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发现并鉴定了一个新型的无绒棉-like 突变体(Lix),与四倍体棉花中的无绒棉(Li1)类似。

Discovery and identification of a novel Ligon lintless-like mutant (Lix) similar to the Ligon lintless (Li1) in allotetraploid cotton.

机构信息

National Key Laboratory of Crop Genetics and Germplasm Enhancement, Cotton Research Institute, Nanjing Agricultural University, Nanjing 210095, Jiangsu Province, People's Republic of China.

出版信息

Theor Appl Genet. 2013 Apr;126(4):963-70. doi: 10.1007/s00122-012-2029-x. Epub 2013 Feb 9.

DOI:10.1007/s00122-012-2029-x
PMID:23397278
Abstract

Mutants are a powerful resource for studying gene structure, function, and evolution. In this present study, a novel Ligon lintless-like mutant (Lix), that has short fibers and deformed leaves and stems, was isolated from the progeny of transgenic cottons. The Lix mutant is similar in morphology to the Ligon lintless (Li1) mutant. Genetic analysis and molecular mapping were performed for the Lix and Li1 mutants. These two mutants are monogenic dominant mutants with distorted growth of vegetative and reproductive structures. Seedlings of the dominant homozygote Li 1 Li 1 genotype are lethal, while LixLix plants are viable but show no reproductive growth. Molecular tagging showed that the Lix gene is located on Chr. 04 in a 30.9-cM region spanned by NAU8376 and NAU3469. In a previous study, the Li 1 gene was mapped to Chr. 22, and Chr. 04 and Chr. 22 are homoelogous chromosomes in tetraploid cotton. So, we propose that Lix and Li1 mutants have similar mutated morphology, and Lix is mapped to a homoelogous chromosome carrying Li 1 . The identification and genetic mapping of Lix/Li 1 genes using mutants provides a foundation for isolating these genes. In turn, this will permit studies to elucidate the functional and evolutionary roles for these genes in cotton growth and development.

摘要

突变体是研究基因结构、功能和进化的有力资源。本研究从转基棉花的后代中分离出一种新型 Ligon lintless-like 突变体(Lix),其纤维短,叶片和茎变形。Lix 突变体在形态上与 Ligon lintless(Li1)突变体相似。对 Lix 和 Li1 突变体进行了遗传分析和分子图谱构建。这两个突变体都是单基因显性突变体,具有生殖和营养器官生长畸形的特点。显性纯合子 Li1Li1 基因型的幼苗是致死的,而 LixLix 植株是有活力的,但没有生殖生长。分子标记表明,Lix 基因位于 Chr.04 上,由 NAU8376 和 NAU3469 跨越的 30.9-cM 区域。在之前的研究中,Li1 基因被定位到 Chr.22,而 Chr.04 和 Chr.22 是四倍体棉花的同源染色体。因此,我们提出 Lix 和 Li1 突变体具有相似的突变形态,Lix 被定位到携带 Li1 的同源染色体上。利用突变体鉴定和遗传定位 Lix/Li1 基因为分离这些基因提供了基础。反过来,这将允许研究阐明这些基因在棉花生长和发育中的功能和进化作用。

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本文引用的文献

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An EMS-induced mutation in a tetratricopeptide repeat-like superfamily protein gene (Ghir_A12G008870) on chromosome A12 is responsible for the li short fiber phenotype in cotton.EMS 诱变在染色体 A12 上的四肽重复样超家族蛋白基因(Ghir_A12G008870)中产生的突变导致棉花的 li 短纤维表型。
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The essential role of GhPEL gene, encoding a pectate lyase, in cell wall loosening by depolymerization of the de-esterified pectin during fiber elongation in cotton.GhPEL 基因(编码果胶裂解酶)在棉花纤维伸长过程中通过去酯化果胶的解聚来疏松细胞壁中的重要作用。
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