血管复杂性和连通性基因编码一种胚胎原维管系统发育所需的植物特异性蛋白质。

The VASCULATURE COMPLEXITY AND CONNECTIVITY gene encodes a plant-specific protein required for embryo provasculature development.

作者信息

Roschzttardtz Hannetz, Paez-Valencia Julio, Dittakavi Tejaswi, Jali Sathya, Reyes Francisca C, Baisa Gary, Anne Pauline, Gissot Lionel, Palauqui Jean-Christophe, Masson Patrick H, Bednarek Sebastian Y, Otegui Marisa S

机构信息

Department of Botany (H.R., J.P.-V., T.D., F.C.R., M.S.O.), Department of Genetics (S.J., P.H.M., M.S.O.), and Department of Biochemistry (G.B., S.Y.B.), University of Wisconsin, Madison, Wisconsin 53706;Great Lakes Bioenergy Research Center, Madison, Wisconsin 53706 (H.R., S.J., G.B.); andInstitut National de la Recherche Agronomique and AgroParisTech, Institut Jean-Pierre Bourgin, Unité Mixte de Recherche 1318, Saclay Plant Science, 78000 Versailles, France (P.A., L.G., J.-C.P.)

出版信息

Plant Physiol. 2014 Oct;166(2):889-902. doi: 10.1104/pp.114.246314. Epub 2014 Aug 22.

DOI:10.1104/pp.114.246314

PMID:25149602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4213116/

Abstract

The molecular mechanisms by which vascular tissues acquire their identities are largely unknown. Here, we report on the identification and characterization of VASCULATURE COMPLEXITY AND CONNECTIVITY (VCC), a member of a 15-member, plant-specific gene family in Arabidopsis (Arabidopsis thaliana) that encodes proteins of unknown function with four predicted transmembrane domains. Homozygous vcc mutants displayed cotyledon vein networks of reduced complexity and disconnected veins. Similar disconnections or gaps were observed in the provasculature of vcc embryos, indicating that defects in vein connectivity appear early in mutant embryo development. Consistently, the overexpression of VCC leads to an unusually high proportion of cotyledons with high-complexity vein networks. Neither auxin distribution nor the polar localization of the auxin efflux carrier were affected in vcc mutant embryos. Expression of VCC was detected in developing embryos and procambial, cambial, and vascular cells of cotyledons, leaves, roots, hypocotyls, and anthers. To evaluate possible genetic interactions with other genes that control vasculature patterning in embryos, we generated a double mutant for VCC and OCTOPUS (OPS). The vcc ops double mutant embryos showed a complete loss of high-complexity vascular networks in cotyledons and a drastic increase in both provascular and vascular disconnections. In addition, VCC and OPS interact physically, suggesting that VCC and OPS are part of a complex that controls cotyledon vascular complexity.

摘要

维管组织获得其特性的分子机制在很大程度上尚不清楚。在此，我们报告了维管系统复杂性与连通性（VCC）的鉴定和特征，它是拟南芥中一个由15个成员组成的植物特异性基因家族的成员，该家族编码具有四个预测跨膜结构域、功能未知的蛋白质。纯合vcc突变体的子叶叶脉网络复杂性降低且叶脉断开。在vcc突变体胚胎的原形成层中也观察到类似的断开或间隙，这表明叶脉连通性缺陷在突变体胚胎发育早期就已出现。一致地，VCC的过表达导致具有高复杂性叶脉网络的子叶比例异常高。在vcc突变体胚胎中，生长素分布和生长素输出载体的极性定位均未受影响。在发育中的胚胎以及子叶、叶片、根、下胚轴和花药的原形成层、形成层和维管细胞中检测到了VCC的表达。为了评估与其他控制胚胎维管系统模式的基因可能存在的遗传相互作用，我们构建了VCC和章鱼（OPS）的双突变体。vcc ops双突变体胚胎的子叶中完全丧失了高复杂性维管网络，并且原形成层和维管的断开都急剧增加。此外，VCC和OPS存在物理相互作用，这表明VCC和OPS是控制子叶维管系统复杂性的复合体的一部分。

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