APOBEC3A/B-induced mutagenesis is responsible for 20% of heritable mutations in the TpCpW context

APOBEC3A/B cytidine deaminase is responsible for the majority of cancerous mutations in a large fraction of cancer samples. However, its role in heritable mutagenesis remains very poorly understood. Recent studies have demonstrated that both in yeast and in human cancerous cells, most APOBEC3A/B-ind...

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Published in	Genome research Vol. 27; no. 2; pp. 175 - 184
Main Authors	Seplyarskiy, Vladimir B, Andrianova, Maria A, Bazykin, Georgii A
Format	Journal Article
Language	English
Published	United States Cold Spring Harbor Laboratory Press 01.02.2017
Subjects	Cytidine Deaminase - genetics DNA Replication - genetics Germ-Line Mutation - genetics Humans Mutagenesis Mutation Rate Neoplasms - genetics Proteins - genetics Saccharomyces cerevisiae - genetics
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Abstract	APOBEC3A/B cytidine deaminase is responsible for the majority of cancerous mutations in a large fraction of cancer samples. However, its role in heritable mutagenesis remains very poorly understood. Recent studies have demonstrated that both in yeast and in human cancerous cells, most APOBEC3A/B-induced mutations occur on the lagging strand during replication and on the nontemplate strand of transcribed regions. Here, we use data on rare human polymorphisms, interspecies divergence, and de novo mutations to study germline mutagenesis and to analyze mutations at nucleotide contexts prone to attack by APOBEC3A/B. We show that such mutations occur preferentially on the lagging strand and on nontemplate strands of transcribed regions. Moreover, we demonstrate that APOBEC3A/B-like mutations tend to produce strand-coordinated clusters, which are also biased toward the lagging strand. Finally, we show that the mutation rate is increased 3' of C→G mutations to a greater extent than 3' of C→T mutations, suggesting pervasive trans-lesion bypass of the APOBEC3A/B-induced damage. Our study demonstrates that 20% of C→T and C→G mutations in the TpCpW context-where W denotes A or T, segregating as polymorphisms in human population-or 1.4% of all heritable mutations are attributable to APOBEC3A/B activity.
AbstractList	APOBEC3A/B cytidine deaminase is responsible for the majority of cancerous mutations in a large fraction of cancer samples. However, its role in heritable mutagenesis remains very poorly understood. Recent studies have demonstrated that both in yeast and in human cancerous cells, most APOBEC3A/B-induced mutations occur on the lagging strand during replication and on the nontemplate strand of transcribed regions. Here, we use data on rare human polymorphisms, interspecies divergence, and de novo mutations to study germline mutagenesis and to analyze mutations at nucleotide contexts prone to attack by APOBEC3A/B. We show that such mutations occur preferentially on the lagging strand and on nontemplate strands of transcribed regions. Moreover, we demonstrate that APOBEC3A/B-like mutations tend to produce strand-coordinated clusters, which are also biased toward the lagging strand. Finally, we show that the mutation rate is increased 3' of C→G mutations to a greater extent than 3' of C→T mutations, suggesting pervasive trans-lesion bypass of the APOBEC3A/B-induced damage. Our study demonstrates that 20% of C→T and C→G mutations in the TpCpW context-where W denotes A or T, segregating as polymorphisms in human population-or 1.4% of all heritable mutations are attributable to APOBEC3A/B activity. APOBEC3A/B cytidine deaminase is responsible for the majority of cancerous mutations in a large fraction of cancer samples. However, its role in heritable mutagenesis remains very poorly understood. Recent studies have demonstrated that both in yeast and in human cancerous cells, most APOBEC3A/B-induced mutations occur on the lagging strand during replication and on the nontemplate strand of transcribed regions. Here, we use data on rare human polymorphisms, interspecies divergence, and de novo mutations to study germline mutagenesis and to analyze mutations at nucleotide contexts prone to attack by APOBEC3A/B. We show that such mutations occur preferentially on the lagging strand and on nontemplate strands of transcribed regions. Moreover, we demonstrate that APOBEC3A/B-like mutations tend to produce strand-coordinated clusters, which are also biased toward the lagging strand. Finally, we show that the mutation rate is increased 3' of C arrow right G mutations to a greater extent than 3' of C arrow right T mutations, suggesting pervasive trans-lesion bypass of the APOBEC3A/B-induced damage. Our study demonstrates that 20% of C arrow right T and C arrow right G mutations in the TpCpW context-where W denotes A or T, segregating as polymorphisms in human population-or 1.4% of all heritable mutations are attributable to APOBEC3A/B activity.
Author	Andrianova, Maria A Bazykin, Georgii A Seplyarskiy, Vladimir B
AuthorAffiliation	2 Pirogov Russian National Research Medical University, Moscow 117997, Russia 1 Institute for Information Transmission Problems of the Russian Academy of Sciences (Kharkevich Institute), Moscow 127994, Russia 4 Skolkovo Institute of Science and Technology, Skolkovo 143026, Russia 3 Lomonosov Moscow State University, Moscow 119234, Russia
AuthorAffiliation_xml	– name: 3 Lomonosov Moscow State University, Moscow 119234, Russia – name: 1 Institute for Information Transmission Problems of the Russian Academy of Sciences (Kharkevich Institute), Moscow 127994, Russia – name: 4 Skolkovo Institute of Science and Technology, Skolkovo 143026, Russia – name: 2 Pirogov Russian National Research Medical University, Moscow 117997, Russia
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Snippet	APOBEC3A/B cytidine deaminase is responsible for the majority of cancerous mutations in a large fraction of cancer samples. However, its role in heritable...
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SubjectTerms	Cytidine Deaminase - genetics DNA Replication - genetics Germ-Line Mutation - genetics Humans Mutagenesis Mutation Rate Neoplasms - genetics Proteins - genetics Saccharomyces cerevisiae - genetics
Title	APOBEC3A/B-induced mutagenesis is responsible for 20% of heritable mutations in the TpCpW context
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