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YEAST:SGS1
Contents
| Species (Taxon ID) | Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast). (559292) | |
| Gene Name(s) | SGS1 (synonyms: TPS1) | |
| Protein Name(s) | ATP-dependent helicase SGS1
Helicase TPS1 | |
| External Links | ||
| UniProt | P35187 | |
| EMBL | U22341 L07870 Z47815 BK006946 | |
| PIR | S50918 | |
| RefSeq | NP_013915.1 | |
| PDB | 1D8B | |
| PDBsum | 1D8B | |
| ProteinModelPortal | P35187 | |
| SMR | P35187 | |
| BioGrid | 35368 | |
| DIP | DIP-2911N | |
| IntAct | P35187 | |
| MINT | MINT-442647 | |
| STRING | 4932.YMR190C | |
| MaxQB | P35187 | |
| PaxDb | P35187 | |
| PeptideAtlas | P35187 | |
| EnsemblFungi | [example_ID YMR190C] | |
| GeneID | 855228 | |
| KEGG | sce:YMR190C | |
| CYGD | YMR190c | |
| SGD | S000004802 | |
| eggNOG | COG0514 | |
| GeneTree | ENSGT00550000074520 | |
| HOGENOM | HOG000141897 | |
| InParanoid | P35187 | |
| KO | K10901 | |
| OMA | TIFEICD | |
| OrthoDB | EOG7CRTZ8 | |
| BioCyc | YEAST:G3O-32877-MONOMER | |
| EvolutionaryTrace | P35187 | |
| NextBio | 978762 | |
| Proteomes | UP000002311 | |
| Genevestigator | P35187 | |
| GO | GO:0005730 GO:0031422 GO:0005524 GO:0043140 GO:0004003 GO:0003676 GO:0051276 GO:0000729 GO:0032508 GO:0006265 GO:0006268 GO:0000724 GO:0031292 GO:0031573 GO:0045132 GO:0000706 GO:0000070 GO:0010947 GO:0010520 GO:0001302 GO:0000723 GO:0000722 GO:0031860 | |
| Gene3D | 1.10.10.10 1.10.150.80 3.40.50.300 | |
| InterPro | IPR011545 IPR002464 IPR004589 IPR014001 IPR001650 IPR022758 IPR010997 IPR002121 IPR027417 IPR018982 IPR011991 | |
| Pfam | PF00270 PF00271 PF11408 PF09382 | |
| SMART | SM00487 SM00490 SM00341 SM00956 | |
| SUPFAM | SSF47819 SSF52540 | |
| TIGRFAMs | TIGR00614 | |
| PROSITE | PS00690 PS51192 PS51194 PS50967 | |
Annotations
| Qualifier | GO ID | GO term name | Reference | ECO ID | ECO term name | with/from | Aspect | Extension | Notes | Status |
|---|---|---|---|---|---|---|---|---|---|---|
| GO:0009408 |
response to heat |
ECO:0000314 |
P |
Figure 3 represents assays on the amount of the protein present after heat was applied. Expression was measured using RNeasy Mini Kit. Selected primers were seen in table 1 |
complete | |||||
|
part_of |
GO:0005634 |
nucleus |
ECO:0007005 |
high throughput direct assay evidence used in manual assertion |
C |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006974 |
cellular response to DNA damage stimulus |
ECO:0007001 |
high throughput mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0031422 |
RecQ helicase-Topo III complex |
ECO:0000314 |
direct assay evidence used in manual assertion |
C |
exists_during:(GO:0000086) |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0051276 |
chromosome organization |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0045132 |
meiotic chromosome segregation |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0032508 |
DNA duplex unwinding |
ECO:0000314 |
direct assay evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0031860 |
telomeric 3' overhang formation |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000002379 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031860 |
telomeric 3' overhang formation |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000003143 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031573 |
intra-S DNA damage checkpoint |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000002771 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031573 |
intra-S DNA damage checkpoint |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0031422 |
RecQ helicase-Topo III complex |
ECO:0000353 |
physical interaction evidence used in manual assertion |
SGD:S000004224 |
C |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0031422 |
RecQ helicase-Topo III complex |
ECO:0000314 |
direct assay evidence used in manual assertion |
C |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0031292 |
gene conversion at mating-type locus, DNA double-strand break processing |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000005559 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0010947 |
negative regulation of meiotic joint molecule formation |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000002794 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0010520 |
regulation of reciprocal meiotic recombination |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000000302 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0006268 |
DNA unwinding involved in DNA replication |
ECO:0000314 |
direct assay evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006265 |
DNA topological change |
ECO:0000314 |
direct assay evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005730 |
nucleolus |
ECO:0000314 |
direct assay evidence used in manual assertion |
C |
Seeded From UniProt |
complete | |||
|
enables |
GO:0004003 |
ATP-dependent DNA helicase activity |
ECO:0000314 |
direct assay evidence used in manual assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0001302 |
replicative cell aging |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0001302 |
replicative cell aging |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0000729 |
DNA double-strand break processing |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000000897 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000724 |
double-strand break repair via homologous recombination |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000000998 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000724 |
double-strand break repair via homologous recombination |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0000723 |
telomere maintenance |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000005559 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000723 |
telomere maintenance |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000003143 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000722 |
telomere maintenance via recombination |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000006657 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000722 |
telomere maintenance via recombination |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0000722 |
telomere maintenance via recombination |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0000706 |
meiotic DNA double-strand break processing |
ECO:0000316 |
genetic interaction evidence used in manual assertion |
SGD:S000000981 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000070 |
mitotic sister chromatid segregation |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:1990426 |
mitotic recombination-dependent replication fork processing |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:1903221 |
regulation of mitotic recombination involved in replication fork processing |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0071140 |
resolution of mitotic recombination intermediates |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0070914 |
UV-damage excision repair |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0045132 |
meiotic chromosome segregation |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0043140 |
ATP-dependent 3'-5' DNA helicase activity |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
FB:FBgn0002906 |
F |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0035861 |
site of double-strand break |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
C |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0032508 |
DNA duplex unwinding |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
FB:FBgn0002906 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031860 |
telomeric 3' overhang formation |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031573 |
intra-S DNA damage checkpoint |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0031422 |
RecQ helicase-Topo III complex |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
C |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0031297 |
replication fork processing |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0010947 |
negative regulation of meiotic joint molecule formation |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0010520 |
regulation of reciprocal meiotic recombination |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0009378 |
four-way junction helicase activity |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000344873 |
F |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0006310 |
DNA recombination |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
EcoGene:EG10833 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0006301 |
postreplication repair |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0006281 |
DNA repair |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
EcoGene:EG10833 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0006265 |
DNA topological change |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005737 |
cytoplasm |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
EcoGene:EG10833 |
C |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005730 |
nucleolus |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
C |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005694 |
chromosome |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000344873 |
C |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005634 |
nucleus |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
FB:FBgn0002906 |
C |
Seeded From UniProt |
complete | ||
|
enables |
GO:0003677 |
DNA binding |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
EcoGene:EG10833 |
F |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0001302 |
replicative cell aging |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0000784 |
nuclear chromosome, telomeric region |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
C |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000724 |
double-strand break repair via homologous recombination |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
FB:FBgn0002906 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000723 |
telomere maintenance |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000722 |
telomere maintenance via recombination |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000706 |
meiotic DNA double-strand break processing |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0000070 |
mitotic sister chromatid segregation |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN001009292 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0000166 |
nucleotide binding |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0003676 |
nucleic acid binding |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0003824 |
catalytic activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0005524 |
ATP binding |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006260 |
DNA replication |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006281 |
DNA repair |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006310 |
DNA recombination |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
enables |
GO:0008026 |
ATP-dependent helicase activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0043140 |
ATP-dependent 3'-5' DNA helicase activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0044237 |
cellular metabolic process |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
enables |
GO:0005524 |
ATP binding |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0000166 |
nucleotide binding |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0004386 |
helicase activity |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005634 |
nucleus |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
C |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016787 |
hydrolase activity |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005730 |
nucleolus |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
C |
Seeded From UniProt |
complete | |||
Notes
References
See Help:References for how to manage references in GONUTS.
- ↑ Auesukaree, C et al. (2012) Characterization and gene expression profiles of thermotolerant Saccharomyces cerevisiae isolates from Thai fruits. J. Biosci. Bioeng. 114 144-9 PubMed GONUTS page
- ↑ Tkach, JM et al. (2012) Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress. Nat. Cell Biol. 14 966-76 PubMed GONUTS page
- ↑ Chang, M et al. (2002) A genome-wide screen for methyl methanesulfonate-sensitive mutants reveals genes required for S phase progression in the presence of DNA damage. Proc. Natl. Acad. Sci. U.S.A. 99 16934-9 PubMed GONUTS page
- ↑ Böhm, S et al. (2015) Disruption of SUMO-targeted ubiquitin ligases Slx5-Slx8/RNF4 alters RecQ-like helicase Sgs1/BLM localization in yeast and human cells. DNA Repair (Amst.) 26 1-14 PubMed GONUTS page
- ↑ Myung, K et al. (2001) SGS1, the Saccharomyces cerevisiae homologue of BLM and WRN, suppresses genome instability and homeologous recombination. Nat. Genet. 27 113-6 PubMed GONUTS page
- ↑ 6.0 6.1 Watt, PM et al. (1995) Sgs1: a eukaryotic homolog of E. coli RecQ that interacts with topoisomerase II in vivo and is required for faithful chromosome segregation. Cell 81 253-60 PubMed GONUTS page
- ↑ Dhar, A & Lahue, RS (2008) Rapid unwinding of triplet repeat hairpins by Srs2 helicase of Saccharomyces cerevisiae. Nucleic Acids Res. 36 3366-73 PubMed GONUTS page
- ↑ Ngo, HP & Lydall, D (2010) Survival and growth of yeast without telomere capping by Cdc13 in the absence of Sgs1, Exo1, and Rad9. PLoS Genet. 6 e1001072 PubMed GONUTS page
- ↑ 9.0 9.1 9.2 Bonetti, D et al. (2009) Multiple pathways regulate 3' overhang generation at S. cerevisiae telomeres. Mol. Cell 35 70-81 PubMed GONUTS page
- ↑ 10.0 10.1 10.2 10.3 Mankouri, HW et al. (2009) Esc2 and Sgs1 act in functionally distinct branches of the homologous recombination repair pathway in Saccharomyces cerevisiae. Mol. Biol. Cell 20 1683-94 PubMed GONUTS page
- ↑ Chang, M et al. (2005) RMI1/NCE4, a suppressor of genome instability, encodes a member of the RecQ helicase/Topo III complex. EMBO J. 24 2024-33 PubMed GONUTS page
- ↑ Mullen, JR et al. (2005) Yeast Rmi1/Nce4 controls genome stability as a subunit of the Sgs1-Top3 complex. Mol. Cell. Biol. 25 4476-87 PubMed GONUTS page
- ↑ 13.0 13.1 Mimitou, EP & Symington, LS (2008) Sae2, Exo1 and Sgs1 collaborate in DNA double-strand break processing. Nature 455 770-4 PubMed GONUTS page
- ↑ Jessop, L & Lichten, M (2008) Mus81/Mms4 endonuclease and Sgs1 helicase collaborate to ensure proper recombination intermediate metabolism during meiosis. Mol. Cell 31 313-23 PubMed GONUTS page
- ↑ Oh, SD et al. (2008) RecQ helicase, Sgs1, and XPF family endonuclease, Mus81-Mms4, resolve aberrant joint molecules during meiotic recombination. Mol. Cell 31 324-36 PubMed GONUTS page
- ↑ Bennett, RJ et al. (1999) Binding specificity determines polarity of DNA unwinding by the Sgs1 protein of S. cerevisiae. J. Mol. Biol. 289 235-48 PubMed GONUTS page
- ↑ Cejka, P et al. (2012) Decatenation of DNA by the S. cerevisiae Sgs1-Top3-Rmi1 and RPA complex: a mechanism for disentangling chromosomes. Mol. Cell 47 886-96 PubMed GONUTS page
- ↑ Sun, H et al. (1999) The Saccharomyces cerevisiae Sgs1 helicase efficiently unwinds G-G paired DNAs. Nucleic Acids Res. 27 1978-84 PubMed GONUTS page
- ↑ Bennett, RJ et al. (1998) Purification and characterization of the Sgs1 DNA helicase activity of Saccharomyces cerevisiae. J. Biol. Chem. 273 9644-50 PubMed GONUTS page
- ↑ Sinclair, DA et al. (1997) Accelerated aging and nucleolar fragmentation in yeast sgs1 mutants. Science 277 1313-6 PubMed GONUTS page
- ↑ Cohen, H & Sinclair, DA (2001) Recombination-mediated lengthening of terminal telomeric repeats requires the Sgs1 DNA helicase. Proc. Natl. Acad. Sci. U.S.A. 98 3174-9 PubMed GONUTS page
- ↑ 22.0 22.1 Lee, JY et al. (2007) Evidence that a RecQ helicase slows senescence by resolving recombining telomeres. PLoS Biol. 5 e160 PubMed GONUTS page
- ↑ Lillard-Wetherell, K et al. (2005) BLM helicase complements disrupted type II telomere lengthening in telomerase-negative sgs1 yeast. Cancer Res. 65 5520-2 PubMed GONUTS page
- ↑ Manfrini, N et al. (2010) Processing of meiotic DNA double strand breaks requires cyclin-dependent kinase and multiple nucleases. J. Biol. Chem. 285 11628-37 PubMed GONUTS page
- ↑ 25.00 25.01 25.02 25.03 25.04 25.05 25.06 25.07 25.08 25.09 25.10 25.11 25.12 25.13 25.14 25.15 25.16 25.17 25.18 25.19 25.20 25.21 25.22 25.23 25.24 25.25 25.26 25.27 25.28 25.29 25.30 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page
a
c
d
- Dikarya
- GO:0003677 ! DNA binding
- GO:0006974 ! DNA damage response
- GO:0000729 ! DNA double-strand break processing
- GO:0032508 ! DNA duplex unwinding
- GO:0006310 ! DNA recombination
- GO:0006281 ! DNA repair
- GO:0006260 ! DNA replication
- GO:0006265 ! DNA topological change
- GO:0006268 ! DNA unwinding involved in DNA replication
- GO:0000724 ! double-strand break repair via homologous recombination
g
m
n
r
- GO:0031422 ! RecQ family helicase-topoisomerase III complex
- GO:1903221 ! regulation of mitotic recombination-dependent replication fork processing
- GO:0010520 ! regulation of reciprocal meiotic recombination
- GO:0031297 ! replication fork processing
- GO:0071140 ! resolution of mitotic recombination intermediates
- GO:0009408 ! response to heat
s
t
