A stepwise guide for pangenome development in crop plants: an alfalfa (Medicago sativa) case study.

IF 3.5 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY BMC Genomics Pub Date : 2024-10-31 DOI:10.1186/s12864-024-10931-w
Harpreet Kaur, Laura M Shannon, Deborah A Samac
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Abstract

Background: The concept of pangenomics and the importance of structural variants is gaining recognition within the plant genomics community. Due to advancements in sequencing and computational technology, it has become feasible to sequence the entire genome of numerous individuals of a single species at a reasonable cost. Pangenomes have been constructed for many major diploid crops, including rice, maize, soybean, sorghum, pearl millet, peas, sunflower, grapes, and mustards. However, pangenomes for polyploid species are relatively scarce and are available in only few crops including wheat, cotton, rapeseed, and potatoes.

Main body: In this review, we explore the various methods used in crop pangenome development, discussing the challenges and implications of these techniques based on insights from published pangenome studies. We offer a systematic guide and discuss the tools available for constructing a pangenome and conducting downstream analyses. Alfalfa, a highly heterozygous, cross pollinated and autotetraploid forage crop species, is used as an example to discuss the concerns and challenges offered by polyploid crop species. We conducted a comparative analysis using linear and graph-based methods by constructing an alfalfa graph pangenome using three publicly available genome assemblies. To illustrate the intricacies captured by pangenome graphs for a complex crop genome, we used five different gene sequences and aligned them against the three graph-based pangenomes. The comparison of the three graph pangenome methods reveals notable variations in the genomic variation captured by each pipeline.

Conclusion: Pangenome resources are proving invaluable by offering insights into core and dispensable genes, novel gene discovery, and genome-wide patterns of variation. Developing user-friendly online portals for linear pangenome visualization has made these resources accessible to the broader scientific and breeding community. However, challenges remain with graph-based pangenomes including compatibility with other tools, extraction of sequence for regions of interest, and visualization of genetic variation captured in pangenome graphs. These issues necessitate further refinement of tools and pipelines to effectively address the complexities of polyploid, highly heterozygous, and cross-pollinated species.

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作物植物泛基因组开发的逐步指南:紫花苜蓿(Medicago sativa)案例研究。
背景:泛基因组学的概念和结构变异的重要性正在得到植物基因组学界的认可。由于测序和计算技术的进步,以合理的成本对单一物种的众多个体进行全基因组测序已变得可行。目前已经构建了许多主要二倍体作物的庞基因组,包括水稻、玉米、大豆、高粱、珍珠粟、豌豆、向日葵、葡萄和芥菜。然而,多倍体物种的泛基因组相对较少,只有小麦、棉花、油菜籽和马铃薯等少数作物有泛基因组:在这篇综述中,我们探讨了作物泛基因组开发中使用的各种方法,并根据已发表的泛基因组研究结果,讨论了这些技术所面临的挑战和意义。我们提供了一个系统指南,并讨论了构建庞基因组和进行下游分析的可用工具。紫花苜蓿是一种高度杂合、异花授粉和自交四倍体的饲料作物物种,我们以紫花苜蓿为例,讨论了多倍体作物物种带来的问题和挑战。我们使用线性方法和基于图谱的方法进行了比较分析,利用三个公开的基因组汇编构建了紫花苜蓿图谱泛基因组。为了说明庞基因组图谱捕捉到的复杂作物基因组的错综复杂性,我们使用了五个不同的基因序列,并将它们与三个基于图谱的庞基因组进行了比对。对三种图谱庞基因组方法进行比较后发现,每种方法捕获的基因组变异都存在明显差异:通过深入了解核心基因和可有可无的基因、新基因的发现以及全基因组的变异模式,庞基因组资源被证明是非常宝贵的。为线性庞基因组可视化开发用户友好型在线门户网站,使更广泛的科学界和育种界可以访问这些资源。然而,基于图谱的庞基因组仍然面临挑战,包括与其他工具的兼容性、感兴趣区域的序列提取以及庞基因组图谱中捕获的遗传变异的可视化。这些问题需要进一步完善工具和管道,以有效解决多倍体、高度杂合和异花授粉物种的复杂性。
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
BMC Genomics
BMC Genomics 生物-生物工程与应用微生物
CiteScore
7.40
自引率
4.50%
发文量
769
审稿时长
6.4 months
期刊介绍: BMC Genomics is an open access, peer-reviewed journal that considers articles on all aspects of genome-scale analysis, functional genomics, and proteomics. BMC Genomics is part of the BMC series which publishes subject-specific journals focused on the needs of individual research communities across all areas of biology and medicine. We offer an efficient, fair and friendly peer review service, and are committed to publishing all sound science, provided that there is some advance in knowledge presented by the work.
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