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Genetics of actin-related sequences in tomato.番茄肌动蛋白相关序列的遗传学研究。
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2
Gibberellins regulate seed germination in tomato by endosperm weakening: a study with gibberellin-deficient mutants.赤霉素通过削弱胚乳来调节番茄种子的萌发:赤霉素缺陷突变体的研究。
Planta. 1987 Aug;171(4):525-31. doi: 10.1007/BF00392302.
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Gibberellin-induced hydrolysis of endosperm cell walls in gibberellin-deficient tomato seeds prior to radicle protrusion.赤霉素缺失型番茄种子在胚根伸出之前,赤霉素诱导的胚乳细胞壁水解。
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Identification and kinetics of accumulation of proteins induced by ethylene in bean abscission zones.乙烯诱导脱落区中蛋白质的积累的鉴定和动力学。
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Control of Seed Germination by Abscisic Acid : III. Effect on Embryo Growth Potential (Minimum Turgor Pressure) and Growth Coefficient (Cell Wall Extensibility) in Brassica napus L.脱落酸对种子萌发的调控:III. 对甘蓝型油菜胚生长潜力(最小膨压)和生长系数(细胞壁伸展性)的影响
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膨胀素的表达与番茄种子萌发过程中的胚乳弱化有关。

Expression of an expansin is associated with endosperm weakening during tomato seed germination.

作者信息

Chen F, Bradford K J

机构信息

Department of Vegetable Crops, One Shields Avenue, University of California, Davis, California 95616-8631, USA.

出版信息

Plant Physiol. 2000 Nov;124(3):1265-74. doi: 10.1104/pp.124.3.1265.

DOI:10.1104/pp.124.3.1265
PMID:11080302
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC59224/
Abstract

Expansins are extracellular proteins that facilitate cell wall extension, possibly by disrupting hydrogen bonding between hemicellulosic wall components and cellulose microfibrils. In addition, some expansins are expressed in non-growing tissues such as ripening fruits, where they may contribute to cell wall disassembly associated with tissue softening. We have identified at least three expansin genes that are expressed in tomato (Lycopersicon esculentum Mill.) seeds during germination. Among these, LeEXP4 mRNA is specifically localized to the micropylar endosperm cap region, suggesting that the protein might contribute to tissue weakening that is required for radicle emergence. In gibberellin (GA)-deficient (gib-1) mutant seeds, which germinate only in the presence of exogenous GA, GA induces the expression of LeEXP4 within 12 hours of imbibition. When gib-1 seeds were imbibed in GA solution combined with 100 microM abscisic acid, the expression of LeEXP4 was not reduced, although radicle emergence was inhibited. In wild-type seeds, LeEXP4 mRNA accumulation was blocked by far-red light and decreased by low water potential but was not affected by abscisic acid. The presence of LeEXP4 mRNA during seed germination parallels endosperm cap weakening determined by puncture force analysis. We hypothesize that LeEXP4 is involved in the regulation of seed germination by contributing to cell wall disassembly associated with endosperm cap weakening.

摘要

扩展蛋白是促进细胞壁伸展的胞外蛋白,可能是通过破坏半纤维素细胞壁成分与纤维素微纤丝之间的氢键来实现的。此外,一些扩展蛋白在非生长组织如成熟果实中表达,在这些组织中它们可能有助于与组织软化相关的细胞壁解体。我们已经鉴定出至少三个在番茄(Lycopersicon esculentum Mill.)种子萌发过程中表达的扩展蛋白基因。其中,LeEXP4 mRNA特异性定位于珠孔端胚乳帽区域,这表明该蛋白可能有助于胚根突出所需的组织弱化。在赤霉素(GA)缺陷型(gib-1)突变体种子中,这种种子仅在外源GA存在时才能萌发,GA在吸胀后12小时内诱导LeEXP4的表达。当gib-1种子在GA溶液与100 microM脱落酸的混合液中吸胀时,尽管胚根突出受到抑制,但LeEXP4的表达并未降低。在野生型种子中,LeEXP4 mRNA的积累被远红光阻断,并因低水势而减少,但不受脱落酸的影响。种子萌发过程中LeEXP4 mRNA的存在与通过穿刺力分析确定的胚乳帽弱化情况平行。我们推测LeEXP4通过促进与胚乳帽弱化相关的细胞壁解体参与种子萌发的调控。