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GLUCAN SYNTHASE-LIKE8 和 STEROL METHYLTRANSFERASE2 对于拟南芥有性生殖系统的倍性一致性是必需的。

GLUCAN SYNTHASE-LIKE8 and STEROL METHYLTRANSFERASE2 are required for ploidy consistency of the sexual reproduction system in Arabidopsis.

机构信息

In Vitro Biology and Horticulture, Department of Plant Production, University of Ghent, 9000 Ghent, Belgium.

出版信息

Plant Cell. 2013 Feb;25(2):387-403. doi: 10.1105/tpc.112.106278. Epub 2013 Feb 12.

DOI:10.1105/tpc.112.106278
PMID:23404886
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3608767/
Abstract

In sexually reproducing plants, the meiocyte-producing archesporal cell lineage is maintained at the diploid state to consolidate the formation of haploid gametes. In search of molecular factors that regulate this ploidy consistency, we isolated an Arabidopsis thaliana mutant, called enlarged tetrad2 (et2), which produces tetraploid meiocytes through the stochastic occurrence of premeiotic endomitosis. Endomitotic polyploidization events were induced by alterations in cell wall formation, and similar cytokinetic defects were sporadically observed in other tissues, including cotyledons and leaves. ET2 encodes GLUCAN SYNTHASE-LIKE8 (GSL8), a callose synthase that mediates the deposition of callose at developing cell plates, root hairs, and plasmodesmata. Unlike other gsl8 mutants, in which defects in cell plate formation are seedling lethal, cytokinetic defects in et2 predominantly occur in flowers and have little effect on vegetative growth and development. Similarly, mutations in STEROL METHYLTRANSFERASE2 (SMT2), a major sterol biosynthesis enzyme, also lead to weak cytokinetic defects, primarily in the flowers. In addition, SMT2 allelic mutants also generate tetraploid meiocytes through the ectopic induction of premeiotic endomitosis. These observations demonstrate that appropriate callose and sterol biosynthesis are required for maintaining the ploidy level of the premeiotic germ lineage and that subtle defects in cytokinesis may lead to diploid gametes and polyploid offspring.

摘要

在有性繁殖的植物中,减数分裂产生的孢原细胞系保持二倍体状态,以巩固单倍体配子的形成。为了寻找调控这种倍性一致性的分子因素,我们分离到一个拟南芥突变体,称为四分体增大 2 型(et2),该突变体通过有丝分裂末期的随机内有丝分裂产生四倍体减数分裂细胞。有丝分裂多倍化事件是由细胞壁形成的改变引起的,类似的胞质分裂缺陷在其他组织中也偶尔观察到,包括子叶和叶片。ET2 编码 GLUCAN SYNTHASE-LIKE8(GSL8),这是一种参与在发育中的细胞板、根毛和胞间连丝处沉积胼胝质的几丁质合成酶。与其他 gsl8 突变体不同,细胞板形成缺陷在幼苗中是致死的,而 et2 中的胞质分裂缺陷主要发生在花朵中,对营养生长和发育几乎没有影响。同样,甾醇甲基转移酶 2(SMT2)的突变,一种主要的固醇生物合成酶,也导致弱的胞质分裂缺陷,主要发生在花朵中。此外,SMT2 等位基因突变体也通过有丝分裂末期的异位诱导产生四倍体减数分裂细胞。这些观察结果表明,适当的胼胝质和固醇生物合成对于维持减数分裂前生殖系的倍性水平是必需的,而胞质分裂的细微缺陷可能导致二倍体配子和多倍体后代。

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