AbstractIn vertebrates, paraxial mesoderm is partitioned into repeating units called somites. It is thought that the mechanical forces arising from compaction of the presumptive internal cells of prospective somites cause them to detach from the unsegmented presomitic mesoderm [1–3]. To determine how prospective somites physically segregate from each other, we used time-lapse microscopy to analyze the mechanics underlying early somitogenesis in wild-type zebrafish and in the mutants trilobitem209 (tri), knypekm119 (kny), and kny;tri, which are defective in convergent extension during gastrulation. Formation of somite boundaries in all of these embryos involved segregation, local alignment, and cell-shape changes of presumptive epitheloid bo...
SummaryBoundary formation and epithelialization are crucial processes in the morphological segmentat...
The myogenic precursors responsible for muscle growth in amniotes develop from thedermomyotome, an e...
AbstractThe process of gastrulation is highly conserved across vertebrates on both the genetic and m...
AbstractIn vertebrates, paraxial mesoderm is partitioned into repeating units called somites. It is ...
In vertebrate embryos the presomitic mesoderm becomes progressively segmented into somites at the an...
SummarySomitogenesis is the process by which the segmented precursors of the skeletal muscle and ver...
AbstractThe first morphological sign of vertebrate postcranial body segmentation is the sequential p...
The body axis of vertebrates is subdivided into repetitive compartments called somites, which give r...
AbstractThe most obvious segmental structures in the vertebrate embryo are somites: transient struct...
SummarySomites are transient, mesodermally derived structures that give rise to a number of differen...
International audienceDuring vertebrate gastrulation, convergence and extension (C&E) movements narr...
In vertebrate embryos, a process called somitogenesis lays the foundations of the adult spine. This ...
Somitogenesis is the basis of segmentation of the mesoderm in the trunk and tail of vertebrate embry...
The body axis of vertebrate embryos is periodically segmented into bilaterally symmetric pairs of so...
In amniote embryos, the process of segmentation generates epithelialised somites sequentially, in he...
SummaryBoundary formation and epithelialization are crucial processes in the morphological segmentat...
The myogenic precursors responsible for muscle growth in amniotes develop from thedermomyotome, an e...
AbstractThe process of gastrulation is highly conserved across vertebrates on both the genetic and m...
AbstractIn vertebrates, paraxial mesoderm is partitioned into repeating units called somites. It is ...
In vertebrate embryos the presomitic mesoderm becomes progressively segmented into somites at the an...
SummarySomitogenesis is the process by which the segmented precursors of the skeletal muscle and ver...
AbstractThe first morphological sign of vertebrate postcranial body segmentation is the sequential p...
The body axis of vertebrates is subdivided into repetitive compartments called somites, which give r...
AbstractThe most obvious segmental structures in the vertebrate embryo are somites: transient struct...
SummarySomites are transient, mesodermally derived structures that give rise to a number of differen...
International audienceDuring vertebrate gastrulation, convergence and extension (C&E) movements narr...
In vertebrate embryos, a process called somitogenesis lays the foundations of the adult spine. This ...
Somitogenesis is the basis of segmentation of the mesoderm in the trunk and tail of vertebrate embry...
The body axis of vertebrate embryos is periodically segmented into bilaterally symmetric pairs of so...
In amniote embryos, the process of segmentation generates epithelialised somites sequentially, in he...
SummaryBoundary formation and epithelialization are crucial processes in the morphological segmentat...
The myogenic precursors responsible for muscle growth in amniotes develop from thedermomyotome, an e...
AbstractThe process of gastrulation is highly conserved across vertebrates on both the genetic and m...