Alternative splicing and deletion in S-RNase confer stylar-part self-compatibility in the apple cultivar 'Vered'.

IF 3.9 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kazuma Okada, Taku Shimizu, Shigeki Moriya, Masato Wada, Kazuyuki Abe, Yutaka Sawamura
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引用次数: 0

Abstract

Although self-incompatibility in apples (Malus × domestica Borkh.) is regulated by a single S-locus with multiple S-haplotypes that comprise pistil S (S-RNase) and pollen S genes, it is not desirable in commercial orchards because it requires cross-pollination to achieve stable fruit production. Therefore, it is important to identify and characterize self-compatible apple cultivars. However, little is known about self-compatibility (SC) and its underlying molecular mechanisms in apples. In this study, we discovered that 'Vered', an early maturing and low chilling-requiring apple cultivar, exhibits stable SC, which was evaluated via self-pollination tests. The S-genotype of 'Vered' was designated as S24S39sm. Results of genetic analysis of selfed progeny of 'Vered' revealed that SC is associated with the S39sm-haplotype, and molecular analyses indicated that it is caused by alternative splicing and a 205-bp deletion in S39sm-RNase. These events induce frameshifts and ultimately produce the defective S39sm-RNase isoforms that lack their C-terminal half. These results enabled us to develop a 117-bp DNA marker that can be used to assist in the selection of self-compatible apples with the dysfunctional S39sm-RNase. Thus, analysis of 'Vered' provided insights into the molecular mechanism of the very rare trait of natural stylar-part SC. Moreover, 'Vered' is a valuable genetic resource for breeding cultivars with SC and/or low chilling requirement in apple. Our findings contribute to a better understanding of self-compatible molecular mechanisms in apple and provide for the accelerated breeding of self-compatible apple cultivars.

S-RNase的替代剪接和缺失使苹果栽培品种 "Vered "具有花柱部分自相容性。
虽然苹果(Malus × domestica Borkh.)的自交不亲和性受单个 S-locus(雌蕊 S(S-RNase)基因)和花粉 S 基因组成的多个 S-单倍型调控,但在商业果园中并不理想,因为它需要异花授粉才能实现稳定的果实产量。因此,鉴定自交不亲和的苹果栽培品种并确定其特征非常重要。然而,人们对苹果的自相容性(SC)及其潜在的分子机制知之甚少。在这项研究中,我们通过自花授粉试验发现,早熟、低冷需求苹果栽培品种'Vered'具有稳定的自相容性。Vered "的 S 基因型被命名为 S24S39sm。对'Vered'自交后代的遗传分析结果表明,SC 与 S39sm 单倍型有关,分子分析表明,SC 是由替代剪接和 S39sm-RNase 中的 205-bp 缺失引起的。这些事件诱发了框架转换,并最终产生了缺乏 C 端半部分的 S39sm-RNase 缺陷异构体。这些结果使我们能够开发出一种 117-bp 的 DNA 标记,用于帮助选择 S39sm-RNase 功能失调的自交苹果。因此,对'Vered'的分析使我们深入了解了天然花柱部分SC这一非常罕见性状的分子机制。此外,'Vered'还是培育具有SC和/或低冷冻要求的苹果栽培品种的宝贵遗传资源。我们的研究结果有助于更好地了解苹果的自相容性分子机制,并为加速培育自相容性苹果栽培品种提供了依据。
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
Plant Molecular Biology
Plant Molecular Biology 生物-生化与分子生物学
自引率
2.00%
发文量
95
审稿时长
1.4 months
期刊介绍: Plant Molecular Biology is an international journal dedicated to rapid publication of original research articles in all areas of plant biology.The Editorial Board welcomes full-length manuscripts that address important biological problems of broad interest, including research in comparative genomics, functional genomics, proteomics, bioinformatics, computational biology, biochemical and regulatory networks, and biotechnology. Because space in the journal is limited, however, preference is given to publication of results that provide significant new insights into biological problems and that advance the understanding of structure, function, mechanisms, or regulation. Authors must ensure that results are of high quality and that manuscripts are written for a broad plant science audience.
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