AbstractVertebrate segmentation relies on a molecular oscillator, the segmentation clock, which controls the periodic expression of genes such as lunatic fringe in the presomitic mesoderm. Oscillations of lunatic fringe transcripts have now been shown to be controlled at the transcriptional level by clock elements in the lunatic fringe promoter
AbstractThe periodic formation of somites during vertebrate segmentation has been suggested to invol...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
AbstractVertebrate segmentation relies on a molecular oscillator, the segmentation clock, which cont...
AbstractA molecular oscillator regulates the pace of vertebrate segmentation. Here, we show that the...
AbstractA molecular oscillator regulates the pace of vertebrate segmentation. Here, we show that the...
AbstractThe periodic formation of somites during vertebrate segmentation has been suggested to invol...
AbstractThe most obvious segments of the vertebrate embryo are the trunk mesodermal somites which gi...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
AbstractThe most obvious segments of the vertebrate embryo are the trunk mesodermal somites which gi...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
AbstractDuring vertebrate segmentation, oscillatory activation of Notch signaling is important in th...
The segmented aspect of the vertebrate body plan first arises through the sequential formation of so...
The segmental pattern of the spine is established early in development, when the vertebral precursor...
AbstractThe periodic formation of somites during vertebrate segmentation has been suggested to invol...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
AbstractVertebrate segmentation relies on a molecular oscillator, the segmentation clock, which cont...
AbstractA molecular oscillator regulates the pace of vertebrate segmentation. Here, we show that the...
AbstractA molecular oscillator regulates the pace of vertebrate segmentation. Here, we show that the...
AbstractThe periodic formation of somites during vertebrate segmentation has been suggested to invol...
AbstractThe most obvious segments of the vertebrate embryo are the trunk mesodermal somites which gi...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
AbstractThe most obvious segments of the vertebrate embryo are the trunk mesodermal somites which gi...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
The most obvious segments of the vertebrate embryo are the trunk mesodermal somites which give rise ...
AbstractDuring vertebrate segmentation, oscillatory activation of Notch signaling is important in th...
The segmented aspect of the vertebrate body plan first arises through the sequential formation of so...
The segmental pattern of the spine is established early in development, when the vertebral precursor...
AbstractThe periodic formation of somites during vertebrate segmentation has been suggested to invol...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
International audienceSegmentation Transcriptional elongation Timing Oscillators Pattern formation A...
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