Literature DB >> 26839411

Strand-biased cytosine deamination at the replication fork causes cytosine to thymine mutations in Escherichia coli.

Ashok S Bhagwat1, Weilong Hao2, Jesse P Townes3, Heewook Lee4, Haixu Tang4, Patricia L Foster3.   

Abstract

The rate of cytosine deamination is much higher in single-stranded DNA (ssDNA) than in double-stranded DNA, and copying the resulting uracils causes C to T mutations. To study this phenomenon, the catalytic domain of APOBEC3G (A3G-CTD), an ssDNA-specific cytosine deaminase, was expressed in an Escherichia coli strain defective in uracil repair (ung mutant), and the mutations that accumulated over thousands of generations were determined by whole-genome sequencing. C:G to T:A transitions dominated, with significantly more cytosines mutated to thymine in the lagging-strand template (LGST) than in the leading-strand template (LDST). This strand bias was present in both repair-defective and repair-proficient cells and was strongest and highly significant in cells expressing A3G-CTD. These results show that the LGST is accessible to cellular cytosine deaminating agents, explains the well-known GC skew in microbial genomes, and suggests the APOBEC3 family of mutators may target the LGST in the human genome.

Entities:  

Keywords:  APOBEC3A; APOBEC3B; cancer genome mutations; kataegis; uracil-DNA glycosylase

Mesh:

Substances:

Year:  2016        PMID: 26839411      PMCID: PMC4776466          DOI: 10.1073/pnas.1522325113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  60 in total

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3.  Determinants of spontaneous mutation in the bacterium Escherichia coli as revealed by whole-genome sequencing.

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4.  Properties of the Escherichia coli DNA-binding (unwinding) protein interaction with nucleolytic enzymes and DNA.

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Review 5.  Hypermutation in human cancer genomes: footprints and mechanisms.

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6.  Mutational Strand Asymmetries in Cancer Genomes Reveal Mechanisms of DNA Damage and Repair.

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Journal:  Cell       Date:  2016-01-21       Impact factor: 41.582

7.  APOBEC3A and APOBEC3B Preferentially Deaminate the Lagging Strand Template during DNA Replication.

Authors:  James I Hoopes; Luis M Cortez; Tony M Mertz; Ewa P Malc; Piotr A Mieczkowski; Steven A Roberts
Journal:  Cell Rep       Date:  2016-01-28       Impact factor: 9.423

8.  Disruption of Transcriptional Coactivator Sub1 Leads to Genome-Wide Re-distribution of Clustered Mutations Induced by APOBEC in Active Yeast Genes.

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Journal:  PLoS Genet       Date:  2015-05-05       Impact factor: 5.917

Review 9.  APOBEC Enzymes: Mutagenic Fuel for Cancer Evolution and Heterogeneity.

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Journal:  Cancer Discov       Date:  2015-06-19       Impact factor: 39.397

10.  Genome-wide mutation avalanches induced in diploid yeast cells by a base analog or an APOBEC deaminase.

Authors:  Artem G Lada; Elena I Stepchenkova; Irina S R Waisertreiger; Vladimir N Noskov; Alok Dhar; James D Eudy; Robert J Boissy; Masayuki Hirano; Igor B Rogozin; Youri I Pavlov
Journal:  PLoS Genet       Date:  2013-09-05       Impact factor: 5.917
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  48 in total

1.  The deaminase APOBEC3B triggers the death of cells lacking uracil DNA glycosylase.

Authors:  Artur A Serebrenik; Gabriel J Starrett; Sterre Leenen; Matthew C Jarvis; Nadine M Shaban; Daniel J Salamango; Hilde Nilsen; William L Brown; Reuben S Harris
Journal:  Proc Natl Acad Sci U S A       Date:  2019-10-14       Impact factor: 11.205

2.  APOBEC3A damages the cellular genome during DNA replication.

Authors:  Abby M Green; Sébastien Landry; Konstantin Budagyan; Daphne C Avgousti; Sophia Shalhout; Ashok S Bhagwat; Matthew D Weitzman
Journal:  Cell Cycle       Date:  2016       Impact factor: 4.534

3.  Avoidance of APOBEC3B-induced mutation by error-free lesion bypass.

Authors:  James I Hoopes; Amber L Hughes; Lauren A Hobson; Luis M Cortez; Alexander J Brown; Steven A Roberts
Journal:  Nucleic Acids Res       Date:  2017-05-19       Impact factor: 16.971

4.  Determinants of Base-Pair Substitution Patterns Revealed by Whole-Genome Sequencing of DNA Mismatch Repair Defective Escherichia coli.

Authors:  Patricia L Foster; Brittany A Niccum; Ellen Popodi; Jesse P Townes; Heewook Lee; Wazim MohammedIsmail; Haixu Tang
Journal:  Genetics       Date:  2018-06-15       Impact factor: 4.562

Review 5.  The spectrum of APOBEC3 activity: From anti-viral agents to anti-cancer opportunities.

Authors:  Abby M Green; Matthew D Weitzman
Journal:  DNA Repair (Amst)       Date:  2019-09-13

Review 6.  Functions and Malfunctions of Mammalian DNA-Cytosine Deaminases.

Authors:  Sachini U Siriwardena; Kang Chen; Ashok S Bhagwat
Journal:  Chem Rev       Date:  2016-09-01       Impact factor: 60.622

7.  Cytosine Deaminase APOBEC3A Sensitizes Leukemia Cells to Inhibition of the DNA Replication Checkpoint.

Authors:  Abby M Green; Konstantin Budagyan; Katharina E Hayer; Morgann A Reed; Milan R Savani; Gerald B Wertheim; Matthew D Weitzman
Journal:  Cancer Res       Date:  2017-06-27       Impact factor: 12.701

8.  The Spectrum of Replication Errors in the Absence of Error Correction Assayed Across the Whole Genome of Escherichia coli.

Authors:  Brittany A Niccum; Heewook Lee; Wazim MohammedIsmail; Haixu Tang; Patricia L Foster
Journal:  Genetics       Date:  2018-06-15       Impact factor: 4.562

9.  Functional Upregulation of the DNA Cytosine Deaminase APOBEC3B by Polyomaviruses.

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10.  Mutational Strand Asymmetries in Cancer Genomes Reveal Mechanisms of DNA Damage and Repair.

Authors:  Nicholas J Haradhvala; Paz Polak; Petar Stojanov; Kyle R Covington; Eve Shinbrot; Julian M Hess; Esther Rheinbay; Jaegil Kim; Yosef E Maruvka; Lior Z Braunstein; Atanas Kamburov; Philip C Hanawalt; David A Wheeler; Amnon Koren; Michael S Lawrence; Gad Getz
Journal:  Cell       Date:  2016-01-21       Impact factor: 41.582
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