Circ Res. 2015;105:340-52.
-
(2015)
Circ Res
, vol.105
, pp. 340-352
-
-
Yan, M.1
Chen, C.2
Gong, W.3
Yin, Z.4
Zhou, L.5
Chaugai, S.6
Wang, D.W.7
-
67
-
-
79952731167
-
miR-24 inhibits apoptosis and represses Bim in mouse cardiomyocytes
-
Qian L, Van Laake LW, Huang Y, Liu S, Wendland MF and Srivastava D. miR-24 inhibits apoptosis and represses Bim in mouse cardiomyocytes. The Journal of experimental medicine. 2011;208:549-60.
-
(2011)
The Journal of experimental medicine
, vol.208
, pp. 549-560
-
-
Qian, L.1
Van Laake, L.W.2
Huang, Y.3
Liu, S.4
Wendland, M.F.5
Srivastava, D.6
-
68
-
-
80052712758
-
Novel microRNA prosurvival cocktail for improving engraftment and function of cardiac progenitor cell transplantation
-
Hu S, Huang M, Nguyen PK, Gong Y, Li Z, Jia F, Lan F, Liu J, Nag D, Robbins RC and Wu JC. Novel microRNA prosurvival cocktail for improving engraftment and function of cardiac progenitor cell transplantation. Circulation. 2011;124:S27-34.
-
(2011)
Circulation
, vol.124
, pp. S27-S34
-
-
Hu, S.1
Huang, M.2
Nguyen, P.K.3
Gong, Y.4
Li, Z.5
Jia, F.6
Lan, F.7
Liu, J.8
Nag, D.9
Robbins, R.C.10
Wu, J.C.11
-
69
-
-
65249185780
-
Downregulation of miR-199a derepresses hypoxia-inducible factor-1alpha and Sirtuin 1 and recapitulates hypoxia preconditioning in cardiac myocytes
-
Rane S, He M, Sayed D, Vashistha H, Malhotra A, Sadoshima J, Vatner DE, Vatner SF and Abdellatif M. Downregulation of miR-199a derepresses hypoxia-inducible factor-1alpha and Sirtuin 1 and recapitulates hypoxia preconditioning in cardiac myocytes. Circulation research. 2009;104:879-86.
-
(2009)
Circulation research
, vol.104
, pp. 879-886
-
-
Rane, S.1
He, M.2
Sayed, D.3
Vashistha, H.4
Malhotra, A.5
Sadoshima, J.6
Vatner, D.E.7
Vatner, S.F.8
Abdellatif, M.9
-
71
-
-
79959415749
-
MicroRNA-155 prevents necrotic cell death in human cardiomyocyte progenitor cells via targeting RIP1
-
Liu J, van Mil A, Vrijsen K, Zhao J, Gao L, Metz CH, Goumans MJ, Doevendans PA and Sluijter JP.MicroRNA-155 prevents necrotic cell death in human cardiomyocyte progenitor cells via targeting RIP1. J Cell Mol Med. 2011;15:1474-82.
-
(2011)
J Cell Mol Med
, vol.15
, pp. 1474-1482
-
-
Liu, J.1
van Mil, A.2
Vrijsen, K.3
Zhao, J.4
Gao, L.5
Metz, C.H.6
Goumans, M.J.7
Doevendans, P.A.8
Sluijter, J.P.9
-
72
-
-
84874700585
-
MicroRNA-34a regulates cardiac ageing and function
-
Boon RA, Iekushi K, Lechner S, Seeger T, Fischer A, Heydt S, Kaluza D, Treguer K, Carmona G, Bonauer A, Horrevoets AJ, Didier N, Girmatsion Z, Biliczki P, Ehrlich JR, Katus HA, Muller OJ, Potente M, Zeiher AM, Hermeking H and Dimmeler S. MicroRNA-34a regulates cardiac ageing and function. Nature. 2013;495:107-10.
-
(2013)
Nature
, vol.495
, pp. 107-110
-
-
Boon, R.A.1
Iekushi, K.2
Lechner, S.3
Seeger, T.4
Fischer, A.5
Heydt, S.6
Kaluza, D.7
Treguer, K.8
Carmona, G.9
Bonauer, A.10
Horrevoets, A.J.11
Didier, N.12
Girmatsion, Z.13
Biliczki, P.14
Ehrlich, J.R.15
Katus, H.A.16
Muller, O.J.17
Potente, M.18
Zeiher, A.M.19
Hermeking, H.20
Dimmeler, S.21
more..
-
73
-
-
84870614734
-
miR-1 exacerbates cardiac ischemia-reperfusion injury in mouse models
-
Pan Z, Sun X, Ren J, Li X, Gao X, Lu C, Zhang Y, Sun H, Wang Y, Wang H, Wang J, Xie L, Lu Y and Yang B. miR-1 exacerbates cardiac ischemia-reperfusion injury in mouse models. PloS one. 2012;7:e50515.
-
(2012)
PloS one
, vol.7
-
-
Pan, Z.1
Sun, X.2
Ren, J.3
Li, X.4
Gao, X.5
Lu, C.6
Zhang, Y.7
Sun, H.8
Wang, Y.9
Wang, H.10
Wang, J.11
Xie, L.12
Lu, Y.13
Yang, B.14
-
74
-
-
66349123063
-
MicroRNA-320 is involved in the regulation of cardiac ischemia/reperfusion injury by targeting heat-shock protein 20
-
Ren XP, Wu J, Wang X, Sartor MA, Qian J, Jones K, Nicolaou P, Pritchard TJ and Fan GC. MicroRNA-320 is involved in the regulation of cardiac ischemia/reperfusion injury by targeting heat-shock protein 20. Circulation. 2009;119:2357-66.
-
(2009)
Circulation
, vol.119
, pp. 2357-2366
-
-
Ren, X.P.1
Wu, J.2
Wang, X.3
Sartor, M.A.4
Qian, J.5
Jones, K.6
Nicolaou, P.7
Pritchard, T.J.8
Fan, G.C.9
-
75
-
-
77954766181
-
Downregulation of microRNA-29 by antisense inhibitors and a PPAR-gamma agonist protects against myocardial ischaemia-reperfusion injury
-
Ye Y, Hu Z, Lin Y, Zhang C and Perez-Polo JR. Downregulation of microRNA-29 by antisense inhibitors and a PPAR-gamma agonist protects against myocardial ischaemia-reperfusion injury. Cardiovasc Res. 2010;87:535-44.
-
(2010)
Cardiovasc Res
, vol.87
, pp. 535-544
-
-
Ye, Y.1
Hu, Z.2
Lin, Y.3
Zhang, C.4
Perez-Polo, J.R.5
-
76
-
-
77955321344
-
Direct reprogramming of fibroblasts into functional cardiomyocytes by defined factors
-
Ieda M, Fu JD, Delgado-Olguin P, Vedantham V, Hayashi Y, Bruneau BG and Srivastava D. Direct reprogramming of fibroblasts into functional cardiomyocytes by defined factors. Cell. 2010;142:375-86.
-
(2010)
Cell
, vol.142
, pp. 375-386
-
-
Ieda, M.1
Fu, J.D.2
Delgado-Olguin, P.3
Vedantham, V.4
Hayashi, Y.5
Bruneau, B.G.6
Srivastava, D.7
-
77
-
-
84863629484
-
In vivo reprogramming of murine cardiac fibroblasts into induced cardiomyocytes
-
Qian L, Huang Y, Spencer CI, Foley A, Vedantham V, Liu L, Conway SJ, Fu JD and Srivastava D. In vivo reprogramming of murine cardiac fibroblasts into induced cardiomyocytes. Nature. 2012;485:593-8.
-
(2012)
Nature
, vol.485
, pp. 593-598
-
-
Qian, L.1
Huang, Y.2
Spencer, C.I.3
Foley, A.4
Vedantham, V.5
Liu, L.6
Conway, S.J.7
Fu, J.D.8
Srivastava, D.9
-
78
-
-
84863626782
-
Heart repair by reprogramming non-myocytes with cardiac transcription factors
-
Song K, Nam YJ, Luo X, Qi X, Tan W, Huang GN, Acharya A, Smith CL, Tallquist MD, Neilson EG, Hill JA, Bassel-Duby R and Olson EN. Heart repair by reprogramming non-myocytes with cardiac transcription factors. Nature. 2012;485:599-604.
-
(2012)
Nature
, vol.485
, pp. 599-604
-
-
Song, K.1
Nam, Y.J.2
Luo, X.3
Qi, X.4
Tan, W.5
Huang, G.N.6
Acharya, A.7
Smith, C.L.8
Tallquist, M.D.9
Neilson, E.G.10
Hill, J.A.11
Bassel-Duby, R.12
Olson, E.N.13
-
79
-
-
84861642380
-
MicroRNA-mediated in vitro and in vivo direct reprogramming of cardiac fibroblasts to cardiomyocytes
-
Jayawardena TM, Egemnazarov B, Finch EA, Zhang L, Payne JA, Pandya K, Zhang Z, Rosenberg P, Mirotsou M and Dzau VJ. MicroRNA-mediated in vitro and in vivo direct reprogramming of cardiac fibroblasts to cardiomyocytes. Circ Res. 2012;110:1465-73.
-
(2012)
Circ Res
, vol.110
, pp. 1465-1473
-
-
Jayawardena, T.M.1
Egemnazarov, B.2
Finch, E.A.3
Zhang, L.4
Payne, J.A.5
Pandya, K.6
Zhang, Z.7
Rosenberg, P.8
Mirotsou, M.9
Dzau, V.J.10
-
80
-
-
84875953308
-
Direct reprogramming of fibroblasts to myocytes via bacterial injection of MyoD protein
-
Bichsel C, Neeld D, Hamazaki T, Chang LJ, Yang LJ, Terada N and Jin S. Direct reprogramming of fibroblasts to myocytes via bacterial injection of MyoD protein. Cell Reprogram. 2013;15:117-25.
-
(2013)
Cell Reprogram
, vol.15
, pp. 117-125
-
-
Bichsel, C.1
Neeld, D.2
Hamazaki, T.3
Chang, L.J.4
Yang, L.J.5
Terada, N.6
Jin, S.7
-
81
-
-
84927643037
-
MicroRNA induced cardiac reprogramming in vivo: evidence for mature cardiac myocytes and improved cardiac function
-
Jayawardena TM, Finch EA, Zhang L, Zhang H, Hodgkinson CP, Pratt RE, Rosenberg PB, Mirotsou M and Dzau VJ. MicroRNA induced cardiac reprogramming in vivo: evidence for mature cardiac myocytes and improved cardiac function. Circ Res. 2015;116:418-24.
-
(2015)
Circ Res
, vol.116
, pp. 418-424
-
-
Jayawardena, T.M.1
Finch, E.A.2
Zhang, L.3
Zhang, H.4
Hodgkinson, C.P.5
Pratt, R.E.6
Rosenberg, P.B.7
Mirotsou, M.8
Dzau, V.J.9
-
82
-
-
36248966518
-
Induction of pluripotent stem cells from adult human fibroblasts by defined factors
-
Takahashi K, Tanabe K, Ohnuki M, Narita M, Ichisaka T, Tomoda K and Yamanaka S. Induction of pluripotent stem cells from adult human fibroblasts by defined factors. Cell. 2007;131:861-72.
-
(2007)
Cell
, vol.131
, pp. 861-872
-
-
Takahashi, K.1
Tanabe, K.2
Ohnuki, M.3
Narita, M.4
Ichisaka, T.5
Tomoda, K.6
Yamanaka, S.7
-
83
-
-
84866085864
-
Direct reprogramming of fibroblasts into embryonic Sertoli-like cells by defined factors
-
Buganim Y, Itskovich E, Hu YC, Cheng AW, Ganz K, Sarkar S, Fu D, Welstead GG, Page DC and Jaenisch R. Direct reprogramming of fibroblasts into embryonic Sertoli-like cells by defined factors. Cell stem cell. 2012;11:373-86.
-
(2012)
Cell stem cell
, vol.11
, pp. 373-386
-
-
Buganim, Y.1
Itskovich, E.2
Hu, Y.C.3
Cheng, A.W.4
Ganz, K.5
Sarkar, S.6
Fu, D.7
Welstead, G.G.8
Page, D.C.9
Jaenisch, R.10
-
84
-
-
77957682878
-
MicroRNA gene regulatory pathways in the establishment and maintenance of ESC identity
-
Martinez NJ and Gregory RI. MicroRNA gene regulatory pathways in the establishment and maintenance of ESC identity. Cell stem cell. 2010;7:31-5.
-
(2010)
Cell stem cell
, vol.7
, pp. 31-35
-
-
Martinez, N.J.1
Gregory, R.I.2
-
85
-
-
40949130398
-
MicroRNAs control de novo DNA methylation through regulation of transcriptional repressors in mouse embryonic stem cells
-
Sinkkonen L, Hugenschmidt T, Berninger P, Gaidatzis D, Mohn F, Artus-Revel CG, Zavolan M, Svoboda P and Filipowicz W. MicroRNAs control de novo DNA methylation through regulation of transcriptional repressors in mouse embryonic stem cells. Nat Struct Mol Biol. 2008;15:259-67.
-
(2008)
Nat Struct Mol Biol
, vol.15
, pp. 259-267
-
-
Sinkkonen, L.1
Hugenschmidt, T.2
Berninger, P.3
Gaidatzis, D.4
Mohn, F.5
Artus-Revel, C.G.6
Zavolan, M.7
Svoboda, P.8
Filipowicz, W.9
-
86
-
-
53549133376
-
Oct4/Sox2-regulated miR-302 targets cyclin D1 in human embryonic stem cells
-
Card DA, Hebbar PB, Li L, Trotter KW, Komatsu Y, Mishina Y and Archer TK. Oct4/Sox2-regulated miR-302 targets cyclin D1 in human embryonic stem cells. Mol Cell Biol. 2008;28:6426-38.
-
(2008)
Mol Cell Biol
, vol.28
, pp. 6426-6438
-
-
Card, D.A.1
Hebbar, P.B.2
Li, L.3
Trotter, K.W.4
Komatsu, Y.5
Mishina, Y.6
Archer, T.K.7
-
87
-
-
79955780736
-
Multiple targets of miR-302 and miR-372 promote reprogramming of human fibroblasts to induced pluripotent stem cells
-
Subramanyam D, Lamouille S, Judson RL, Liu JY, Bucay N, Derynck R and Blelloch R. Multiple targets of miR-302 and miR-372 promote reprogramming of human fibroblasts to induced pluripotent stem cells. Nat Biotechnol. 2011;29:443-8.
-
(2011)
Nat Biotechnol
, vol.29
, pp. 443-448
-
-
Subramanyam, D.1
Lamouille, S.2
Judson, R.L.3
Liu, J.Y.4
Bucay, N.5
Derynck, R.6
Blelloch, R.7
-
88
-
-
79952281227
-
Small RNA-mediated regulation of iPS cell generation
-
Li Z, Yang CS, Nakashima K and Rana TM. Small RNA-mediated regulation of iPS cell generation. EMBO J. 2011;30:823-34.
-
(2011)
EMBO J
, vol.30
, pp. 823-834
-
-
Li, Z.1
Yang, C.S.2
Nakashima, K.3
Rana, T.M.4
-
89
-
-
78649467088
-
Large intergenic non-coding RNA-RoR modulates reprogramming of human induced pluripotent stem cells
-
Loewer S, Cabili MN, Guttman M, Loh YH, Thomas K, Park IH, Garber M, Curran M, Onder T, Agarwal S, Manos PD, Datta S, Lander ES, Schlaeger TM, Daley GQ and Rinn JL. Large intergenic non-coding RNA-RoR modulates reprogramming of human induced pluripotent stem cells. Nat Genet. 2010;42:1113-7.
-
(2010)
Nat Genet
, vol.42
, pp. 1113-1117
-
-
Loewer, S.1
Cabili, M.N.2
Guttman, M.3
Loh, Y.H.4
Thomas, K.5
Park, I.H.6
Garber, M.7
Curran, M.8
Onder, T.9
Agarwal, S.10
Manos, P.D.11
Datta, S.12
Lander, E.S.13
Schlaeger, T.M.14
Daley, G.Q.15
Rinn, J.L.16
-
90
-
-
75149163987
-
Conserved long noncoding RNAs transcriptionally regulated by Oct4 and Nanog modulate pluripotency in mouse embryonic stem cells
-
Sheik Mohamed J, Gaughwin PM, Lim B, Robson P and Lipovich L. Conserved long noncoding RNAs transcriptionally regulated by Oct4 and Nanog modulate pluripotency in mouse embryonic stem cells. Rna. 2010;16:324-37.
-
(2010)
Rna
, vol.16
, pp. 324-337
-
-
Sheik Mohamed, J.1
Gaughwin, P.M.2
Lim, B.3
Robson, P.4
Lipovich, L.5
-
91
-
-
80052869283
-
lincRNAs act in the circuitry controlling pluripotency and differentiation
-
Guttman M, Donaghey J, Carey BW, Garber M, Grenier JK, Munson G, Young G, Lucas AB, Ach R, Bruhn L, Yang X, Amit I, Meissner A, Regev A, Rinn JL, Root DE and Lander ES. lincRNAs act in the circuitry controlling pluripotency and differentiation. Nature. 2011;477:295-300.
-
(2011)
Nature
, vol.477
, pp. 295-300
-
-
Guttman, M.1
Donaghey, J.2
Carey, B.W.3
Garber, M.4
Grenier, J.K.5
Munson, G.6
Young, G.7
Lucas, A.B.8
Ach, R.9
Bruhn, L.10
Yang, X.11
Amit, I.12
Meissner, A.13
Regev, A.14
Rinn, J.L.15
Root, D.E.16
Lander, E.S.17
-
92
-
-
84877775012
-
Meis1 regulates postnatal cardiomyocyte cell cycle arrest
-
Mahmoud AI, Kocabas F, Muralidhar SA, Kimura W, Koura AS, Thet S, Porrello ER and Sadek HA. Meis1 regulates postnatal cardiomyocyte cell cycle arrest. Nature. 2013;497:249-53.
-
(2013)
Nature
, vol.497
, pp. 249-253
-
-
Mahmoud, A.I.1
Kocabas, F.2
Muralidhar, S.A.3
Kimura, W.4
Koura, A.S.5
Thet, S.6
Porrello, E.R.7
Sadek, H.A.8
-
93
-
-
84924134321
-
Long noncoding RNAs in cardiovascular diseases
-
Uchida S and Dimmeler S. Long noncoding RNAs in cardiovascular diseases. Circ Res. 2015;116:737-50.
-
(2015)
Circ Res
, vol.116
, pp. 737-750
-
-
Uchida, S.1
Dimmeler, S.2
|