Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death

Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death

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Methylation-prone CpG dinucleotides are strongly conserved in the germline, yet are also predisposed to somatic mutation. Here we quantify the relationship between germline codon mutability and somatic carcinogenesis by comparing usage of the nonsense-prone CGA (→TGA) codons in gene groups that diff...

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Main Authors: Yongzhong Zhao, Richard J. Epstein
Format: Article
Language:English
Published: SAGE Publishing 2013-01-01
Series:Evolutionary Bioinformatics
Online Access:https://doi.org/10.4137/EBO.S11759
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spelling doaj-5f0264e7106d4f9eb764036da9f9829b2020-11-25T04:08:57ZengSAGE PublishingEvolutionary Bioinformatics1176-93432013-01-01910.4137/EBO.S11759Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell DeathYongzhong Zhao0Richard J. Epstein1Department of Genetics, Mount Sinai School of Medicine, New York, USA.Laboratory of Genome Evolution and Informatics, The Kinghorn Cancer Centre, St. Vincent's Hospital, University of New South Wales, Sydney, Australia.Methylation-prone CpG dinucleotides are strongly conserved in the germline, yet are also predisposed to somatic mutation. Here we quantify the relationship between germline codon mutability and somatic carcinogenesis by comparing usage of the nonsense-prone CGA (→TGA) codons in gene groups that differ in apoptotic function; to this end, suppressor genes were subclassified as either apoptotic (gatekeepers) or repair (caretakers). Mutations affecting CGA codons in sporadic tumors proved to be highly asymmetric. Moreover, nonsense mutations were 3-fold more likely to affect gatekeepers than caretakers. In addition, intragenic CGA clustering nonrandomly affected functionally critical regions of gatekeepers. We conclude that human gatekeeper suppressor genes are enriched for nonsense-prone codons, and submit that this germline vulnerability to tumors could reflect in utero selection for a methylation-dependent capability to short-circuit environmental insults that otherwise trigger apoptosis and fetal loss.https://doi.org/10.4137/EBO.S11759
collection DOAJ
language English
format Article
sources DOAJ
author Yongzhong Zhao
Richard J. Epstein
spellingShingle Yongzhong Zhao
Richard J. Epstein
Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
Evolutionary Bioinformatics
author_facet Yongzhong Zhao
Richard J. Epstein
author_sort Yongzhong Zhao
title Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
title_short Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
title_full Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
title_fullStr Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
title_full_unstemmed Conserved Nonsense-Prone CpG Sites in Apoptosis-Regulatory Genes: Conditional Stop Signs on the Road to cell Death
title_sort conserved nonsense-prone cpg sites in apoptosis-regulatory genes: conditional stop signs on the road to cell death
publisher SAGE Publishing
series Evolutionary Bioinformatics
issn 1176-9343
publishDate 2013-01-01
description Methylation-prone CpG dinucleotides are strongly conserved in the germline, yet are also predisposed to somatic mutation. Here we quantify the relationship between germline codon mutability and somatic carcinogenesis by comparing usage of the nonsense-prone CGA (→TGA) codons in gene groups that differ in apoptotic function; to this end, suppressor genes were subclassified as either apoptotic (gatekeepers) or repair (caretakers). Mutations affecting CGA codons in sporadic tumors proved to be highly asymmetric. Moreover, nonsense mutations were 3-fold more likely to affect gatekeepers than caretakers. In addition, intragenic CGA clustering nonrandomly affected functionally critical regions of gatekeepers. We conclude that human gatekeeper suppressor genes are enriched for nonsense-prone codons, and submit that this germline vulnerability to tumors could reflect in utero selection for a methylation-dependent capability to short-circuit environmental insults that otherwise trigger apoptosis and fetal loss.
url https://doi.org/10.4137/EBO.S11759
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AT richardjepstein conservednonsensepronecpgsitesinapoptosisregulatorygenesconditionalstopsignsontheroadtocelldeath
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