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利用 T-DNA 插入突变体的分子分析,鉴定了 AtTERT 基因中的潜在调控元件。

Molecular analysis of T-DNA insertion mutants identified putative regulatory elements in the AtTERT gene.

机构信息

Institute of Biophysics, Academy of Sciences of the Czech Republic, v.v.i., Královopolská 135, CZ-61265 Brno, Czech Republic.

出版信息

J Exp Bot. 2011 Nov;62(15):5531-45. doi: 10.1093/jxb/err235. Epub 2011 Aug 23.

DOI:10.1093/jxb/err235
PMID:21865176
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3223050/
Abstract

Analysis of plants bearing a T-DNA insertion is a potent tool of modern molecular biology, providing valuable information about the function and involvement of genes in metabolic pathways. A collection of 12 Arabidopsis thaliana lines with T-DNA insertions in the gene coding for the catalytic subunit of telomerase (AtTERT) and in adjacent regions was screened for telomerase activity [telomere repeat amplification protocol (TRAP) assay], telomere length (terminal restriction fragments), and AtTERT transcription (quantitative reverse transcription-PCR). Lines with the insertion located upstream of the start codon displayed unchanged telomere stability and telomerase activity, defining a putative minimal AtTERT promoter and the presence of a regulatory element linked to increased transcription in the line SALK_048471. Lines bearing a T-DNA insertion inside the protein-coding region showed telomere shortening and lack of telomerase activity. Transcription in most of these lines was unchanged upstream of the T-DNA insertion, while it was notably decreased downstream. The expression profile varied markedly in mutant lines harbouring insertions at the 5' end of AtTERT which showed increased transcription and abolished tissue specificity. Moreover, the line FLAG_385G01 (T-DNA insertion inside intron 1) revealed the presence of a highly abundant downstream transcript with normal splicing but without active telomerase. The role of regulatory elements found along the AtTERT gene is discussed in respect to natural telomerase expression and putative intron-mediated enhancement.

摘要

对携带 T-DNA 插入的植物进行分析是现代分子生物学的有力工具,它为基因在代谢途径中的功能和参与提供了有价值的信息。对编码端粒酶(AtTERT)催化亚基和邻近区域的 T-DNA 插入的 12 个拟南芥系进行了筛选,以检测端粒酶活性(端粒重复扩增协议(TRAP)测定)、端粒长度(末端限制片段)和 AtTERT 转录(定量反转录-PCR)。位于起始密码子上游的插入系显示出未改变的端粒稳定性和端粒酶活性,定义了一个假定的最小 AtTERT 启动子,并存在与 SALK_048471 系中转录增加相关的调节元件。在蛋白编码区内携带 T-DNA 插入的系显示出端粒缩短和缺乏端粒酶活性。在这些系中,大多数系的转录在 T-DNA 插入点的上游没有改变,而在下游明显降低。在 AtTERT 5'端插入突变系中的表达谱差异显著,表现为转录增加和组织特异性丧失。此外,FLAG_385G01 系(内含子 1 内的 T-DNA 插入)显示出存在大量正常剪接但没有活性端粒酶的下游转录本。讨论了沿着 AtTERT 基因发现的调节元件在自然端粒酶表达和推定的内含子介导增强中的作用。

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