Literature DB >> 15902273

Homologous recombination is involved in transcription-coupled repair of UV damage in Saccharomyces cerevisiae.

Abdelilah Aboussekhra1, Ibtehaj S Al-Sharif.   

Abstract

To efficiently protect the integrity of genetic information, transcription is connected to nucleotide excision repair (NER), which allows preferential repair of the transcribed DNA strands (TS). As yet, the molecular basis of this connection remains elusive in eukaryotic cells. Here we show that, in haploids, the RAD26 gene is essential for the preferential repair of the TS during G1. However, in G2/M phase there is an additional RAD51-dependent process that enhances repair of TS. Importantly, the simultaneous deletion of both RAD26 and RAD51 led to complete abolishment of strand-specific repair during G2/M, indicating that these genes act through two independent but complementary subpathways. In diploids, however, RAD51 is involved in repair of the TS even in G1 phase, which unveils the implication of homologous recombination in the preferential repair of the TS. Importantly, the abolishment of NER, by abrogation of RAD1 or RAD14, completely stopped repair of UV damage even during G2/M phase. These results show the existence of functional cross-talk between transcription, homologous recombination and NER.

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Year:  2005        PMID: 15902273      PMCID: PMC1142603          DOI: 10.1038/sj.emboj.7600665

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  50 in total

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  13 in total

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3.  Highly conserved regimes of neighbor-base-dependent mutation generated the background primary-structural heterogeneities along vertebrate chromosomes.

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4.  EMSY overexpression disrupts the BRCA2/RAD51 pathway in the DNA-damage response: implications for chromosomal instability/recombination syndromes as checkpoint diseases.

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5.  Cockayne syndrome group B protein has novel strand annealing and exchange activities.

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6.  Rad10 exhibits lesion-dependent genetic requirements for recruitment to DNA double-strand breaks in Saccharomyces cerevisiae.

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7.  In vivo and in silico analysis of PCNA ubiquitylation in the activation of the Post Replication Repair pathway in S. cerevisiae.

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Review 8.  The role of altered nucleotide excision repair and UVB-induced DNA damage in melanomagenesis.

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9.  Transcription of Satellite III non-coding RNAs is a general stress response in human cells.

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10.  A single amino acid change in histone H4 enhances UV survival and DNA repair in yeast.

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