Ddb1 controls genome stability and meiosis in fission yeast

Christian Henrik Holmberg; Oliver Fleck; H. A. Hansen; C. Liu; R. Slaaby; A. M. carr; O. Nielsen

doi:10.1101/gad.329905

Ddb1 controls genome stability and meiosis in fission yeast

Christian Henrik Holmberg, Oliver Fleck, H. A. Hansen, C. Liu, R. Slaaby, A. M. carr, O. Nielsen

Department of Biology

79 Citations (Scopus)

Abstract

The human UV-damaged DNA-binding protein Ddb1 associates with cullin 4 ubiquitin ligases implicated in nucleotide excision repair (NER). These complexes also contain the signalosome (CSN), but NER-relevant ubiquitination targets have not yet been identified. We report that fission yeast Ddb1, Cullin 4 (Pcu4), and CSN subunits Csn1 and Csn2 are required for degradation of the ribonucleotide reductase (RNR) inhibitor protein Spd1. Ddb1-deficient cells have >20-fold increased spontaneous mutation rate. This is partly dependent on the error-prone translesion DNA polymerases. Spd1 deletion substantially reduced the mutation rate, suggesting that insufficient RNR activity accounts for ~50% of observed mutations. Epistasis analysis indicated that Ddb1 contributed to mutation avoidance and tolerance to DNA damage in a pathway distinct from NER. Finally, we show that Ddb1/Csn1/Cullin 4-mediated Spd1 degradation becomes essential when cells differentiate into meiosis. These results suggest that Ddb1, along with Cullin 4 and the signalosome, constitute a major pathway controlling genome stability, repair, and differentiation via RNR regulation.

Original language	English
Journal	Genes & Development
Volume	19
Issue number	7
Pages (from-to)	853-862
ISSN	0890-9369
DOIs	https://doi.org/10.1101/gad.329905
Publication status	Published - 2005

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title = "Ddb1 controls genome stability and meiosis in fission yeast",

abstract = "The human UV-damaged DNA-binding protein Ddb1 associates with cullin 4 ubiquitin ligases implicated in nucleotide excision repair (NER). These complexes also contain the signalosome (CSN), but NER-relevant ubiquitination targets have not yet been identified. We report that fission yeast Ddb1, Cullin 4 (Pcu4), and CSN subunits Csn1 and Csn2 are required for degradation of the ribonucleotide reductase (RNR) inhibitor protein Spd1. Ddb1-deficient cells have >20-fold increased spontaneous mutation rate. This is partly dependent on the error-prone translesion DNA polymerases. Spd1 deletion substantially reduced the mutation rate, suggesting that insufficient RNR activity accounts for ~50% of observed mutations. Epistasis analysis indicated that Ddb1 contributed to mutation avoidance and tolerance to DNA damage in a pathway distinct from NER. Finally, we show that Ddb1/Csn1/Cullin 4-mediated Spd1 degradation becomes essential when cells differentiate into meiosis. These results suggest that Ddb1, along with Cullin 4 and the signalosome, constitute a major pathway controlling genome stability, repair, and differentiation via RNR regulation.",

author = "Holmberg, {Christian Henrik} and Oliver Fleck and Hansen, {H. A.} and C. Liu and R. Slaaby and carr, {A. M.} and O. Nielsen",

note = "Keywords Genome stability meiosis ribonucleotide reductase Ddb1 S. pombe",

year = "2005",

doi = "10.1101/gad.329905",

language = "English",

volume = "19",

pages = "853--862",

journal = "Genes & Development",

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T1 - Ddb1 controls genome stability and meiosis in fission yeast

AU - Holmberg, Christian Henrik

AU - Fleck, Oliver

AU - Hansen, H. A.

AU - Liu, C.

AU - Slaaby, R.

AU - carr, A. M.

AU - Nielsen, O.

N1 - Keywords Genome stability meiosis ribonucleotide reductase Ddb1 S. pombe

PY - 2005

Y1 - 2005

N2 - The human UV-damaged DNA-binding protein Ddb1 associates with cullin 4 ubiquitin ligases implicated in nucleotide excision repair (NER). These complexes also contain the signalosome (CSN), but NER-relevant ubiquitination targets have not yet been identified. We report that fission yeast Ddb1, Cullin 4 (Pcu4), and CSN subunits Csn1 and Csn2 are required for degradation of the ribonucleotide reductase (RNR) inhibitor protein Spd1. Ddb1-deficient cells have >20-fold increased spontaneous mutation rate. This is partly dependent on the error-prone translesion DNA polymerases. Spd1 deletion substantially reduced the mutation rate, suggesting that insufficient RNR activity accounts for ~50% of observed mutations. Epistasis analysis indicated that Ddb1 contributed to mutation avoidance and tolerance to DNA damage in a pathway distinct from NER. Finally, we show that Ddb1/Csn1/Cullin 4-mediated Spd1 degradation becomes essential when cells differentiate into meiosis. These results suggest that Ddb1, along with Cullin 4 and the signalosome, constitute a major pathway controlling genome stability, repair, and differentiation via RNR regulation.

AB - The human UV-damaged DNA-binding protein Ddb1 associates with cullin 4 ubiquitin ligases implicated in nucleotide excision repair (NER). These complexes also contain the signalosome (CSN), but NER-relevant ubiquitination targets have not yet been identified. We report that fission yeast Ddb1, Cullin 4 (Pcu4), and CSN subunits Csn1 and Csn2 are required for degradation of the ribonucleotide reductase (RNR) inhibitor protein Spd1. Ddb1-deficient cells have >20-fold increased spontaneous mutation rate. This is partly dependent on the error-prone translesion DNA polymerases. Spd1 deletion substantially reduced the mutation rate, suggesting that insufficient RNR activity accounts for ~50% of observed mutations. Epistasis analysis indicated that Ddb1 contributed to mutation avoidance and tolerance to DNA damage in a pathway distinct from NER. Finally, we show that Ddb1/Csn1/Cullin 4-mediated Spd1 degradation becomes essential when cells differentiate into meiosis. These results suggest that Ddb1, along with Cullin 4 and the signalosome, constitute a major pathway controlling genome stability, repair, and differentiation via RNR regulation.

U2 - 10.1101/gad.329905

DO - 10.1101/gad.329905

M3 - Journal article

C2 - 15805471

SN - 0890-9369

VL - 19

SP - 853

EP - 862

JO - Genes & Development

JF - Genes & Development

IS - 7

ER -

Ddb1 controls genome stability and meiosis in fission yeast

Abstract

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