Department of Crop Sciences, University of Illinois, Urbana, IL, 61801, USA.
BMC Biol. 2023 Feb 20;21(1):37. doi: 10.1186/s12915-023-01539-9.
Amaranthus L. is a diverse genus consisting of domesticated, weedy, and non-invasive species distributed around the world. Nine species are dioecious, of which Amaranthus palmeri S. Watson and Amaranthus tuberculatus (Moq.) J.D. Sauer are troublesome weeds of agronomic crops in the USA and elsewhere. Shallow relationships among the dioecious Amaranthus species and the conservation of candidate genes within previously identified A. palmeri and A. tuberculatus male-specific regions of the Y (MSYs) in other dioecious species are poorly understood. In this study, seven genomes of dioecious amaranths were obtained by paired-end short-read sequencing and combined with short reads of seventeen species in the family Amaranthaceae from NCBI database. The species were phylogenomically analyzed to understand their relatedness. Genome characteristics for the dioecious species were evaluated and coverage analysis was used to investigate the conservation of sequences within the MSY regions.
We provide genome size, heterozygosity, and ploidy level inference for seven newly sequenced dioecious Amaranthus species and two additional dioecious species from the NCBI database. We report a pattern of transposable element proliferation in the species, in which seven species had more Ty3 elements than copia elements while A. palmeri and A. watsonii had more copia elements than Ty3 elements, similar to the TE pattern in some monoecious amaranths. Using a Mash-based phylogenomic analysis, we accurately recovered taxonomic relationships among the dioecious Amaranthus species that were previously identified based on comparative morphology. Coverage analysis revealed eleven candidate gene models within the A. palmeri MSY region with male-enriched coverages, as well as regions on scaffold 19 with female-enriched coverage, based on A. watsonii read alignments. A previously reported FLOWERING LOCUS T (FT) within A. tuberculatus MSY contig was also found to exhibit male-enriched coverages for three species closely related to A. tuberculatus but not for A. watsonii reads. Additional characterization of the A. palmeri MSY region revealed that 78% of the region is made of repetitive elements, typical of a sex determination region with reduced recombination.
The results of this study further increase our understanding of the relationships among the dioecious species of the Amaranthus genus as well as revealed genes with potential roles in sex function in the species.
苋属是一个多样化的属,包括驯化的、杂草的和非入侵的物种,分布在世界各地。有九个物种是雌雄异株的,其中包括美国和其他地方农业作物中令人讨厌的杂草,即腺梗豇豆(S. Watson)和刺果苋(Moq.)J.D. Sauer。雌雄异株的苋属物种之间的关系以及以前在其他雌雄异株物种中鉴定的腺梗豇豆和刺果苋 Y 染色体(MSY)雄性特异性区域内候选基因的保护情况了解甚少。在这项研究中,通过成对短读测序获得了七个雌雄异株苋属的基因组,并结合了来自 NCBI 数据库中苋科的十七个物种的短读序列。对这些物种进行了系统发育分析,以了解它们的亲缘关系。评估了雌雄异株物种的基因组特征,并进行了覆盖度分析,以研究 MSY 区域内序列的保护情况。
我们提供了七个新测序的雌雄异株苋属物种和两个来自 NCBI 数据库的额外雌雄异株物种的基因组大小、杂合度和倍性水平推断。我们报告了物种中转座元件增殖的模式,其中七个物种中的 Ty3 元件多于 copia 元件,而腺梗豇豆和 A. watsonii 中的 copia 元件多于 Ty3 元件,与一些雌雄同株苋属中的 TE 模式相似。使用基于 Mash 的系统发育分析,我们准确地恢复了以前基于比较形态学确定的雌雄异株苋属物种之间的分类关系。基于 A. watsonii 读序列的比对,覆盖度分析揭示了在 A. palmeri MSY 区域内有十一个候选基因模型,具有雄性富集的覆盖度,以及在 19 号支架上具有雌性富集的覆盖度。在 A. tuberculatus MSY 连续体中报告的一个以前的开花素(FT)也被发现,在与 A. tuberculatus 密切相关的三个物种中表现出雄性富集的覆盖度,但在 A. watsonii 读序列中则没有。对 A. palmeri MSY 区域的进一步特征分析表明,该区域的 78%是由重复元件组成的,这是一个典型的具有降低重组的性别决定区域。
本研究的结果进一步加深了我们对苋属雌雄异株物种之间关系的理解,并揭示了在这些物种中具有潜在性别功能的基因。
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