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Development (Cambridge, England)
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September 1, 1993
Cardiovascular development in the zebrafish. I. Myocardial fate map and heart tube formation
D Y Stainier, R K Lee, M C Fishman
Proceedings of the National Academy of Sciences of the United States of America
|
June 6, 1998
Rescue of Caenorhabditis elegans pharyngeal development by a vertebrate heart specification gene
C Haun, J Alexander, D Y Stainier, et al.
Developmental Biology
|
November 5, 1999
casanova plays an early and essential role in endoderm formation in zebrafish
J Alexander, M Rothenberg, G L Henry, et al.
Nature
|
August 11, 1994
Implications for dorsoventral axis determination from the zebrafish mutation janus
S Abdelilah, L Solnica-Krezel, D Y Stainier, et al.
Current Biology : CB
|
October 26, 1999
A role for the extraembryonic yolk syncytial layer in patterning the zebrafish embryo suggested by properties of the hex gene
C Y Ho, C Houart, S W Wilson, et al.
Nature
|
July 26, 2000
A sphingosine-1-phosphate receptor regulates cell migration during vertebrate heart development
E Kupperman, S An, N Osborne, et al.
Methods in Cell Biology
|
January 1, 1997
Zebrafish: genetic and embryological methods in a transparent vertebrate embryo
M C Fishman, D Y Stainier, R E Breitbart, et al.
Mechanisms of Development
|
October 1, 1996
Three zebrafish MEF2 genes delineate somitic and cardiac muscle development in wild-type and mutant embryos
B S Ticho, D Y Stainier, M C Fishman, et al.
Development (Cambridge, England)
|
December 22, 1999
Induction and differentiation of the zebrafish heart requires fibroblast growth factor 8 (fgf8/acerebellar)
F Reifers, E C Walsh, S Léger, et al.
Development (Cambridge, England)
|
December 1, 1994
Cardiovascular development in the zebrafish. II. Endocardial progenitors are sequestered within the heart field
R K Lee, D Y Stainier, B M Weinstein, et al.
Page
of 6
Search research articles
Search
Showing results (21-30 of 52) with videos related to
Sort By:
Page
of 6
Development (Cambridge, England)
|
September 1, 1993
Cardiovascular development in the zebrafish. I. Myocardial fate map and heart tube formation
D Y Stainier, R K Lee, M C Fishman
Proceedings of the National Academy of Sciences of the United States of America
|
June 6, 1998
Rescue of Caenorhabditis elegans pharyngeal development by a vertebrate heart specification gene
C Haun, J Alexander, D Y Stainier, et al.
Developmental Biology
|
November 5, 1999
casanova plays an early and essential role in endoderm formation in zebrafish
J Alexander, M Rothenberg, G L Henry, et al.
Nature
|
August 11, 1994
Implications for dorsoventral axis determination from the zebrafish mutation janus
S Abdelilah, L Solnica-Krezel, D Y Stainier, et al.
Current Biology : CB
|
October 26, 1999
A role for the extraembryonic yolk syncytial layer in patterning the zebrafish embryo suggested by properties of the hex gene
C Y Ho, C Houart, S W Wilson, et al.
Nature
|
July 26, 2000
A sphingosine-1-phosphate receptor regulates cell migration during vertebrate heart development
E Kupperman, S An, N Osborne, et al.
Methods in Cell Biology
|
January 1, 1997
Zebrafish: genetic and embryological methods in a transparent vertebrate embryo
M C Fishman, D Y Stainier, R E Breitbart, et al.
Mechanisms of Development
|
October 1, 1996
Three zebrafish MEF2 genes delineate somitic and cardiac muscle development in wild-type and mutant embryos
B S Ticho, D Y Stainier, M C Fishman, et al.
Development (Cambridge, England)
|
December 22, 1999
Induction and differentiation of the zebrafish heart requires fibroblast growth factor 8 (fgf8/acerebellar)
F Reifers, E C Walsh, S Léger, et al.
Development (Cambridge, England)
|
December 1, 1994
Cardiovascular development in the zebrafish. II. Endocardial progenitors are sequestered within the heart field
R K Lee, D Y Stainier, B M Weinstein, et al.
Page
of 6