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该位点的等位基因突变导致番茄成熟过程中出现广泛变异。

Allelic Mutations in the Locus Generate Extensive Variation in Tomato Ripening.

作者信息

Ito Yasuhiro, Sekiyama Yasuyo, Nakayama Hiroko, Nishizawa-Yokoi Ayako, Endo Masaki, Shima Yoko, Nakamura Nobutaka, Kotake-Nara Eiichi, Kawasaki Susumu, Hirose Sakiko, Toki Seiichi

机构信息

Food Research Institute, National Agriculture and Food Research Organization (NARO), Tsukuba, Ibaraki 305-8642, Japan

Food Research Institute, National Agriculture and Food Research Organization (NARO), Tsukuba, Ibaraki 305-8642, Japan.

出版信息

Plant Physiol. 2020 May;183(1):80-95. doi: 10.1104/pp.20.00020. Epub 2020 Feb 24.

DOI:10.1104/pp.20.00020
PMID:32094307
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7210617/
Abstract

RIPENING INHIBITOR (RIN) is a transcription factor with transcriptional activator activity that plays a major role in regulating fruit ripening in tomato (). Recent studies have revealed that (1) is indispensable for full ripening but not for the induction of ripening; and (2) the mutation, which produces nonripening fruits that never turn red or soften, is not a null mutation but instead converts the encoded transcriptional activator into a repressor. Here, we have uncovered aspects of function by characterizing a series of allelic mutations within this locus that were produced by CRISPR/Cas9. Fruits of -knockout plants, which are characterized by partial ripening and low levels of lycopene but never turn fully red, showed excess flesh softening compared to the wild type. The knockout mutant fruits also showed accelerated cell wall degradation, suggesting that, contrary to the conventional view, RIN represses over-ripening in addition to facilitating ripening. A C-terminal domain-truncated RIN protein, encoded by another allele of the locus (), did not activate transcription but formed transcription factor complexes that bound to target genomic regions in a manner similar to that observed for wild-type RIN protein. Fruits expressing this truncated RIN protein exhibited extended shelf life, but unlike fruits, they accumulated lycopene and appeared orange. The diverse ripening properties of the allelic mutants suggest that substantial phenotypic variation can be produced by tuning the activity of a transcription factor.

摘要

成熟抑制因子(RIN)是一种具有转录激活活性的转录因子,在调控番茄果实成熟过程中发挥着主要作用。最近的研究表明:(1)RIN对于果实完全成熟是不可或缺的,但对于启动成熟并非必需;(2)rin突变产生的果实不会变红或软化,该突变并非无效突变,而是将编码的转录激活因子转变为了一个阻遏蛋白。在此,我们通过对由CRISPR/Cas9产生的该位点一系列等位基因突变进行特性分析,揭示了RIN功能的一些方面。RIN基因敲除植株的果实表现为部分成熟,番茄红素含量低且不会完全变红,与野生型相比,其果肉软化过度。敲除突变体果实还表现出细胞壁降解加速,这表明,与传统观点相反,RIN除了促进成熟外,还抑制过度成熟。由RIN位点的另一个等位基因(rin-CT)编码的C末端结构域截短的RIN蛋白不能激活转录,但能形成转录因子复合物,该复合物与目标基因组区域的结合方式与野生型RIN蛋白类似。表达这种截短RIN蛋白的果实货架期延长,但与rin果实不同的是,它们积累了番茄红素并呈现橙色。RIN等位基因突变体的多种成熟特性表明,通过调节转录因子的活性可以产生显著的表型变异。

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