Genome instability due to ribonucleotide incorporation into DNA. - Wikidata - wikimedia - TriplyDB

Genome instability due to ribonucleotide incorporation into DNA.

Genome instability due to ribonucleotide incorporation into DNA.

http://www.wikidata.org/entity/Q34142849

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Out of balance: R-loops in human disease The major roles of DNA polymerases epsilon and delta at the eukaryotic replication fork are evolutionarily conserved Ribonucleotides misincorporated into DNA act as strand-discrimination signals in eukaryotic mismatch repair DNA polymerase ε and its roles in genome stability Structure-function studies of DNA polymerase λ Ribonucleotides in bacterial DNA DNA polymerase delta in DNA replication and genome maintenance Molecular Insights into DNA Polymerase Deterrents for Ribonucleotide Insertion Differential Furanose Selection in the Active Sites of Archaeal DNA Polymerases Probed by Fixed-Conformation Nucleotide Analogues RNase H2 roles in genome integrity revealed by unlinking its activities Activity, stability, and structure of metagenome-derived LC11-RNase H1, a homolog ofSulfolobus tokodaiiRNase H1 Solution Structure of the Dickerson DNA Dodecamer Containing a Single Ribonucleotide Structural Factors That Determine Selectivity of a High Fidelity DNA Polymerase for Deoxy-, Dideoxy-, and Ribonucleotides Structure-function analysis of ribonucleotide bypass by B family DNA replicases Aprataxin resolves adenylated RNA–DNA junctions to maintain genome integrity Structure and characterization of RNase H3 from Aquifex aeolicus Metabolism of Vertebrate Amino Sugars with N-Glycolyl Groups: INTRACELLULAR -O-LINKED N-GLYCOLYLGLUCOSAMINE (GlcNGc), UDP-GlcNGc, AND THE BIOCHEMICAL AND STRUCTURAL RATIONALE FOR THE SUBSTRATE TOLERANCE OF -O-LINKED -N-ACETYLGLUCOSAMINIDASE Structure and function of an RNA-reading thermostable DNA polymerase Structural Impact of Single Ribonucleotide Residues in DNA Analysis of subunit assembly and function of the Saccharomyces cerevisiae RNase H2 complex.Defects in purine nucleotide metabolism lead to substantial incorporation of xanthine and hypoxanthine into DNA and RNA DNA Polymerases λ and β: The Double-Edged Swords of DNA Repair Redundancy in ribonucleotide excision repair: Competition, compensation, and cooperation New insights into the mechanism of DNA mismatch repair Lagging-strand replication shapes the mutational landscape of the genome Topoisomerase I alone is sufficient to produce short DNA deletions and can also reverse nicks at ribonucleotide sites A Major Role of DNA Polymerase δ in Replication of Both the Leading and Lagging DNA Strands Eukaryotic genome instability in light of asymmetric DNA replication Unlocking the sugar "steric gate" of DNA polymerases DNA replication error-induced extinction of diploid yeast Mechanisms employed by Escherichia coli to prevent ribonucleotide incorporation into genomic DNA by Pol V Mammalian RNase H2 removes ribonucleotides from DNA to maintain genome integrity Dominant mutations in S. cerevisiae PMS1 identify the Mlh1-Pms1 endonuclease active site and an exonuclease 1-independent mismatch repair pathway The deletion of rnhB in Mycobacterium smegmatis does not affect the level of RNase HII substrates or influence genome stability Ribonucleotides as nucleotide excision repair substrates.The Eukaryotic Mismatch Recognition Complexes Track with the Replisome during DNA Synthesis Mouse models for Aicardi-Goutières syndrome provide clues to the molecular pathogenesis of systemic autoimmunity Ribonucleotides are signals for mismatch repair of leading-strand replication errors DNA repair mechanisms and the bypass of DNA damage in Saccharomyces cerevisiae Ribonucleotides in DNA: Origins, repair and consequences

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P2860

Genome instability due to ribonucleotide incorporation into DNA.

http://www.wikidata.org/entity/Q34142849

description

2010 nî lūn-bûn

@nan

2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

2010年の論文

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2010年論文

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2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

Genome instability due to ribonucleotide incorporation into DNA.

@ast

Genome instability due to ribonucleotide incorporation into DNA.

@en

Genome instability due to ribonucleotide incorporation into DNA.

@nl

type

label

Genome instability due to ribonucleotide incorporation into DNA.

@ast

Genome instability due to ribonucleotide incorporation into DNA.

@en

Genome instability due to ribonucleotide incorporation into DNA.

@nl

prefLabel

Genome instability due to ribonucleotide incorporation into DNA.

@ast

Genome instability due to ribonucleotide incorporation into DNA.

@en

Genome instability due to ribonucleotide incorporation into DNA.

@nl

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Nature Chemical Biology

P1476

Genome instability due to ribonucleotide incorporation into DNA

@en

P2093

Alan B Clark

http://www.w3.org/2001/XMLSchema#string

Brian E Watts

http://www.w3.org/2001/XMLSchema#string

Danielle L Watt

http://www.w3.org/2001/XMLSchema#string

Dinesh Kumar

http://www.w3.org/2001/XMLSchema#string

Else-Britt Lundström

http://www.w3.org/2001/XMLSchema#string

Erik Johansson

http://www.w3.org/2001/XMLSchema#string

Stephanie A Nick McElhinny

http://www.w3.org/2001/XMLSchema#string

Thomas A Kunkel

http://www.w3.org/2001/XMLSchema#string

P2860

Yeast DNA polymerase epsilon participates in leading-strand DNA replication

Polymerase dynamics at the eukaryotic DNA replication fork

RNase H2 of Saccharomyces cerevisiae is a complex of three proteins.

Saccharomyces cerevisiae RNase H(35) functions in RNA primer removal during lagging-strand DNA synthesis, most efficiently in cooperation with Rad27 nuclease

Purification of Saccharomyces cerevisiae RNase H(70) and identification of the corresponding gene.

The quaternary structure of DNA polymerase epsilon from Saccharomyces cerevisiae.

Purification and characterization of DNA polymerase II from the yeast Saccharomyces cerevisiae. Identification of the catalytic core and a possible holoenzyme form of the enzyme.

Division of labor at the eukaryotic replication fork

In vivo consequences of putative active site mutations in yeast DNA polymerases alpha, epsilon, delta, and zeta

Physiological concentrations of purines and pyrimidines

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774-781

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10.1038/NCHEMBIO.424

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10

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6

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20729855

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2942972

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