TERRA介导的端粒维持

真核细胞线状染色体末端特殊结构被称为端粒,而端粒维持对于生命体来说具有十分重要的意义,其维持机制也十分复杂.端粒酶可以通过其具有的特殊逆转录酶特性,利用自身的RNA模板(TERC)以及具有催化功能的蛋白质亚基(TERT)延长端粒,维持其长度.本文着重综述端粒TERRA (telomeric repeat-contain...     

TERRA mimicking ssRNAs prevail over the DNA substrate for telomerase in vitro due to interactions with the alternative binding site

Telomerase is a key component of the telomere length maintenance system in the majority of eukaryotes. Telomerase displays maximal activity in stem and cancer cells with high proliferative potential. In humans, telomerase activity is regulated by various mechanisms, including the interaction with telomere ssDNA overhangs that contain a repetitive G‐rich sequence, and with noncoding RNA, Telomeric repeat‐containing RNA (TERRA), that contains the same sequence. So these nucleic acids can compete for telomerase RNA templates in the cell. In this study, we have investigated the ability of different model substrates mimicking telomere DNA overhangs and TERRA RNA to compete for telomerase in vitro through a previously developed telomerase inhibitor assay. We have shown in this study that RNA oligonucleotides are better competitors for telomerase that DNA ones as RNA also use an alternative binding site on telomerase, and the presence of 2′‐OH groups is significant in these interactions. In contrast to DNA, the possibility of forming intramolecular G‐quadruplex structures has a minor effect for RNA binding to telomerase. Taking together our data, we propose that TERRA RNA binds better to telomerase compared with its native substrate – the 3′‐end of telomere DNA overhang. As a result, some specific factor may exist that participates in switching telomerase from TERRA to the 3′‐end of DNA for telomere elongation at the distinct period of a cell cycle in vivo. Copyright © 2015 John Wiley & Sons, Ltd.