番茄基因组结构变异及其在植物免疫中的作用。

IF 10.6 Q1 HORTICULTURE
Emma Jobson, Robyn Roberts
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引用次数: 4

摘要

众所周知,大的基因组变异会极大地影响生物体的表型。结构变异(SV)包括任何大于30个碱基对的基因组变异,包括由缺失、反转、重复、颠换和其他基因组修饰引起的变化。由于它们的大小和复杂性,直到最近,还很难真正捕捉到这些变化。测序技术和计算分析的最新进展现在允许对植物基因组中的SVs进行更广泛的研究。在番茄方面,测序技术的进步使研究人员能够对番茄及其亲属的数百个基因组进行测序。这些研究已经确定了与果实大小和风味、植物疾病反应、抗性/易感性以及植物检测病原体的能力(免疫力)有关的SV。在这篇综述中,我们讨论了植物基因组结构变异的意义,重点是它在番茄免疫中的作用。我们还讨论了测序技术的进步如何导致在更复杂的基因组中发现SVs,SVs在生物和非生物胁迫反应中作用的当前证据,以及对SVs进行基因修饰以推进植物育种目标的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genomic structural variation in tomato and its role in plant immunity.

Genomic structural variation in tomato and its role in plant immunity.

It is well known that large genomic variations can greatly impact the phenotype of an organism. Structural Variants (SVs) encompass any genomic variation larger than 30 base pairs, and include changes caused by deletions, inversions, duplications, transversions, and other genome modifications. Due to their size and complex nature, until recently, it has been difficult to truly capture these variations. Recent advances in sequencing technology and computational analyses now permit more extensive studies of SVs in plant genomes. In tomato, advances in sequencing technology have allowed researchers to sequence hundreds of genomes from tomatoes, and tomato relatives. These studies have identified SVs related to fruit size and flavor, as well as plant disease response, resistance/susceptibility, and the ability of plants to detect pathogens (immunity). In this review, we discuss the implications for genomic structural variation in plants with a focus on its role in tomato immunity. We also discuss how advances in sequencing technology have led to new discoveries of SVs in more complex genomes, the current evidence for the role of SVs in biotic and abiotic stress responses, and the outlook for genetic modification of SVs to advance plant breeding objectives.

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来源期刊
Molecular Horticulture
Molecular Horticulture horticultural research-
CiteScore
8.00
自引率
0.00%
发文量
24
审稿时长
12 weeks
期刊介绍: Aims Molecular Horticulture aims to publish research and review articles that significantly advance our knowledge in understanding how the horticultural crops or their parts operate mechanistically. Articles should have profound impacts not only in terms of high citation number or the like, but more importantly on the direction of the horticultural research field. Scope Molecular Horticulture publishes original Research Articles, Letters, and Reviews on novel discoveries on the following, but not limited to, aspects of horticultural plants (including medicinal plants): ▪ Developmental and evolutionary biology ▪ Physiology, biochemistry and cell biology ▪ Plant-microbe and plant-environment interactions ▪ Genetics and epigenetics ▪ Molecular breeding and biotechnology ▪ Secondary metabolism and synthetic biology ▪ Multi-omics dealing with data sets of genome, transcriptome, proteome, metabolome, epigenome and/or microbiome. The journal also welcomes research articles using model plants that reveal mechanisms and/or principles readily applicable to horticultural plants, translational research articles involving application of basic knowledge (including those of model plants) to the horticultural crops, novel Methods and Resources of broad interest. In addition, the journal publishes Editorial, News and View, and Commentary and Perspective on current, significant events and topics in global horticultural fields with international interests.
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