Avian embryonic coronary arterio ‐venous patterning involves the contribution of different endothelial and endocardial cell populations
Developmental Dynamics, EarlyView. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 13, 2018 Category: Molecular Biology Source Type: research
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Developmental Dynamics, Ahead of Print. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 13, 2018 Category: Molecular Biology Source Type: research
Avian embryonic coronary arterio ‐venous patterning involves the contribution of different endothelial and endocardial cell populations
Conclusions: Embryonic coronary vasculature is a developmental mosaic, formed by the integration of vascular cells from, at least, four different embryological origins, which assemble in a coordinated manner to complete coronary vascular development. Developmental Dynamics, 2018. © 2018 Wiley Periodicals, Inc. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 13, 2018 Category: Molecular Biology Authors: Paul Palmquist ‐Gomes, Juan Antonio Guadix, José M. Pérez‐Pomares Tags: Research Article Source Type: research
Loss of VAMP5 in mice results in duplication of the ureter and insufficient expansion of the lung
Conclusions: VAMP5 KO mice showed a low birth rate and abnormalities of the urinary and respiratory systems. VAMP5 KO mice died around birth, possibly due to defects in vesicoureteral flow and breathing. The results presented could provide a basis for future studies to understand the roles of VAMP5 protein. This article is protected by copyright. All rights reserved. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 13, 2018 Category: Molecular Biology Authors: Maiko Ikezawa, Yuki Tajika, Hitoshi Ueno, Tohru Murakami, Naokazu Inoue, Hiroshi Yorifuji Tags: Patterns & Phenotypes Source Type: research
Absence of the Drosophila jump muscle actin Act79B is compensated by up ‐regulation of Act88F
Developmental Dynamics,Volume 247, Issue 4, Page 642-649, April 2018. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 10, 2018 Category: Molecular Biology Source Type: research
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Developmental Dynamics,Volume 247, Issue 4, Page 642-649, April 2018. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 10, 2018 Category: Molecular Biology Source Type: research
Transient phenotypic changes in endothelial cells and pericytes in neonatal mouse retina following short ‐term blockade of vascular endothelial growth factor receptors
Developmental Dynamics, EarlyView. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 5, 2018 Category: Molecular Biology Source Type: research
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Developmental Dynamics, Ahead of Print. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 5, 2018 Category: Molecular Biology Source Type: research
Skeletal development in the heterocercal caudal fin of spotted gar (Lepisosteus oculatus) and other Lepisosteiformes
Conclusion: The present work highlights the power and importance of ontogenic studies, and provides bases for future evolutionary and morphological investigations on actinopterygians fins. This article is protected by copyright. All rights reserved. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 1, 2018 Category: Molecular Biology Authors: Thomas Desvignes, Andrew Carey, Ingo Braasch, Trevor Enright, John H. Postlethwait Tags: Research Article Source Type: research
Absence of the Drosophila jump muscle actin Act79B is compensated by up ‐regulation of Act88F
Conclusion: These results indicate that Act88F can functionally substitute for Act79B in the jump muscle, and that the functional compensation in actin expression in the jump muscles only occurs through Act88F. This article is protected by copyright. All rights reserved. (Source: Developmental Dynamics)
Source: Developmental Dynamics - January 1, 2018 Category: Molecular Biology Authors: Tracy E. Dohn, Richard M. Cripps Tags: Research Article Source Type: research
RNA helicase Mov10 is essential for gastrulation and CNS development
Conclusions: Mov10 is essential for gastrulation and normal CNS development. This article is protected by copyright. All rights reserved. (Source: Developmental Dynamics)
Source: Developmental Dynamics - December 21, 2017 Category: Molecular Biology Authors: Geena Skariah, Kimberly J. Perry, Jenny Drnevich, Jonathan J. Henry, Stephanie Ceman Tags: Patterns & Phenotypes Source Type: research
RNA helicase Mov10 is essential for gastrulation and central nervous system development
Developmental Dynamics,Volume 247, Issue 4, Page 660-671, April 2018. (Source: Developmental Dynamics)
Source: Developmental Dynamics - December 21, 2017 Category: Molecular Biology Source Type: research
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Developmental Dynamics,Volume 247, Issue 4, Page 660-671, April 2018. (Source: Developmental Dynamics)
Source: Developmental Dynamics - December 21, 2017 Category: Molecular Biology Source Type: research
Zinc finger gene nolz1 regulates the formation of retinal progenitor cells and suppresses the Lim3/Lhx3 phenotype of retinal bipolar cells in chicken retina
Conclusions: We conclude that Nolz1 has multiple functions during development and suggest a mechanism in which Nolz1 initially regulates the proliferation state of the retinal progenitor cells and then acts as a repressor that suppresses the Lim3/Lhx3 bipolar cell phenotype at the time of bipolar cell differentiation. Developmental Dynamics, 2017. © 2017 Wiley Periodicals, Inc. (Source: Developmental Dynamics)
Source: Developmental Dynamics - December 20, 2017 Category: Molecular Biology Authors: Maria K.E. Blixt, Dardan Konjusha, Henrik Ring, Finn Hallb öök Tags: Research Article Source Type: research
Developmental biology – more dynamic than ever!
(Source: Developmental Dynamics)
Source: Developmental Dynamics - December 18, 2017 Category: Molecular Biology Authors: Paul A. Trainor Tags: Editorial Source Type: research
