MGI:Rad51

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Annotations

Qualifier	GO ID	GO term name	Reference	Evidence Code	with/from	Aspect	Notes
	GO:0000166	nucleotide binding	MGI:MGI:1354194	IEA: Inferred from Electronic Annotation	UniProtKB-KW:KW-0547	F	From MGI
	GO:0000166	nucleotide binding	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR003593 InterPro:IPR010995	F	From MGI
	GO:0000724	double-strand break repair via homologous recombination	MGI:MGI:3511388 PMID:15485900^[1]	IMP: Inferred from Mutant Phenotype		P	From MGI
	GO:0000724	double-strand break repair via homologous recombination	MGI:MGI:3525800 PMID:15359272^[2]	IDA: Inferred from Direct Assay		P	From MGI
	GO:0000724	double-strand break repair via homologous recombination	MGI:MGI:3615835 PMID:16428451^[3]	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	P	From MGI
	GO:0000793	condensed chromosome	MGI:MGI:1858570 PMID:10809667^[4]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000793	condensed chromosome	MGI:MGI:2183707 PMID:12091911^[5]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000793	condensed chromosome	MGI:MGI:2652933 PMID:12591952^[6]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000793	condensed chromosome	MGI:MGI:2671746 PMID:12913077^[7]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000793	condensed chromosome	MGI:MGI:3707920 PMID:17291760^[8]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000794	condensed nuclear chromosome	MGI:MGI:3027988 PMID:14668445^[9]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000794	condensed nuclear chromosome	MGI:MGI:3794139 PMID:18283110^[10]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000794	condensed nuclear chromosome	MGI:MGI:4457793 PMID:20551173^[11]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0000795	synaptonemal complex	MGI:MGI:3687414 PMID:8816780^[12]	TAS: Traceable Author Statement		C	From MGI
	GO:0000800	lateral element	MGI:MGI:3813746 PMID:18694567^[13]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0003677	DNA binding	MGI:MGI:1354194	IEA: Inferred from Electronic Annotation	UniProtKB-KW:KW-0238	F	From MGI
	GO:0003677	DNA binding	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR020588 InterPro:IPR003583 InterPro:IPR020587	F	From MGI
	GO:0003684	damaged DNA binding	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR011941	F	From MGI
	GO:0003690	double-stranded DNA binding	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0003697	single-stranded DNA binding	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0005515	protein binding	MGI:MGI:2152549 PMID:11477095^[14]	IPI: Inferred from Physical Interaction	UniProtKB:P97929	F	From MGI
	GO:0005515	protein binding	MGI:MGI:2670547 PMID:12893777^[15]	IPI: Inferred from Physical Interaction	UniProtKB:P97929	F	From MGI
	GO:0005515	protein binding	MGI:MGI:3525800 PMID:15359272^[2]	IPI: Inferred from Physical Interaction	UniProtKB:P97929	F	From MGI
	GO:0005515	protein binding	MGI:MGI:3609918 PMID:11591653^[16]	IPI: Inferred from Physical Interaction	UniProtKB:Q9D0A1	F	From MGI
	GO:0005515	protein binding	MGI:MGI:4868525 PMID:20976249^[17]	IPI: Inferred from Physical Interaction	UniProtKB:Q8K3D3	F	From MGI
	GO:0005515	protein binding	MGI:MGI:87113 PMID:9126738^[18]	IPI: Inferred from Physical Interaction	UniProtKB:P97929	F	From MGI
	GO:0005524	ATP binding	MGI:MGI:3615835 PMID:16428451^[3]	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0005634	nucleus	MGI:MGI:3687414 PMID:8816780^[12]	IDA: Inferred from Direct Assay		C	From MGI
	GO:0005634	nucleus	MGI:MGI:4417868	ISO: Inferred from Sequence Orthology	NCBI:NP_001102674	C	From MGI
	GO:0005634	nucleus	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	C	From MGI
	GO:0005737	cytoplasm	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	C	From MGI
	GO:0005739	mitochondrion	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	C	From MGI
	GO:0006200	ATP catabolic process	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR011941 InterPro:IPR020588 InterPro:IPR020587	P	From MGI
	GO:0006200	ATP catabolic process	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	P	From MGI
	GO:0006259	DNA metabolic process	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR020588 InterPro:IPR020587	P	From MGI
	GO:0006268	DNA unwinding involved in replication	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	P	From MGI
	GO:0006281	DNA repair	MGI:MGI:3687414 PMID:8816780^[12]	TAS: Traceable Author Statement		P	From MGI
	GO:0006281	DNA repair	MGI:MGI:4442153 PMID:10422536^[19]	TAS: Traceable Author Statement		P	From MGI
	GO:0006310	DNA recombination	MGI:MGI:1354194	IEA: Inferred from Electronic Annotation	UniProtKB-KW:KW-0233	P	From MGI
	GO:0006974	response to DNA damage stimulus	MGI:MGI:3687414 PMID:8816780^[12]	TAS: Traceable Author Statement		P	From MGI
	GO:0007126	meiosis	MGI:MGI:1858570 PMID:10809667^[4]	IDA: Inferred from Direct Assay		P	From MGI
	GO:0007126	meiosis	MGI:MGI:2183707 PMID:12091911^[5]	IDA: Inferred from Direct Assay		P	From MGI
	GO:0007131	reciprocal meiotic recombination	MGI:MGI:3687414 PMID:8816780^[12]	TAS: Traceable Author Statement		P	From MGI
	GO:0008022	protein C-terminus binding	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0008094	DNA-dependent ATPase activity	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR011941 InterPro:IPR020588 InterPro:IPR020587	F	From MGI
	GO:0016605	PML body	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	C	From MGI
	GO:0017111	nucleoside-triphosphatase activity	MGI:MGI:2152098	IEA: Inferred from Electronic Annotation	InterPro:IPR003593	F	From MGI
	GO:0042802	identical protein binding	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0043142	single-stranded DNA-dependent ATPase activity	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	F	From MGI
	GO:0048471	perinuclear region of cytoplasm	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	C	From MGI
	GO:0051106	positive regulation of DNA ligation	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	P	From MGI
	GO:0051260	protein homooligomerization	MGI:MGI:4834177	ISO: Inferred from Sequence Orthology	UniProtKB:Q06609	P	From MGI
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Notes

References

See Help:References for how to manage references in GONUTS.

↑ Stark JM et al. (2004) Genetic steps of mammalian homologous repair with distinct mutagenic consequences. Mol Cell Biol 24: 9305-16 PubMed GONUTS page
↑ ^2.0 ^2.1 Gudmundsdottir K et al. (2004) DSS1 is required for RAD51 focus formation and genomic stability in mammalian cells. EMBO Rep 5: 989-93 PubMed GONUTS page
↑ ^3.0 ^3.1 Wesoly J et al. (2006) Differential contributions of mammalian Rad54 paralogs to recombination, DNA damage repair, and meiosis. Mol Cell Biol 26: 976-89 PubMed GONUTS page
↑ ^4.0 ^4.1 Kneitz B et al. (2000) MutS homolog 4 localization to meiotic chromosomes is required for chromosome pairing during meiosis in male and female mice. Genes Dev 14: 1085-97 PubMed GONUTS page
↑ ^5.0 ^5.1 Lipkin SM et al. (2002) Meiotic arrest and aneuploidy in MLH3-deficient mice. Nat Genet 31: 385-90 PubMed GONUTS page
↑ Kwan KY et al. (2003) Infertility and aneuploidy in mice lacking a type IA DNA topoisomerase III beta. Proc Natl Acad Sci U S A 100: 2526-31 PubMed GONUTS page
↑ Wong JC et al. (2003) Targeted disruption of exons 1 to 6 of the Fanconi Anemia group A gene leads to growth retardation, strain-specific microphthalmia, meiotic defects and primordial germ cell hypoplasia. Hum Mol Genet 12: 2063-76 PubMed GONUTS page
↑ Cherry SM et al. (2007) The Mre11 complex influences DNA repair, synapsis, and crossing over in murine meiosis. Curr Biol 17: 373-8 PubMed GONUTS page
↑ Libby BJ et al. (2003) Positional cloning and characterization of Mei1, a vertebrate-specific gene required for normal meiotic chromosome synapsis in mice. Proc Natl Acad Sci U S A 100: 15706-11 PubMed GONUTS page
↑ Yang F et al. (2008) Mouse TEX15 is essential for DNA double-strand break repair and chromosomal synapsis during male meiosis. J Cell Biol 180: 673-9 PubMed GONUTS page
↑ Kumar R et al. (2010) Functional conservation of Mei4 for meiotic DNA double-strand break formation from yeasts to mice. Genes Dev 24: 1266-80 PubMed GONUTS page
↑ ^12.0 ^12.1 ^12.2 ^12.3 ^12.4 Li MJ et al. (1996) Rad51 expression and localization in B cells carrying out class switch recombination. Proc Natl Acad Sci U S A 93: 10222-7 PubMed GONUTS page
↑ Soper SF et al. (2008) Mouse maelstrom, a component of nuage, is essential for spermatogenesis and transposon repression in meiosis. Dev Cell 15: 285-97 PubMed GONUTS page
↑ Sarkisian CJ et al. (2001) Analysis of murine Brca2 reveals conservation of protein-protein interactions but differences in nuclear localization signals. J Biol Chem 276: 37640-8 PubMed GONUTS page
↑ Houghtaling S et al. (2003) Epithelial cancer in Fanconi anemia complementation group D2 (Fancd2) knockout mice. Genes Dev 17: 2021-35 PubMed GONUTS page
↑ Suzuki H et al. (2001) Protein-protein interaction panel using mouse full-length cDNAs. Genome Res 11: 1758-65 PubMed GONUTS page
↑ Akamatsu Y & Jasin M (2010) Role for the mammalian Swi5-Sfr1 complex in DNA strand break repair through homologous recombination. PLoS Genet 6: e1001160 PubMed GONUTS page
↑ Sharan SK et al. (1997) Embryonic lethality and radiation hypersensitivity mediated by Rad51 in mice lacking Brca2. Nature 386: 804-10 PubMed GONUTS page
↑ Cui X et al. (1999) The XRCC2 and XRCC3 repair genes are required for chromosome stability in mammalian cells. Mutat Res 434: 75-88 PubMed GONUTS page

[PMID:15485900-0] Stark JM et al. (2004) Genetic steps of mammalian homologous repair with distinct mutagenic consequences. Mol Cell Biol 24: 9305-16 PubMed GONUTS page

[PMID:15359272-1] 2.0 ^2.1 Gudmundsdottir K et al. (2004) DSS1 is required for RAD51 focus formation and genomic stability in mammalian cells. EMBO Rep 5: 989-93 PubMed GONUTS page

[PMID:16428451-2] 3.0 ^3.1 Wesoly J et al. (2006) Differential contributions of mammalian Rad54 paralogs to recombination, DNA damage repair, and meiosis. Mol Cell Biol 26: 976-89 PubMed GONUTS page

[PMID:10809667-3] 4.0 ^4.1 Kneitz B et al. (2000) MutS homolog 4 localization to meiotic chromosomes is required for chromosome pairing during meiosis in male and female mice. Genes Dev 14: 1085-97 PubMed GONUTS page

[PMID:12091911-4] 5.0 ^5.1 Lipkin SM et al. (2002) Meiotic arrest and aneuploidy in MLH3-deficient mice. Nat Genet 31: 385-90 PubMed GONUTS page

[PMID:12591952-5] Kwan KY et al. (2003) Infertility and aneuploidy in mice lacking a type IA DNA topoisomerase III beta. Proc Natl Acad Sci U S A 100: 2526-31 PubMed GONUTS page

[PMID:12913077-6] Wong JC et al. (2003) Targeted disruption of exons 1 to 6 of the Fanconi Anemia group A gene leads to growth retardation, strain-specific microphthalmia, meiotic defects and primordial germ cell hypoplasia. Hum Mol Genet 12: 2063-76 PubMed GONUTS page

[PMID:17291760-7] Cherry SM et al. (2007) The Mre11 complex influences DNA repair, synapsis, and crossing over in murine meiosis. Curr Biol 17: 373-8 PubMed GONUTS page

[PMID:14668445-8] Libby BJ et al. (2003) Positional cloning and characterization of Mei1, a vertebrate-specific gene required for normal meiotic chromosome synapsis in mice. Proc Natl Acad Sci U S A 100: 15706-11 PubMed GONUTS page

[PMID:18283110-9] Yang F et al. (2008) Mouse TEX15 is essential for DNA double-strand break repair and chromosomal synapsis during male meiosis. J Cell Biol 180: 673-9 PubMed GONUTS page

[PMID:20551173-10] Kumar R et al. (2010) Functional conservation of Mei4 for meiotic DNA double-strand break formation from yeasts to mice. Genes Dev 24: 1266-80 PubMed GONUTS page

[PMID:8816780-11] 12.0 ^12.1 ^12.2 ^12.3 ^12.4 Li MJ et al. (1996) Rad51 expression and localization in B cells carrying out class switch recombination. Proc Natl Acad Sci U S A 93: 10222-7 PubMed GONUTS page

[PMID:18694567-12] Soper SF et al. (2008) Mouse maelstrom, a component of nuage, is essential for spermatogenesis and transposon repression in meiosis. Dev Cell 15: 285-97 PubMed GONUTS page

[PMID:11477095-13] Sarkisian CJ et al. (2001) Analysis of murine Brca2 reveals conservation of protein-protein interactions but differences in nuclear localization signals. J Biol Chem 276: 37640-8 PubMed GONUTS page

[PMID:12893777-14] Houghtaling S et al. (2003) Epithelial cancer in Fanconi anemia complementation group D2 (Fancd2) knockout mice. Genes Dev 17: 2021-35 PubMed GONUTS page

[PMID:11591653-15] Suzuki H et al. (2001) Protein-protein interaction panel using mouse full-length cDNAs. Genome Res 11: 1758-65 PubMed GONUTS page

[PMID:20976249-16] Akamatsu Y & Jasin M (2010) Role for the mammalian Swi5-Sfr1 complex in DNA strand break repair through homologous recombination. PLoS Genet 6: e1001160 PubMed GONUTS page

[PMID:9126738-17] Sharan SK et al. (1997) Embryonic lethality and radiation hypersensitivity mediated by Rad51 in mice lacking Brca2. Nature 386: 804-10 PubMed GONUTS page

[PMID:10422536-18] Cui X et al. (1999) The XRCC2 and XRCC3 repair genes are required for chromosome stability in mammalian cells. Mutat Res 434: 75-88 PubMed GONUTS page

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Species (Taxon ID)	Mus musculus (house mouse) (taxon:10090)
Gene Name(s)	Rad51 ( synonyms: Rad51a, Reca )
Protein Name(s)	RAD51 homolog (S. cerevisiae),
External Links
MGI	MGI:97890

MGI:Rad51

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