RRC ID 19383
著者 Lauschke VM, Tsiairis CD, François P, Aulehla A.
タイトル Scaling of embryonic patterning based on phase-gradient encoding.
ジャーナル Nature
Abstract A fundamental feature of embryonic patterning is the ability to scale and maintain stable proportions despite changes in overall size, for instance during growth. A notable example occurs during vertebrate segment formation: after experimental reduction of embryo size, segments form proportionally smaller, and consequently, a normal number of segments is formed. Despite decades of experimental and theoretical work, the underlying mechanism remains unknown. More recently, ultradian oscillations in gene activity have been linked to the temporal control of segmentation; however, their implication in scaling remains elusive. Here we show that scaling of gene oscillation dynamics underlies segment scaling. To this end, we develop a new experimental model, an ex vivo primary cell culture assay that recapitulates mouse mesoderm patterning and segment scaling, in a quasi-monolayer of presomitic mesoderm cells (hereafter termed monolayer PSM or mPSM). Combined with real-time imaging of gene activity, this enabled us to quantify the gradual shift in the oscillation phase and thus determine the resulting phase gradient across the mPSM. Crucially, we show that this phase gradient scales by maintaining a fixed amplitude across mPSM of different lengths. We identify the slope of this phase gradient as a single predictive parameter for segment size, which functions in a size- and temperature-independent manner, revealing a hitherto unrecognized mechanism for scaling. Notably, in contrast to molecular gradients, a phase gradient describes the distribution of a dynamical cellular state. Thus, our phase-gradient scaling findings reveal a new level of dynamic information-processing, and provide evidence for the concept of phase-gradient encoding during embryonic patterning and scaling.
巻・号 493(7430)
ページ 101-5
公開日 2013-1-3
DOI 10.1038/nature11804
PII nature11804
PMID 23254931
MeSH Animals Body Patterning / physiology* Body Size* Cells, Cultured Cues Embryo, Mammalian / anatomy & histology* Embryo, Mammalian / cytology Embryo, Mammalian / embryology* Gene Expression Regulation, Developmental In Vitro Techniques Mesoderm / anatomy & histology* Mesoderm / cytology Mesoderm / embryology* Mice Models, Biological* Temperature
IF 42.779
引用数 91
WOS 分野 DEVELOPMENTAL BIOLOGY
リソース情報
実験動物マウス RBRC01862