雌雄异株植物白剪秋罗发育中的雄花和雌花中MADS盒基因表达的比较。

Comparison of MADS box gene expression in developing male and female flowers of the dioecious plant white campion.

作者信息

Hardenack S, Ye D, Saedler H, Grant S

机构信息

Max-Planck-Institut für Züchtungsforschung, Cologne, Germany.

出版信息

Plant Cell. 1994 Dec;6(12):1775-87. doi: 10.1105/tpc.6.12.1775.

DOI:10.1105/tpc.6.12.1775

PMID:7866023

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC160561/

Abstract

The MADS box motif is common to genes that regulate the pattern of flower development. To determine whether MADS box genes also play a role in differentiation of the sexes in dioecious plants, we isolated cDNAs (SLM1 to SLM5, for Silene latifolia MADS) with MADS box homology from transcripts of male flower buds of the model dioecious species white campion and compared their expression in developing female and male flowers. SLM1 had extensive sequence similarity to the snapdragon MADS box gene PLENA, SLM2 to GLOBOSA, SLM3 to DEFICIENS, and both SLM4 and SLM5 were similar to SQUAMOSA. Each of the white campion MADS box genes was expressed in the same floral whorls as their respective most homologous snapdragon genes. The sex of the plant affected the pattern of SLM2 and SLM3 expression in the petal and stamen whorls, resulting in a smaller fourth whorl in male flowers than in female flowers. This was correlated with repressed gynoecium development in male flowers. The expression of SLM4 and SLM5 in both sexes differed from that of SQUAMOSA in one important aspect. Unlike SQUAMOSA, they were expressed in inflorescence meristems. This may reflect differences in growth pattern between white campion and snapdragon.

摘要

MADS盒基序在调控花发育模式的基因中很常见。为了确定MADS盒基因在雌雄异株植物的性别分化中是否也起作用，我们从模式雌雄异株物种白剪秋萝雄花芽的转录本中分离出具有MADS盒同源性的cDNA（SLM1至SLM5，代表白剪秋萝MADS），并比较它们在发育中的雌花和雄花中的表达。SLM1与金鱼草MADS盒基因PLENA具有广泛的序列相似性，SLM2与GLOBOSA相似，SLM3与DEFICIENS相似，SLM4和SLM5都与SQUAMOSA相似。白剪秋萝的每个MADS盒基因都在与其各自最同源的金鱼草基因相同的花轮中表达。植株的性别影响了SLM2和SLM3在花瓣和雄蕊轮中的表达模式，导致雄花中的第四轮比雌花中的小。这与雄花中雌蕊发育受抑制相关。SLM4和SLM5在两性中的表达在一个重要方面与SQUAMOSA不同。与SQUAMOSA不同，它们在花序分生组织中表达。这可能反映了白剪秋萝和金鱼草之间生长模式的差异。

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本文引用的文献

Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus.金鱼草中同源异型基因对花发育的遗传控制

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The mechanism of sex determination in dioecious flowering plants.雌雄异株开花植物的性别决定机制。

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