5 种未充分利用的木犀科作物的基因组为了解根瘤和抗病性提供了线索。

IF 11.8 2区 生物学 Q1 MULTIDISCIPLINARY SCIENCES
Lihua Yuan, Lihong Lei, Fan Jiang, Anqi Wang, Rong Chen, Hengchao Wang, Sihan Meng, Wei Fan
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引用次数: 0

摘要

背景:番杏亚科包含大量未充分利用的豆科作物,这些作物对粮食安全和人类的可持续发展非常重要。然而,基因组资源的缺乏阻碍了这些作物的育种和利用:结果:在这里,我们展示了5种利用率低的二倍体木犀科作物的染色体级参考基因组:剑豆(Canavalia gladiata)、猩红流苏豆(Phaseolus coccineus)、翅豆(Psophocarpus tetragonolobus)、光滑鼠尾草(Crotalaria pallida)和蝴蝶豌豆(Clitoria ternatea),组装的基因组大小分别为0.62 Gb、0.59 Gb、0.71 Gb、1.22 Gb 和 1.72 Gb。我们发现,长末端重复反转座子长期保持较高的活性是光滑鼠尾草和蝴蝶豌豆基因组大小增大的主要原因。此外,这5个物种中除了共同的papilionoid特异性WGD事件(距今5500万年)外,近期没有发生全基因组重复(WGD)事件。然后,我们分别鉴定了猩红色芸豆和普通芸豆中的5328个和10434个物种特异性基因,这些基因可能是造成其表型和功能差异以及物种特异性功能的原因。此外,我们还鉴定了所有 5 个物种中参与根-节共生(RNS)的关键基因,发现 NIN 基因在早期木犀科祖先中是重复的,随后在光滑的响铃豆和蝴蝶豆系中丢失了 1 个基因拷贝。最后,我们确定了这 5 个物种的植物抗性(R)基因,并描述了它们的进化历史:总之,本研究提供了 3 种谷物和蔬菜豆类(剑豆、猩红芸豆、翼豆)的染色体级参考基因组,以及一种绿肥作物(光滑鼠尾草)和一种食品染色作物(蝴蝶豌豆)的基因组。这些基因组对于研究系统发育历史、揭示固氮 RNS 演化和推进植物防御研究至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The genomes of 5 underutilized Papilionoideae crops provide insights into root nodulation and disease resistance.

Background: The Papilionoideae subfamily contains a large amount of underutilized legume crops, which are important for food security and human sustainability. However, the lack of genomic resources has hindered the breeding and utilization of these crops.

Results: Here, we present chromosome-level reference genomes for 5 underutilized diploid Papilionoideae crops: sword bean (Canavalia gladiata), scarlet runner bean (Phaseolus coccineus), winged bean (Psophocarpus tetragonolobus), smooth rattlebox (Crotalaria pallida), and butterfly pea (Clitoria ternatea), with assembled genome sizes of 0.62 Gb, 0.59 Gb, 0.71 Gb, 1.22 Gb, and 1.72 Gb, respectively. We found that the long period of higher long terminal repeat retrotransposon activity is the major reason that the genome size of smooth rattlebox and butterfly pea is enlarged. Additionally, there have been no recent whole-genome duplication (WGD) events in these 5 species except for the shared papilionoid-specific WGD event (∼55 million years ago). Then, we identified 5,328 and 10,434 species-specific genes between scarlet runner bean and common bean, respectively, which may be responsible for their phenotypic and functional differences and species-specific functions. Furthermore, we identified the key genes involved in root-nodule symbiosis (RNS) in all 5 species and found that the NIN gene was duplicated in the early Papilionoideae ancestor, followed by the loss of 1 gene copy in smooth rattlebox and butterfly pea lineages. Last, we identified the resistance (R) genes for plant defenses in these 5 species and characterized their evolutionary history.

Conclusions: In summary, this study provides chromosome-scale reference genomes for 3 grain and vegetable beans (sword bean, scarlet runner bean, winged bean), along with genomes for a green manure crop (smooth rattlebox) and a food dyeing crop (butterfly pea). These genomes are crucial for studying phylogenetic history, unraveling nitrogen-fixing RNS evolution, and advancing plant defense research.

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来源期刊
GigaScience
GigaScience MULTIDISCIPLINARY SCIENCES-
CiteScore
15.50
自引率
1.10%
发文量
119
审稿时长
1 weeks
期刊介绍: GigaScience seeks to transform data dissemination and utilization in the life and biomedical sciences. As an online open-access open-data journal, it specializes in publishing "big-data" studies encompassing various fields. Its scope includes not only "omic" type data and the fields of high-throughput biology currently serviced by large public repositories, but also the growing range of more difficult-to-access data, such as imaging, neuroscience, ecology, cohort data, systems biology and other new types of large-scale shareable data.
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