菠菜性别共分离支架的结构变异和多态性鉴定。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2022-03-01 Epub Date: 2021-07-28 DOI:10.1007/s00497-021-00424-1
Li'ang Yu, Xiaokai Ma, William Wadlington, Ray Ming
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引用次数: 1

摘要

菠菜是一种常见的蔬菜,雌雄异株是由一对XY性染色体维持的。由于有限的基因组资源和高度重复的基因组,对性别决定位点附近区域的基因组景观研究有限。在这项研究中,我们筛选了y -连锁contigs和1.78 mb的X支架(Super_scaffold 66)之间的结构变异(SVs),这使得12个性别共分离的DNA标记得以开发。这些标记在1个F1定位群体和40份菠菜材料中进行了测试,其中包含692个具有强性连锁模式的单株。此外,我们发现Super_scaffold 66与其他基因组相比具有高度重复性,并且LTR-RTs插入量丰富,微卫星分布减少,这与只有9个注释基因的极低基因密度相匹配。Y序列与Superscaffold_66的同源性分析显示,Y序列的累积长度为340 kb(不连续),X序列的对应长度为500 kb,并存在SVs和广泛的串联重复。在9个基因中,1个ABC转运蛋白基因在Y连锁等位基因与X连锁等位基因之间显示出明显的SVs,在Y连锁等位基因中插入了约5 kb的Gypsy LTR-RT,而在X连锁等位基因中没有插入。基因缺乏,SVs和性别相关多态性归因于重组抑制。我们提出Super_scaffold 66是包含性别决定基因的非重组区域的一部分。这1.78 Mb基因组区域中12个性别共分离标记的分布表明,性别决定区域在Y染色体发育过程中存在并扩展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of structural variation and polymorphisms of a sex co-segregating scaffold in spinach.

Spinach is a common vegetable, and dioecy is maintained by a pair of XY sex chromosomes. Due to limited genomic resources and its highly repetitive genome, limited studies were conducted to investigate the genomic landscape of the region near sex-determining loci. In this study, we screened the structure variations (SVs) between Y-linked contigs and a 1.78-Mb X scaffold (Super_scaffold 66), which enabled the development of 12 sex co-segregating DNA markers. These markers were tested in one F1 mapping population and 40 spinach accessions, which comprised 692 individual plants with the strong sex linkage pattern. In addition, we found that Super_scaffold 66 was highly repetitive along with the enriched LTR-RTs insertions and decreased microsatellite distribution compared with the rest genome, which matches extremely low gene density featured by only nine annotated genes. Synteny analysis between Y contigs and Superscaffold_66 revealed a 340-Kb accumulative Y contig (non-continuous) and a 500-Kb X counterpart along with SVs and wide-spread tandem duplications. Among the nine genes, one ABC transporter gene revealed noticeable SVs between Y contig and X counterpart, as an approximate 5-Kb recent Gypsy LTR-RT insertion in the Y-linked allele, but not the X allele. The gene paucity, SVs, and sex-linked polymorphisms attributed to the recombination suppression. We proposed that Super_scaffold 66 is part of the non-recombining region containing the sex determination genes. The spread of 12 sex co-segregating markers from this 1.78 Mb genomic region indicated the existence and expansion of sex determination region during progression of the Y chromosome.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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