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本文引用的文献

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Cell wall disassembly in ripening fruit.成熟果实中的细胞壁分解
Funct Plant Biol. 2006 Mar;33(2):103-119. doi: 10.1071/FP05234.
2
Differential metabolism of pectic galactan in tomato and strawberry fruit: detection of the LM26 branched galactan epitope in ripe strawberry fruit.番茄和草莓果实中果胶半乳聚糖的差异代谢:在成熟草莓果实中检测到 LM26 支化半乳聚糖表位。
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Fruit Softening: Revisiting the Role of Pectin.果实软化:果胶作用再探讨。
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Disentangling pectic homogalacturonan and rhamnogalacturonan-I polysaccharides: Evidence for sub-populations in fruit parenchyma systems.解析果胶同质半乳糖醛酸聚糖和鼠李半乳糖醛酸聚糖 I 多糖:果实薄壁组织系统中存在亚群的证据。
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Silencing of SlPL, which encodes a pectate lyase in tomato, confers enhanced fruit firmness, prolonged shelf-life and reduced susceptibility to grey mould.沉默编码番茄果胶裂解酶的 SlPL 可提高果实硬度、延长货架期并降低灰霉病易感性。
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Targeted base editing in rice and tomato using a CRISPR-Cas9 cytidine deaminase fusion.利用 CRISPR-Cas9 胞嘧啶脱氨酶融合物在水稻和番茄中的靶向碱基编辑。
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Characterization of the LM5 pectic galactan epitope with synthetic analogues of β-1,4-d-galactotetraose.用β-1,4- D -半乳糖四糖的合成类似物对LM5果胶半乳聚糖表位进行表征。
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Genome editing in maize directed by CRISPR-Cas9 ribonucleoprotein complexes.利用 CRISPR-Cas9 核糖核蛋白复合物进行玉米基因组编辑。
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Genetic improvement of tomato by targeted control of fruit softening.通过靶向控制果实软化对番茄进行遗传改良。
Nat Biotechnol. 2016 Sep;34(9):950-2. doi: 10.1038/nbt.3602. Epub 2016 Jul 25.
10
An Effective Strategy for Reliably Isolating Heritable and Cas9-Free Arabidopsis Mutants Generated by CRISPR/Cas9-Mediated Genome Editing.一种可靠分离由CRISPR/Cas9介导的基因组编辑产生的可遗传且无Cas9的拟南芥突变体的有效策略。
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靶向调控成熟番茄中果胶降解基因的 CRISPR 突变体的鉴定。

Characterization of CRISPR Mutants Targeting Genes Modulating Pectin Degradation in Ripening Tomato.

机构信息

School of Biosciences, University of Nottingham, Sutton Bonington, Loughborough LE12 5RD, UK.

Department of Plant Science, Kulliyyah of Science, International Islamic University Malaysia, 25200 Kuantan, Pahang, Malaysia.

出版信息

Plant Physiol. 2019 Feb;179(2):544-557. doi: 10.1104/pp.18.01187. Epub 2018 Nov 20.

DOI:10.1104/pp.18.01187
PMID:30459263
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6426429/
Abstract

Tomato () is a globally important crop with an economic value in the tens of billions of dollars, and a significant supplier of essential vitamins, minerals, and phytochemicals in the human diet. Shelf life is a key quality trait related to alterations in cuticle properties and remodeling of the fruit cell walls. Studies with transgenic tomato plants undertaken over the last 20 years have indicated that a range of pectin-degrading enzymes are involved in cell wall remodeling. These studies usually involved silencing of only a single gene and it has proved difficult to compare the effects of silencing these genes across the different experimental systems. Here we report the generation of CRISPR-based mutants in the ripening-related genes encoding the pectin-degrading enzymes pectate lyase (PL), polygalacturonase 2a (PG2a), and β-galactanase (TBG4). Comparison of the physiochemical properties of the fruits from a range of , , and CRISPR lines demonstrated that only mutations in resulted in firmer fruits, although mutations in and influenced fruit color and weight. Pectin localization, distribution, and solubility in the pericarp cells of the CRISPR mutant fruits were investigated using the monoclonal antibody probes LM19 to deesterified homogalacturonan, INRA-RU1 to rhamnogalacturonan I, LM5 to β-1,4-galactan, and LM6 to arabinan epitopes, respectively. The data indicate that PL, PG2a, and TBG4 act on separate cell wall domains and the importance of cellulose microfibril-associated pectin is reflected in its increased occurrence in the different mutant lines.

摘要

番茄是一种具有全球重要经济价值的作物,其经济价值达数十亿美元,是人类饮食中重要维生素、矿物质和植物化学物质的重要来源。货架期是与角质层特性改变和果实细胞壁重塑相关的关键质量特征。过去 20 年,对转基因番茄植物的研究表明,一系列果胶降解酶参与细胞壁重塑。这些研究通常只涉及单个基因的沉默,并且很难比较这些基因在不同实验系统中的沉默效果。在这里,我们报告了与成熟相关的基因中编码果胶降解酶果胶裂解酶(PL)、多聚半乳糖醛酸酶 2a(PG2a)和β-半乳糖苷酶(TBG4)的 CRISPR 突变体的产生。对一系列 、 、和 CRISPR 系果实的理化性质进行比较,结果表明只有 中的突变导致果实更坚硬,尽管 中和 中的突变影响了果实颜色和重量。使用针对去酯化同聚半乳糖醛酸的单克隆抗体探针 LM19、针对鼠李半乳糖醛酸 I 的 INRA-RU1、针对β-1,4-半乳糖的 LM5 和针对阿拉伯聚糖表位的 LM6,分别研究了 CRISPR 突变体果实中果皮细胞中果胶的定位、分布和溶解度。数据表明,PL、PG2a 和 TBG4 作用于不同的细胞壁区域,纤维素微纤丝相关果胶的重要性反映在其在不同突变系中的出现增加。