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Search Results to Ian Scott

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One or more keywords matched the following properties of Scott, Ian

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keywords Gene Expression Regulation, Embryologic
overview Research in the Scott lab is focused on how cardiac fate is first established, and how the heart later grows and develops. Using the advantages of the zebrafish embryo, we employ genetic, embryological, live imaging and genomics approaches to study in real time the earliest events of cardiovascular development. Current research topics include: 1) role of Aplnr signalling in migration of cardiac progenitors to the heart-forming region; 2) transcriptional control of early cardiac fate and migration; 3) deciphering the gene regulatory networks that govern vertebrate heart development and regeneration; 4) regulation of second heart field (SHF) development; and 5) role of CCM3 signalling in cranial vasculature development.

One or more keywords matched the following items that are connected to Scott, Ian

Item TypeName
Concept Government Regulation
Concept Gene Expression Regulation, Enzymologic
Concept Gene Expression Regulation, Developmental
Concept Gene Expression Regulation
Academic Article Developmental biology: twisting the body into shape.
Academic Article The Hand1, Stra13 and Gcm1 transcription factors override FGF signaling to promote terminal differentiation of trophoblast stem cells.
Academic Article A mutation in zebrafish hmgcr1b reveals a role for isoprenoids in vertebrate heart-tube formation.
Academic Article The g protein-coupled receptor agtrl1b regulates early development of myocardial progenitors.
Academic Article Expression and comparative genomics of two serum response factor genes in zebrafish.
Academic Article Genetic and physiologic dissection of the vertebrate cardiac conduction system.
Academic Article Mef2cb regulates late myocardial cell addition from a second heart field-like population of progenitors in zebrafish.
Academic Article Smarcd3b and Gata5 promote a cardiac progenitor fate in the zebrafish embryo.
Academic Article Glucocorticoid receptor signaling is essential for mesoderm formation and muscle development in zebrafish.
Academic Article The basic helix-loop-helix transcription factor Hand1 regulates mouse development as a homodimer.
Academic Article Anisotropic stress orients remodelling of mammalian limb bud ectoderm.
Academic Article Med14 cooperates with brg1 in the differentiation of skeletogenic neural crest.
Academic Article Restrictions on the Importation of Zebrafish into Canada Associated with Spring Viremia of Carp Virus.
Academic Article The HAND1 basic helix-loop-helix transcription factor regulates trophoblast differentiation via multiple mechanisms.
Academic Article The DEAD-box RNA helicase Ddx39ab is essential for myocyte and lens development in zebrafish.
Academic Article Hey2 regulates the size of the cardiac progenitor pool during vertebrate heart development.
Academic Article Heart enhancers with deeply conserved regulatory activity are established early in zebrafish development.

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