Polygalacturonase genes in tomato flower and leaf abscission zones- A novel trait for molecular breeding

S. Sundaresan, I. A. Pravin, S. Philosoph-Hadas, S. Meir
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引用次数: 1

Abstract

Abscission of plant organs is a key process during plant life cycle and prerequisite factor involved in limiting the spread of disease, shedding of un-pollinated flowers and facilitates dispersal of seeds. In an agricultural context, abscission may become a major limiting factor for crop productivity. The organs abscise at a specific position called Abscission zone (AZ) and it is one of the prime traits to be manipulated during the crop improvement process towards the selection of reduced abscission lines. The tomato abscission polygalacturonase (TAPG) genes are abscission induced polygalacturonases and specifically induced in the AZ, which plays a major role in AZ separation. The current study had accentuated to identify the entire polygalacturonase gene families in tomato AZs, through AZ specific customized microarray. The results revealed that TAPG1, 2, 5, 7 and TPG6, PS2 genes were specifically induced and continuously overexpressed linearly along with abscission progression in tomato flower AZ. Similarly, the same set of genes were up-regulated upon abscission induction at the early hours (24 h) in the leaf AZ, indicating potential involvement in organ abscission. Our study provides new insights for the regulation of the early events in the process of tomato organ abscission and a novel trait for molecular breeding.
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番茄花和叶脱落区聚半乳糖醛酸酶基因——一个分子育种新性状
植物器官脱落是植物生命周期的关键过程,是限制疾病传播、未授粉花朵脱落和促进种子传播的先决条件。在农业方面,脱落可能成为作物生产力的主要限制因素。器官在一个特定的位置脱落,称为脱落区(脱落区),这是在作物改良过程中选择减少脱落系的主要性状之一。番茄脱落聚半乳糖醛酸酶(TAPG)基因是脱落诱导的多聚半乳糖醛酸酶,在AZ中特异诱导,在AZ分离中起主要作用。目前的研究重点是通过特异性定制微阵列技术来鉴定番茄AZ中的整个聚半乳糖醛酸酶基因家族。结果表明,TAPG1、2、5、7和TPG6、PS2基因在番茄花脱落过程中被特异性诱导,并随着脱落进程呈线性持续过表达。同样,在叶片脱落早期(24 h),同一组基因在诱导脱落时表达上调,这可能与器官脱落有关。本研究为番茄器官脱落过程的早期调控提供了新思路,为分子育种提供了新性状。
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