Add to ORKGAn important but largely unmet challenge in understanding the mechanisms that govern the formation of specific organs is to decipher the complex and dynamic genetic programs exhibited by the diversity of cell types within the tissue of interest. Here, we use an integrated genetic, genomic, and computational strategy to comprehensively determine the molecular identities of distinct myoblast subpopulations within the Drosophila embryonic mesoderm at the time that cell fates are initially specified. A compendium of gene expression profiles was generated for primary mesodermal cells purified by flow cytometry from appropriately staged wild-type embryos and from 12 genotypes in which myogenesis was selectively and predictably perturbed. A statis...
Skeletal muscles are formed in numerous shapes and sizes, and this diversity impacts function and di...
SummaryIn all metazoan organisms, the diversification of cell types involves determination of cell f...
Understanding how sets of genes are coordinately regulated in space and time to generate the diversi...
It is unknown how the general patterning mechanisms that subdivide the mesoderm initiate different p...
Skeletal muscle development occurs asynchronously and it has been proposed to be dependent upon the ...
AbstractSkeletal muscle development occurs asynchronously and it has been proposed to be dependent u...
International audienceUnderstanding gene regulatory pathways underlying diversification of cell type...
ABSTRACT: BACKGROUND: Cell and tissue specific gene expression is a defining feature of embryonic de...
The transcription factor Twist initiates Drosophila mesoderm development, resulting in the formation...
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouv...
International audienceDrosophila embryonic somatic muscles represent a simple and tractable model sy...
Muscle fibers are multinucleated cells that arise during embryogenesis through the fusion of mononuc...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
Muscle fibers are multinucleated cells that arise during embryogenesis through the fusion of mononuc...
AbstractIt is unknown how the general patterning mechanisms that subdivide the mesoderm initiate dif...
Skeletal muscles are formed in numerous shapes and sizes, and this diversity impacts function and di...
SummaryIn all metazoan organisms, the diversification of cell types involves determination of cell f...
Understanding how sets of genes are coordinately regulated in space and time to generate the diversi...
It is unknown how the general patterning mechanisms that subdivide the mesoderm initiate different p...
Skeletal muscle development occurs asynchronously and it has been proposed to be dependent upon the ...
AbstractSkeletal muscle development occurs asynchronously and it has been proposed to be dependent u...
International audienceUnderstanding gene regulatory pathways underlying diversification of cell type...
ABSTRACT: BACKGROUND: Cell and tissue specific gene expression is a defining feature of embryonic de...
The transcription factor Twist initiates Drosophila mesoderm development, resulting in the formation...
La diversité morphologique des muscles squelettiques permet la précision et la coordination des mouv...
International audienceDrosophila embryonic somatic muscles represent a simple and tractable model sy...
Muscle fibers are multinucleated cells that arise during embryogenesis through the fusion of mononuc...
The mechanisms that determine the final topology of skeletal muscles remain largely unknown. We have...
Muscle fibers are multinucleated cells that arise during embryogenesis through the fusion of mononuc...
AbstractIt is unknown how the general patterning mechanisms that subdivide the mesoderm initiate dif...
Skeletal muscles are formed in numerous shapes and sizes, and this diversity impacts function and di...
SummaryIn all metazoan organisms, the diversification of cell types involves determination of cell f...
Understanding how sets of genes are coordinately regulated in space and time to generate the diversi...