Identification and Characterization of a Novel Fiber Mutant from Transgenic Progeny in Cotton

Q3 Agricultural and Biological Sciences
Rui ZHANG, Fen-Ni LÜ, Hai-Hai WANG, Wang-Zhen GUO
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Abstract

Fiber mutants are important materials in genetic and functional research in cotton (Gossypium hirsutum L.). A linted-fuzzless fiber mutant, designated CM mutant, was found in transgenic cotton by Agrobacterium-mediated transformation method. The pure line of this mutant was obtained in T3 generation. PCR analysis showed that the mutated trait had no relationship with T-DNA insertion; however, point mutation during tissue culture was deduced to be responsible for the mutated trait. Analyses of inheritance and allelic tests were conducted by crossing CM mutant with TM-1, Junhai 1, and a series of fiber developmental mutants such as XinFLM, N1N1, n2n2, and T586 with linted-fuzzless fiber and XinWX, XZ142WX, SL-7-1, and MD17 with lintless-fuzzless fiber, respectively. Among the above 10 combinations, the F1 plants were fuzzless, and all the F2 generations of CM × TM-1 and CM × Junhai 1 showed the segregation ratio of 3:1 of linted-fuzzless to linted-fuzzed phenotypes. Based on the genetic analysis, we indicated that there was one dominantly different locus between the mutant and TM-1 or Junhai 1. Allelic tests and gene mapping showed that the fuzzless gene of the mutant was allelic to N1, dominantly controlling naked-seed trait. The scanning electron microscopy observation was conducted to show the development of fiber cell initials in CM mutant during early developmental stages (0–3 d post anthesis). Like N1N1 mutant, CM mutant delayed fiber cell formation and elongation under the control of mutated gene. Compared to N1N1, CM mutant exhibited significant higher lint percentage of CM and significant lower 100-seed weight. The mutated gene in CM is speculated to be one of the multiple alleles of dominant naked-seed N1 gene.

棉花转基因后代纤维突变体的鉴定与特性研究
棉花纤维突变体是棉花遗传和功能研究的重要材料。利用农杆菌介导的方法,在转基因棉花中发现了一个无绒毛棉纤维突变体CM。在T3代获得了该突变体的纯系。PCR分析表明,突变性状与T-DNA插入无关;然而,组织培养过程中的点突变被推断为突变性状的原因。将CM突变体与TM-1、君海1号以及XinFLM、N1N1、n2n2、T586等一系列纤维发育突变体分别与无绒毛纤维和XinWX、XZ142WX、SL-7-1、MD17分别杂交,进行遗传分析和等位基因检测。在上述10个组合中,F1植株为无毛表型,CM × TM-1和CM ×君海1的F2代均表现出无毛与有毛表型的分离比为3:1。遗传分析表明,该突变体与TM-1或君海1号存在1个显性基因座差异。等位基因检测和基因定位表明,该突变体的无毛基因与N1等位,显性控制裸种性状。扫描电镜观察了CM突变体在发育早期(花后0-3 d)纤维细胞首字母的发育情况。与N1N1突变体一样,CM突变体在突变基因的控制下延迟了纤维细胞的形成和伸长。与N1N1相比,CM突变体CM衣分显著提高,百粒重显著降低。推测该突变基因为显性裸种N1基因的多个等位基因之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.50
自引率
0.00%
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审稿时长
30 weeks
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