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Tracking replication enzymology in vivo by genome-wide mapping of ribonucleotide incorporation.

ABSTRACT: Ribonucleotides are frequently incorporated into DNA during replication in eukaryotes. Here we map genome-wide distribution of these ribonucleotides as markers of replication enzymology in budding yeast, using a new 5' DNA end-mapping method, hydrolytic end sequencing (HydEn-seq). HydEn-seq of DNA from ribonucleotide excision repair-deficient strains reveals replicase- and strand-specific patterns of ribonucleotides in the nuclear genome. These patterns support the roles of DNA polymerases ? and ? in lagging-strand replication and of DNA polymerase ? in leading-strand replication. They identify replication origins, termination zones and variations in ribonucleotide incorporation frequency across the genome that exceed three orders of magnitude. HydEn-seq also reveals strand-specific 5' DNA ends at mitochondrial replication origins, thus suggesting unidirectional replication of a circular genome. Given the conservation of enzymes that incorporate and process ribonucleotides in DNA, HydEn-seq can be used to track replication enzymology in other organisms.

SUBMITTER: Clausen AR 

PROVIDER: S-EPMC4351163 | biostudies-literature | 2015 Mar

REPOSITORIES: biostudies-literature

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Tracking replication enzymology in vivo by genome-wide mapping of ribonucleotide incorporation.

Clausen Anders R AR   Lujan Scott A SA   Burkholder Adam B AB   Orebaugh Clinton D CD   Williams Jessica S JS   Clausen Maryam F MF   Malc Ewa P EP   Mieczkowski Piotr A PA   Fargo David C DC   Smith Duncan J DJ   Kunkel Thomas A TA  

Nature structural & molecular biology 20150126 3

Ribonucleotides are frequently incorporated into DNA during replication in eukaryotes. Here we map genome-wide distribution of these ribonucleotides as markers of replication enzymology in budding yeast, using a new 5' DNA end-mapping method, hydrolytic end sequencing (HydEn-seq). HydEn-seq of DNA from ribonucleotide excision repair-deficient strains reveals replicase- and strand-specific patterns of ribonucleotides in the nuclear genome. These patterns support the roles of DNA polymerases α and  ...[more]

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