Unambiguous chromosome identification reveals the factors impacting irregular chromosome behaviors in allotriploid AAC Brassica.

IF 4.4 1区 农林科学 Q1 AGRONOMY
Yao Cao, Junxiong Xu, Minhang Wang, Jing Gao, Zhen Zhao, Kexin Li, Lu Yang, Kanglu Zhao, Meiping Sun, Jing Dong, Getu Chao, Hong Zhang, Yaqingqing Niu, Chunxia Yan, Xiufeng Gong, Lei Wu, Zhiyong Xiong
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引用次数: 0

Abstract

Key message: The major irregular chromosome pairing and mis-segregation were detected during meiosis through unambiguous chromosome identification and found that allotriploid Brassica can undergo meiosis successfully and produce mostly viable aneuploid gametes. Triploids have played a crucial role in the evolution of species by forming polyploids and facilitating interploidy gene transfer. It is widely accepted that triploids cannot undergo meiosis normally and predominantly produce nonfunctional aneuploid gametes, which restricts their role in species evolution. In this study, we demonstrated that natural and synthetic allotriploid Brassica (AAC), produced by crossing natural and synthetic Brassica napus (AACC) with Brassica rapa (AA), exhibits basically normal chromosome pairing and segregation during meiosis. Homologous A chromosomes paired faithfully and generally segregated equally. Monosomic C chromosomes were largely retained as univalents and randomly entered daughter cells. The primary irregular meiotic behaviors included associations of homoeologs and 45S rDNA loci at diakinesis, as well as homoeologous chromosome replacement and premature sister chromatid separation at anaphase I. Preexisting homoeologous arrangements altered meiotic behaviors in both chromosome irregular pairing and mis-segregation by increasing the formation of A-genomic univalents and A-C bivalents, as well as premature sister chromatid separation and homologous chromosome nondisjunction. Meiotic behaviors depended significantly on the genetic background and heterozygous homoeologous rearrangement. AAC triploids mainly generated aneuploid gametes, most of which were viable. These results demonstrate that allotriploid Brassica containing an intact karyotype can proceed through meiosis successfully, broadening our current understanding of the inheritance and role in species evolution of allotriploid.

明确的染色体鉴定揭示了影响异源三倍体芸薹属植物不规则染色体行为的因素。
关键信息:通过对染色体的明确识别,发现了减数分裂过程中主要的不规则染色体配对和错误分离现象,并发现异源三倍体甘蓝能够成功地进行减数分裂,并产生大部分有活力的非整倍体配子。三倍体通过形成多倍体和促进倍性间的基因转移,在物种进化过程中发挥了至关重要的作用。人们普遍认为,三倍体不能正常进行减数分裂,主要产生无功能的非整倍体配子,这限制了它们在物种进化中的作用。在这项研究中,我们证明了天然和人工合成的异源三倍体甘蓝(AAC),由天然和人工合成的甘蓝(AACC)与甘蓝(AA)杂交产生,在减数分裂过程中染色体配对和分离基本正常。同源的 A 染色体忠实地配对,一般都能平等地分离。单体 C 染色体基本上保留为单价体,并随机进入子细胞。主要的不规则减数分裂行为包括同源染色体和 45S rDNA 位点在二分裂期的结合,以及同源染色体的替换和无丝分裂期 I 的过早姐妹染色单体分离。减数分裂行为在很大程度上取决于遗传背景和杂合同源重排。AAC 三倍体主要产生非整倍体配子,其中大部分都能存活。这些结果表明,含有完整核型的甘蓝型异源三倍体可以成功地进行减数分裂,从而拓宽了我们目前对异源三倍体的遗传和在物种进化中的作用的认识。
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
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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