PIGA和PIGL突变均会导致Tk6细胞系中出现糖基磷脂酰肌醇锚定蛋白（GPI-a）缺陷型分离株。

Both PIGA and PIGL mutations cause GPI-a deficient isolates in the Tk6 cell line.

作者信息

Nicklas Janice A, Carter Elizabeth W, Albertini Richard J

机构信息

Department of Pediatrics, University of Vermont College of Medicine, Burlington, Vermont.

Center for Clinical and Translational Science, Biomedical Informatics Unit, University of Vermont, Burlington, Vermont.

出版信息

Environ Mol Mutagen. 2015 Oct;56(8):663-73. doi: 10.1002/em.21953. Epub 2015 May 13.

DOI:10.1002/em.21953

PMID:25970100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4607541/

Abstract

Molecular analysis of proaerolysin selected glycosylphosphatidylinositol anchor (GPI-a) deficient isolates in the TK6 cell line was performed. Initial studies found that the expected X-linked PIGA mutations were rare among the spontaneous isolates but did increase modestly after ethyl methane sulfate (EMS) treatment (but to only 50% of isolates). To determine the molecular bases of the remaining GPI-a deficient isolates, real-time analysis for all the 25 autosomal GPI-a pathway genes was performed on the isolates without PIGA mutations, determining that PIGL mRNA was absent for many. Further analysis determined these isolates had several different homozygous deletions of the 5' region of PIGL (17p12-p22) extending 5' (telomeric) through NCOR1 and some into the TTC19 gene (total deletion >250,000 bp). It was determined that the TK6 parent had a hemizygous deletion in 17p12-p22 (275,712 bp) extending from PIGL intron 2 into TTC19 intron 7. Second hit deletions in the other allele in the GPI-a deficient isolates led to the detected homozygous deletions. Several of the deletion breakpoints including the original first hit deletion were sequenced. As strong support for TK6 having a deletion, a number of the isolates without PIGA mutations nor homozygous PIGL deletions had point mutations in the PIGL gene. These studies show that the GPI-a mutation studies using TK6 cell line could be a valuable assay detecting point and deletion mutations in two genes simultaneously.

摘要

对在TK6细胞系中筛选出的缺乏糖基磷脂酰肌醇锚（GPI-a）的气单胞菌溶血素分离株进行了分子分析。初步研究发现，预期的X连锁PIGA突变在自发分离株中很少见，但在甲磺酸乙酯（EMS）处理后适度增加（但仅达到分离株的50%）。为了确定其余GPI-a缺陷分离株的分子基础，对所有25个常染色体GPI-a途径基因进行了实时分析，分析对象为没有PIGA突变的分离株，结果确定许多分离株中不存在PIGL mRNA。进一步分析确定，这些分离株在PIGL（17p12 - p22）的5'区域有几个不同的纯合缺失，从5'（端粒）延伸穿过NCOR1，有些进入TTC19基因（总缺失>250,000 bp）。已确定TK6亲本在17p12 - p22（275,712 bp）中有一个半合子缺失，从PIGL内含子2延伸到TTC19内含子7。GPI-a缺陷分离株中另一个等位基因的第二次打击缺失导致了检测到的纯合缺失。对包括原始第一次打击缺失在内的几个缺失断点进行了测序。作为对TK6存在缺失的有力支持，一些既没有PIGA突变也没有PIGL纯合缺失的分离株在PIGL基因中有点突变。这些研究表明，使用TK6细胞系进行的GPI-a突变研究可能是一种有价值的检测方法，可同时检测两个基因中的点突变和缺失突变。

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