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At3g08030 转录本:种子老化的分子标记。

At3g08030 transcript: a molecular marker of seed ageing.

机构信息

Instituto de Ecología, Universidad Nacional Autónoma de México, Apartado Postal 70-275, Ciudad Universitaria 04510, México, DF México.

出版信息

Ann Bot. 2012 Nov;110(6):1253-60. doi: 10.1093/aob/mcs200. Epub 2012 Sep 12.

Abstract

BACKGROUND AND AIMS

Prolonged storage generally reduces seed viability and vigour, although the rate of deterioration varies among species and environmental conditions. Here, we suggest a possible ageing molecular marker: At3g08030 mRNA. At3g08030 is a member of the DUF642 highly conserved family of cell-wall-associated proteins that is specific for spermatophytes.

METHODS

At3g08030 expression was performed by RT-PCR and qRT-PCR analysis in seed samples differing in their rate of germination and final germination following a matrix priming and/or controlled deterioration (rapid ageing) treatment.

KEY RESULTS

The At3g08030 gene transcript was present during the entire Arabidopsis thaliana plant life cycle and in seeds, during maturation, the ripening period and after germination. Matrix priming treatment increased the rate of germination of control seeds and seeds aged by controlled deterioration. Priming treatments also increased At3g08030 expression. To determine whether the orthologues of this gene are also age markers in other plant species, At3g08030 was cloned in two wild species, Ceiba aesculifolia and Wigandia urens. As in A. thaliana, the At3g08030 transcript was not present in aged seeds of the tested species but was present in recently shed seeds. A reduction in germination performance of the aged seeds under salt stress was determined by germination assays.

CONCLUSIONS

At3g08030 mRNA detection in a dry seed lot has potential for use as a molecular marker for germination performance in a variety of plant species.

摘要

背景与目的

尽管物种和环境条件的不同会导致种子活力和活力的下降,但长期储存通常会降低种子的活力和活力。在这里,我们提出了一个可能的衰老分子标记:At3g08030 mRNA。At3g08030 是细胞壁相关蛋白的 DUF642 高度保守家族的成员,该蛋白特异于孢子植物。

方法

通过 RT-PCR 和 qRT-PCR 分析,在种子样本中进行了 At3g08030 的表达分析,这些种子样本在基质引发和/或受控劣化(快速老化)处理后,其发芽率和最终发芽率不同。

主要结果

At3g08030 基因转录本存在于整个拟南芥植物生命周期和种子中,在成熟、成熟过程中和发芽后。基质引发处理增加了对照种子和经受控劣化处理的老化种子的发芽率。引发处理还增加了 At3g08030 的表达。为了确定该基因的同源物是否也是其他植物物种的衰老标记,我们在两个野生物种,Ceiba aesculifolia 和 Wigandia urens 中克隆了 At3g08030。与拟南芥一样,测试物种的老化种子中不存在 At3g08030 转录本,但存在于最近脱落的种子中。通过发芽试验确定了老化种子在盐胁迫下发芽性能的下降。

结论

在干燥种子库中检测到 At3g08030 mRNA 有可能作为多种植物物种发芽性能的分子标记。

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