Poa trivialis 染色体尺度基因组组装和种群基因组学揭示了冷季型草籽生产系统中广泛的基因流动。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-03-13 eCollection Date: 2024-03-01 DOI:10.1002/pld3.575
Caio A C G Brunharo, Christopher W Benson, David R Huff, Jesse R Lasky
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引用次数: 0

摘要

Poa trivialis (L.) 是一种冷季型草种,分布于世界各地的各种环境中。除了是一种理想的草坪草种外,它还是农业系统和自然区域常见的杂草。作为一种杂草,它是商业冷季型草种子的重要污染源,导致基因在人类活动的推动下广泛流动,给农民造成重大经济损失。为了更好地了解和管理虫害,我们组装并注释了P. trivialis的单倍体基因组,并研究了美国最大的冷季型草种子产区俄勒冈州的麻烦田间种群。基因组组装产生了 1.35 Gb 的 DNA 序列,分布在七个染色体尺度的支架上,揭示了高含量的转座元件、与 Poa annua 的保守同源关系以及与其他 C3 禾本科植物的密切关系。对野外种群进行的简化代表测序分析表明,遗传多样性有限,并表明该地区可能存在基因流动和人类协助的扩散。本研究提供的遗传资源和对三尖杉(P. trivialis)的深入了解将改善杂草管理策略,并有助于开发受污染种子批次的分子检测测试,以限制种子介导的基因流。这些资源还将有益于草坪草育种者改善三尖杉商业品种的理想性状,并有助于指导其他作物的育种工作,以提高农业生态系统在气候变化下的适应能力。意义说明:三色堇(Poa trivialis)的染色体组组装和群体基因组分析为农业系统中杂草种群的基因流提供了重要的见解,为植物科学界贡献了宝贵的基因组资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chromosome-scale genome assembly of Poa trivialis and population genomics reveal widespread gene flow in a cool-season grass seed production system.

Poa trivialis (L.) is a cool-season grass species found in various environments worldwide. In addition to being a desired turfgrass species, it is a common weed of agricultural systems and natural areas. As a weed, it is an important contaminant of commercial cool-season grass seed lots, resulting in widespread gene flow facilitated by human activities and causing significant economic losses to farmers. To better understand and manage infestations, we assembled and annotated a haploid genome of P. trivialis and studied troublesome field populations from Oregon, the largest cool-season grass seed producing region in the United States. The genome assembly resulted in 1.35 Gb of DNA sequence distributed among seven chromosome-scale scaffolds, revealing a high content of transposable elements, conserved synteny with Poa annua, and a close relationship with other C3 grasses. A reduced-representation sequencing analysis of field populations revealed limited genetic diversity and suggested potential gene flow and human-assisted dispersal in the region. The genetic resources and insights into P. trivialis provided by this study will improve weed management strategies and enable the development of molecular detection tests for contaminated seed lots to limit seed-mediated gene flow. These resources should also be beneficial for turfgrass breeders seeking to improve desirable traits of commercial P. trivialis varieties and help to guide breeding efforts in other crops to enhance the resiliency of agricultural ecosystems under climate change. Significance Statement: The chromosome-scale assembly of Poa trivialis and population genomic analyses provide crucial insights into the gene flow of weedy populations in agricultural systems and contribute a valuable genomic resource for the plant science community.

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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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