Add to ORKGThe muscle segments of fish have a folded shape, termed a chevron, which is thought to be optimal for the undulating body movements of swimming. However, the mechanism shaping the chevron during embryogenesis is not understood. Here, we used time-lapse microscopy of developing zebrafish embryos spanning the entire somitogenesis period to quantify the dynamics of chevron shape development. By comparing such time courses with the start of movements in wildtype zebrafish and analysing immobile mutants, we show that the previously implicated body movements do not play a role in chevron formation. Further, the monotonic increase of chevron angle along the anteroposterior axis revealed by our data constrains or rules out possible contributions by...
One of the central questions of developmental biology is how cells of equivalent potential-an equiva...
One of the central questions of developmental biology is how cells of equivalent potentiala??an equi...
Fish larvae, like most adult fish, undulate their bodies to propel themselves. A detailed kinematic ...
The muscle segments of fish have a folded shape, termed a chevron, which is thought to be optimal fo...
The body segments of fish have a folded shape, called chevron, which is obvious from the oblique ori...
AbstractThe most obvious segmental structures in the vertebrate embryo are somites: transient struct...
AbstractEmbryonic morphogenesis takes place via a series of dramatic collective cell movements. The ...
The body axis of vertebrates is subdivided into repetitive compartments called somites, which give r...
The development and growth of vertebrate axial muscle have been studied for decades at both the desc...
The fast muscle fibres in the anterior trunk of teleost fish are primarily responsible for large amp...
Movements are important. When animals move, they exert mechanical load on their bodies and their mus...
Developmental biologists try to elucidate how it is possible for cells, all originating from the sam...
SummarySomites are transient, mesodermally derived structures that give rise to a number of differen...
The process of gastrulation is highly conserved across vertebrates on both the genetic and morpholog...
Classic microsurgical techniques, such as those used in the early 1900s by Mangold and Spemann, have...
One of the central questions of developmental biology is how cells of equivalent potential-an equiva...
One of the central questions of developmental biology is how cells of equivalent potentiala??an equi...
Fish larvae, like most adult fish, undulate their bodies to propel themselves. A detailed kinematic ...
The muscle segments of fish have a folded shape, termed a chevron, which is thought to be optimal fo...
The body segments of fish have a folded shape, called chevron, which is obvious from the oblique ori...
AbstractThe most obvious segmental structures in the vertebrate embryo are somites: transient struct...
AbstractEmbryonic morphogenesis takes place via a series of dramatic collective cell movements. The ...
The body axis of vertebrates is subdivided into repetitive compartments called somites, which give r...
The development and growth of vertebrate axial muscle have been studied for decades at both the desc...
The fast muscle fibres in the anterior trunk of teleost fish are primarily responsible for large amp...
Movements are important. When animals move, they exert mechanical load on their bodies and their mus...
Developmental biologists try to elucidate how it is possible for cells, all originating from the sam...
SummarySomites are transient, mesodermally derived structures that give rise to a number of differen...
The process of gastrulation is highly conserved across vertebrates on both the genetic and morpholog...
Classic microsurgical techniques, such as those used in the early 1900s by Mangold and Spemann, have...
One of the central questions of developmental biology is how cells of equivalent potential-an equiva...
One of the central questions of developmental biology is how cells of equivalent potentiala??an equi...
Fish larvae, like most adult fish, undulate their bodies to propel themselves. A detailed kinematic ...