番茄的“永不成熟”基因座调控乙烯诱导型基因表达,并与拟南芥ETR1基因的一个同源基因相连。
The tomato Never-ripe locus regulates ethylene-inducible gene expression and is linked to a homolog of the Arabidopsis ETR1 gene.
作者信息
Yen H C, Lee S, Tanksley S D, Lanahan M B, Klee H J, Giovannoni J J
机构信息
Department of Horticultural Sciences, Texas A&M University, College Station 77843-2133, USA.
出版信息
Plant Physiol. 1995 Apr;107(4):1343-53. doi: 10.1104/pp.107.4.1343.
Abstract
Fruit ripening represents a complex system of genetic and hormonal regulation of eukaryotic development unique to plants. We are using tomato ripening mutants as tools to elucidate genetic components of ripening regulation and have recently demonstrated that the Never-ripe (Nr) mutant is insensitive to the plant growth regulator ethylene (M.B. Lanahan, H.-C. Yen, J.J. Giovannoni, H.J. Klee [1994] Plant Cell 6:521-530). We report here ethylene sensitivity over a range of concentrations in normal and Nr tomato seedlings and show that the Nr mutant retains residual sensitivity to as little as 1 part per million of ethylene. Analysis of ripening-related gene expression in normal and mutant ethylene-treated fruit demonstrates that Nr exerts its influence on development at least in part at the level of ethylene-inducible gene expression. We have additionally used cloned tomato and Arabidopsis sequences known to influence ethylene perception as restriction fragment length polymorphism probes, and have identified a tomato locus linked to Nr that hybridizes to the Arabidopsis ETR1 gene at low stringency, suggesting the possibility that Nr may be homologous to ETR1.
摘要
果实成熟代表了植物特有的真核生物发育的遗传和激素调控的复杂系统。我们利用番茄成熟突变体作为工具来阐明成熟调控的遗传成分,并且最近证明了“永不成熟”(Nr)突变体对植物生长调节剂乙烯不敏感(M.B. 拉纳汉、H.-C. 严、J.J. 乔瓦诺尼、H.J. 克莱 [1994] 《植物细胞》6:521 - 530)。我们在此报告正常和Nr番茄幼苗在一系列乙烯浓度下的乙烯敏感性,并表明Nr突变体对低至百万分之一的乙烯仍保留残余敏感性。对正常和经乙烯处理的突变体果实中与成熟相关基因表达的分析表明,Nr至少部分地在乙烯诱导基因表达水平上对发育施加影响。我们还使用了已知会影响乙烯感知的克隆番茄和拟南芥序列作为限制性片段长度多态性探针,并鉴定出一个与Nr连锁的番茄基因座,该基因座在低严谨度下与拟南芥ETR1基因杂交,这表明Nr可能与ETR1同源。
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