负责亚洲和非洲稻种间生殖隔离的性别独立的传递比率畸变系统。

Sex-independent transmission ratio distortion system responsible for reproductive barriers between Asian and African rice species.

作者信息

Koide Yohei, Onishi Kazumitsu, Nishimoto Daisuke, Baruah Akhil Ranjan, Kanazawa Akira, Sano Yoshio

机构信息

Plant Breeding Laboratory, Research Faculty of Agriculture, Hokkaido University, Sapporo 060-8589, Japan.

Laboratory of Cell Biology and Manipulation, Research Faculty of Agriculture, Hokkaido University, Sapporo 060-8589, Japan.

出版信息

New Phytol. 2008;179(3):888-900. doi: 10.1111/j.1469-8137.2008.02490.x. Epub 2008 May 27.

DOI:10.1111/j.1469-8137.2008.02490.x

PMID:18507773

Abstract

A sex-independent transmission ratio distortion (siTRD) system detected in the interspecific cross in rice was analyzed in order to understand its significance in reproductive barriers. The S(1) gene, derived from African rice Oryza glaberrima, induced preferential abortion of both male and female gametes possessing its allelic alternative (), from Asian rice O. sativa, only in the heterozygote. * The siTRD was characterized by resolving it into mTRD and fTRD occurring through male and female gametes, respectively, cytological analysis of gametophyte development, and mapping of the S(1) locus using near-isogenic lines. The allelic distribution of the S(1) locus in Asian and African rice species complexes was also analyzed. * The siTRD system involved at least two components affecting male and female gametogeneses, respectively, including a modifier(s) that enhances fTRD. The chromosomal location of the major component causing the mTRD was delimited within an approx. 40 kb region. The S(1) locus induced hybrid sterility in any pairwise combination between Asian and African rice species complexes. * The allelic state of the S(1) locus has diverged between Asian and African rice species complexes, suggesting that the TRD system has a significant role in the reproductive barriers in rice.

摘要

为了解水稻种间杂交中检测到的性别独立的传递率畸变（siTRD）系统在生殖障碍中的意义，对其进行了分析。源自非洲稻光稃稻的S(1)基因，仅在杂合子中导致具有其等位基因变体（来自亚洲稻栽培稻）的雄配子和雌配子优先败育。
通过将siTRD分别解析为通过雄配子和雌配子发生的雄TRD和雌TRD、配子体发育的细胞学分析以及使用近等基因系对S(1)位点进行定位，对siTRD进行了表征。还分析了S(1)位点在亚洲和非洲稻种复合体中的等位基因分布。
siTRD系统至少涉及分别影响雄配子发生和雌配子发生的两个成分，包括一个增强雌TRD的修饰因子。导致雄TRD的主要成分位于大约40 kb的区域内。S(1)位点在亚洲和非洲稻种复合体之间的任何成对组合中都会导致杂种不育。
S(1)位点的等位基因状态在亚洲和非洲稻种复合体之间已经发生了分化，这表明TRD系统在水稻的生殖障碍中具有重要作用。

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负责亚洲和非洲稻种间生殖隔离的性别独立的传递比率畸变系统。

Sex-independent transmission ratio distortion system responsible for reproductive barriers between Asian and African rice species.

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