一个受罗伯逊变异体调控的、参与光合膜组织的玉米基因的分子克隆。

Molecular cloning of a maize gene involved in photosynthetic membrane organization that is regulated by Robertson's Mutator.

作者信息

Martienssen R A, Barkan A, Freeling M, Taylor W C

机构信息

Department of Genetics, University of California, Berkeley 94720.

出版信息

EMBO J. 1989 Jun;8(6):1633-9. doi: 10.1002/j.1460-2075.1989.tb03553.x.

DOI:10.1002/j.1460-2075.1989.tb03553.x

PMID:2548850

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC401002/

Abstract

The maize photosynthetic mutant hcf106 has a distinctive and unusual thylakoid membrane organization, and fails to accumulate three of the five thylakoid membrane protein complexes. This mutant arose in a Robertson's Mutator background, and shows somatic instability typical of a transposon-induced allele. In addition, hcf106 is suppressed when Mu1 elements are inactive and modified in their terminal inverted repeats. Thus plants homozygous for the mutant allele adopt a mutant phenotype only when Mu1 elements are active and unmodified. DNA from the mutant allele has been cloned by 'transposon-tagging' using the transposon Mu1, and the identity of the clone confirmed by observing somatic excision of the transposon in a revertant sector. A 1.2 kb transcript homologous to the cloned DNA is found in wild-type and suppressed seedlings, but is not found in mutant seedlings, suggesting that suppression is mediated at the level of transcript accumulation.

摘要

玉米光合突变体hcf106具有独特且异常的类囊体膜结构，并且无法积累五种类囊体膜蛋白复合物中的三种。该突变体出现在罗伯逊突变体背景中，表现出转座子诱导等位基因典型的体细胞不稳定性。此外，当Mu1元件无活性且其末端反向重复序列发生修饰时，hcf106会受到抑制。因此，只有当Mu1元件有活性且未修饰时，突变等位基因的纯合植株才会呈现突变表型。通过使用转座子Mu1进行“转座子标签法”克隆了来自突变等位基因的DNA，并通过观察回复突变区中转座子的体细胞切除来确认克隆的身份。在野生型和受抑制的幼苗中发现了与克隆DNA同源的1.2 kb转录本，但在突变幼苗中未发现，这表明抑制作用是在转录本积累水平上介导的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9192/401002/898399b88521/emboj00130-0010-a.jpg

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一个受罗伯逊变异体调控的、参与光合膜组织的玉米基因的分子克隆。

Molecular cloning of a maize gene involved in photosynthetic membrane organization that is regulated by Robertson's Mutator.

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