表面曲率的遗传控制。

Genetic control of surface curvature.

作者信息

Nath Utpal, Crawford Brian C W, Carpenter Rosemary, Coen Enrico

机构信息

Department of Cell and Developmental Biology, John Innes Centre, Norwich Research Park, Norwich, NR4 7UH, UK.

出版信息

Science. 2003 Feb 28;299(5611):1404-7. doi: 10.1126/science.1079354.

DOI:10.1126/science.1079354

PMID:12610308

Abstract

Although curvature of biological surfaces has been considered from mathematical and biophysical perspectives, its molecular and developmental basis is unclear. We have studied the cin mutant of Antirrhinum, which has crinkly rather than flat leaves. Leaves of cin display excess growth in marginal regions, resulting in a gradual introduction of negative curvature during development. This reflects a change in the shape and the progression of a cell-cycle arrest front moving from the leaf tip toward the base. CIN encodes a TCP protein and is expressed downstream of the arrest front. We propose that CIN promotes zero curvature (flatness) by making cells more sensitive to an arrest signal, particularly in marginal regions.

摘要

尽管已经从数学和生物物理学角度对生物表面的曲率进行了研究，但其分子和发育基础仍不清楚。我们研究了金鱼草的cin突变体，其叶片卷曲而非扁平。cin突变体的叶片在边缘区域过度生长，导致在发育过程中逐渐引入负曲率。这反映了细胞周期停滞前沿从叶尖向基部移动时形状和进程的变化。CIN编码一种TCP蛋白，并在停滞前沿的下游表达。我们提出，CIN通过使细胞对停滞信号更敏感来促进零曲率（平整度），尤其是在边缘区域。

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表面曲率的遗传控制。

Genetic control of surface curvature.

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