超级女性1-闭花受精，转基因水稻基因控制的一个有前景的等位基因。

superwoman1-cleistogamy, a hopeful allele for gene containment in GM rice.

作者信息

Yoshida Hitoshi, Itoh Jun-Ichi, Ohmori Shinnosuke, Miyoshi Kazumaru, Horigome Ayako, Uchida Eiji, Kimizu Mayumi, Matsumura Yoko, Kusaba Makoto, Satoh Hikaru, Nagato Yasuo

机构信息

Hokuriku Research Center, National Agricultural Research Center, Niigata 943-0193, Japan.

出版信息

Plant Biotechnol J. 2007 Nov;5(6):835-46. doi: 10.1111/j.1467-7652.2007.00291.x. Epub 2007 Aug 31.

DOI:10.1111/j.1467-7652.2007.00291.x

PMID:17764519

Abstract

Cleistogamy is an efficient strategy for preventing gene flow from genetically modified (GM) crops. We identified a cleistogamous mutant of rice harbouring a missense mutation (the 45th residue isoleucine to threonine; I45T) in the class-B MADS-box gene SUPERWOMAN1 (SPW1), which specifies the identities of lodicules (equivalent to petals) and stamens. In the mutant, spw1-cls, the stamens are normal, but the lodicules are transformed homeotically to lodicule-glume mosaic organs, thereby engendering cleistogamy. Since this mutation does not affect other agronomic traits, it can be used in crosses to produce transgenic lines that do not cause environmental perturbation. Molecular analysis revealed that the reduced heterodimerization ability of SPW1(I45T) with its counterpart class-B proteins OsMADS2 and OsMADS4 caused altered lodicule identity. spw1-cls is the first useful mutant for practical gene containment in GM rice. Cleistogamy is possible in many cereals by engineering class-B floral homeotic genes and thereby inducing lodicule identity changes.

摘要

闭花受精是防止转基因作物基因流动的一种有效策略。我们鉴定出一个水稻闭花受精突变体，其B类MADS盒基因SUPERWOMAN1（SPW1）存在错义突变（第45位残基异亮氨酸突变为苏氨酸；I45T），该基因决定浆片（相当于花瓣）和雄蕊的特性。在突变体spw1-cls中，雄蕊正常，但浆片同源异型转化为浆片-颖片镶嵌器官，从而导致闭花受精。由于这种突变不影响其他农艺性状，它可用于杂交以产生不会引起环境扰动的转基因品系。分子分析表明，SPW1（I45T）与其对应的B类蛋白OsMADS2和OsMADS4的异源二聚化能力降低，导致浆片特性改变。spw1-cls是转基因水稻实际基因遏制的首个有用突变体。通过对B类花同源异型基因进行工程改造，从而诱导浆片特性变化，许多谷类作物都有可能实现闭花受精。

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超级女性1-闭花受精，转基因水稻基因控制的一个有前景的等位基因。

superwoman1-cleistogamy, a hopeful allele for gene containment in GM rice.

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