植物中端粒长度和端粒酶活性的发育控制

Developmental control of telomere lengths and telomerase activity in plants.

作者信息

Riha K, Fajkus J, Siroky J, Vyskot B

机构信息

Institute of Biophysics, Czech Academy of Sciences, Kralovopolska 135, 612 65 Brno, Czech Republic.

出版信息

Plant Cell. 1998 Oct;10(10):1691-8. doi: 10.1105/tpc.10.10.1691.

DOI:10.1105/tpc.10.10.1691

PMID:9761795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC143947/

Abstract

Telomere lengths and telomerase activity were studied during the development of a model dioecious plant, Melandrium album (syn Silene latifolia). Telomeric DNA consisted of Arabidopsis-type TTTAGGG tandem repeats. The terminal positions of these repeats were confirmed by both Bal31 exonuclease degradation and in situ hybridization. Analysis of terminal restriction fragments in different tissues and ontogenetic stages showed that telomere lengths are stabilized precisely and do not change during plant growth and development. Telomerase activity tested by using a semiquantitative telomerase repeat amplification protocol correlated with cell proliferation in the tissues analyzed. Highest activity was found in germinating seedlings and root tips, whereas we observed a 100-fold decrease in telomerase activity in leaves and no activity in quiescent seeds. Telomerase also was found in mature pollen grains. Telomerase activity in tissues containing dividing cells and telomere length stability during development suggest their precise control during plant ontogenesis; however, the telomere length regulation mechanism could be unbalanced during in vitro dedifferentiation.

摘要

在雌雄异株植物模式物种白麦瓶草（Silene latifolia）的发育过程中，对端粒长度和端粒酶活性进行了研究。端粒DNA由拟南芥型TTTAGGG串联重复序列组成。这些重复序列的末端位置通过Bal31核酸外切酶降解和原位杂交得以确认。对不同组织和个体发育阶段的末端限制片段分析表明，端粒长度在植物生长和发育过程中精确稳定，不会发生变化。使用半定量端粒酶重复序列扩增协议检测的端粒酶活性与所分析组织中的细胞增殖相关。在萌发的幼苗和根尖中发现了最高活性，而在叶片中端粒酶活性下降了100倍，在静止种子中未检测到活性。在成熟花粉粒中也发现了端粒酶。含有分裂细胞的组织中的端粒酶活性以及发育过程中端粒长度的稳定性表明，它们在植物个体发育过程中受到精确控制；然而，在体外去分化过程中，端粒长度调节机制可能会失衡。

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