GCW_02365

Uniprot: A0A0F6CKS0
Description: Type I restriction endonuclease R subunit
EC number:
Annotation score: 1 out of 5
Miscellaneous [CC]:
Protein existence: Predicted
Catalytic activity:
Cofactor:
Enzyme regulation:
Function [CC]:
Pathway:
Active site:
Binding site:
Calcium binding:
DNA binding:
Metal binding:
Nucleotide binding:
Site:
Gene names (primary):
Gene names (synonym):
Mass: 128,053
Subunit structure [CC]:
Gene ontology (GO): ATP binding [GO:0005524]; DNA binding [GO:0003677]; Type I site-specific deoxyribonuclease activity [GO:0009035]; DNA restriction-modification system [GO:0009307]
Gene ontology IDs: GO:0003677; GO:0005524; GO:0009035; GO:0009307
Chain:
Signal peptide:
Domain [CC]:
Sequence similarities:
Protein families:
Coiled coil: COILED 917 944 {ECO:0000256|SAM:Coils}.
Domain [FT]: DOMAIN 289 483 Helicase ATP-binding. {ECO:0000259|PROSITE:PS51192}.
Motif:
Region:
EMBL: CP006916
ProteinModelPortal:
MEROPS:
EnsemblBacteria KO: AHB99692
UniPathway: K01153
CDD:
Gene3D:
HAMAP: 3.40.50.300
InterPro:
PANTHER: IPR021810;IPR006935;IPR014001;IPR027417;IPR007409;IPR004473
PIRSF:
PRINTS:
PROSITE:
Pfam: PS51192
ProDom: PF11867;PF04313;PF04851
SMART:
SUPFAM: SM00487
TIGRFAMs: SSF52540
557322-560655(+)

>nucleotide sequence
ATGGCTAAGCTAAAGGAATACAATGGTCGCTTTTGTGAATCGGACTATGAGAATGCTTTT
ATTAATTATCTTGTAAATGAGGGTTGGACCTACCTTTTTGGCAACGACCTTCCTCGAGAA
AATAAGAGAAGTGTCATTTATCGAGACGATTTAGCGGTTTATCTAAGTGAAACTCATGAA
GAATTAAGCGATGAAGAAATCAATCAAATAGTGGATGCCATTACTCTTGTTGGTGATGTT
TCGGATTTTGCCACTCTTCATAAAGTTTATAAATGATTAGTTGATGGATATACCTTTAAG
CCTGCTGAAGGTCCTTCAAAAGAAATTAAGCTTATTGATTTTGAAAATTACGCAAACAAT
AAGCTTAAAGTTGTAAACCAATTAATAGTAGAATATATAAATAATGGCAAAAATGAAAAT
AGAAGGCCCGATGTTCTTTTATATATTAATGGTATTCCATTATGTGTAATCGAACTCAAA
AATCCTACTGATGCAAACGCTACGATCGTTGATGCTTGGAAACAAATAAGTATTCGATAT
TGGAGGGACATTCCTCATTTATTGCATTACTGTCCTTTAGCCTGTATTTCCGATGGTGTT
AAAACTAGGCTCGGCACTGTAAGAACCCCTTACGAACATTTTTATGCTTGACGAAGAGTC
AATGATGGCGATAAAGTTTCCACTCTTCCTTTTGATGAACTTAAAACCATGATTAAAGGT
GTTTATGAGCCTCAAAGATTCTTAGAAATATTTAGAGATTATGTTTATTTCCAAGATGAA
CAATATGATAATGAGGAAAAAGAAATCATATGCCGTTATCCTCAATTTTTTGCGACTAGG
TTACTAAAGCAAAGCATTATTAAATCAGTTGAAACTAAAAGTGGGAGAGGGGGTATCTAT
TTTGGCGCTACAGGATGCGGAAAAACTTACACAATGGCCTTTTTGGCACGTCAACTTTCC
TTAAGATGTGCCGATGTTCCTGCTATTGGTTCTCCTACAATCATCATGATTGTTGATAGG
GATGAGCTTCAAAAACAAGGAGCTAAATTATTTACTAAGAGCACTGAATTCTTAAATATT
GGTGAAGTTTCTGTCGTGCCTAATAGAAAAATCTTAAGAGAAGAACTGAGGGCAAGAGAA
AGTGGCGGATTCTATATTTGCACCATTCAAAAATTCTGCGATAGAGTTGATGATAAGATC
GGTTTGATTAATAGCAGAAGTAATATTATCTGCTTTTCTGATGAAGCCCATAGAACCCAG
CTTGAGCATTCTAAGCGTATCAAATTTAGTGAAGATGCTGATTCTAACATGAAGGCACTG
TTATCGAAGCCTTATGCAAAAGTGTTAAGAGAAGCATTCCCAAATGCTACATTTGTTGGC
TTTACTGGCACCCCAATTGACGAAACTTATCAGACTTTTGGCGATGAAATTGATAGATAT
ACCATGGATCAAGCGGTAGCAGACGGCATCACTGTTCCTATTAAATATCATCCTAGAATC
GCTAAAGTCTTGTTAGATATTGCAAAAGCTAAAGAAATCGAAGAATATTATAAAAAGTGC
GCTGATGATGGTGTTACTAAAGAAGATATTGAAGCTAGTAAGAAAGCCATGAGTTCAATG
GAAGTCATTTTAGGTGAACCTTCAAGACTTGAGAAACTAGCTGTTGATATTCACGACCAT
TATGTGAATGCAGTAGCACAAGATCCTACACGAATACAAAAAGCACTCATTACATGTGCA
AATCGTCCTATTGCTTACACATTACTTAAAATATTCCAAGAAAAATATCCTGAATGGTTT
GTTGAAAAGAAAACTCCAGATGGAGTAGATACGACCGAAGAAGAATTAAACGAACTAACT
CCTCGTCCATTCATTGCTATGGTTTCTAGCGTTGGTAAGAATGATGAACCTGAAATGTAT
AATTATTTAGGTGGAGCTAACAACGATAAACGTTCAGATGATTTGAATGTTTCGTTTAAA
CAAGATAAATCCAATTTCTCGATAGCGATTGTCGTCGATATGTGGATTACCGGCTTTGAT
GTGCCGACACTAACTTATCTTTACAACGATAAACCACTTAAGAAGCATATGCTTATTCAG
ACCATTTCTCGTGTCAATCGTAAGTATCCAGGTAAAGAATACGGCTTGATTATCGATTAC
ATCGGGATTAGGGACAATATGCGAGAAGCCATGAAGATTTATGGTGGCGATACCTCCATT
GCTCCAACCGCTGATGATGTTGAACAGGCTACTCAAATCTTTAGAGAACAATTAGAAATT
TTAAAGGATTTGTTTAAAGACTATGATTTGAGTCCGTTTATTGATGTTAACTGCGAGCCA
ACTAGAAGATATGAATTACTTTCTAAAACAGCTGAACAAGTATTCGTTTCATCGCAAACT
TTAAATTTTGTAGGCGAAAATCAAGCGCATAGCTCGAAAGTATCTTTTAAGACGTATTTC
TTAAAAATGGTCACCAGAATGAGAAGGGCCTATGATATTTGCCAACCTTCTGGTGGCTTA
AGTGAGGAAGAATCTGCTTTAGCTCAGTGTTTTATGGCTATTGCAGGTTTTGTTAGAAAA
ATGAGCGGTACTACTAAAGTGGATACAGAAACCATGAATAGAAATCTATCTAAAATGGTA
GAAGAAGCTCTTAAATATAGTAACGTCGAAAGTATCCTTGATACTAATGAGCAAGAAGAT
ATTTTTAGTCCAGAGTACTTTGAAAAATTAAGTGATATAAAGATGCCTGCAACCAAACTT
GAGATATTGATTAAGTCTCTTAAAAAACAAATTAAAGAGTATAGGAAAATCAATCAAGTT
GCTTCAAAGAAATTCCAAGAGATGTTAGAAAAGACGATTCAAGAATATCATGAAAGAAGA
AAGACCTTGACTGAAGAAGAAGCTGGTGAAGCTCAAGAACATGCATCTGAAGAAATCATT
AAGAATGCTACCGAACAAGCTATTAAGCTTCTCAATGAATTAAAAGAAAATAAGGAAAGC
TTTAGGAAAATTGGTCTTACTTTCGAAGAAAAAGCTTTCTATGACATTTTAATTGATTTA
AGGGATCACTATAACTTTGAGTACGGCGAAGACAAAAACGTTGATGGTATTGTTATTAAT
GAAAAATGTCGTAATTTAGCTAAAAAAGTCAAAGAAATCATCGACACGAAATCTTCATTT
GCTGATTGGCTTAATAATAGGAATGTAAGAGAACAGCTCAAATTTGGTATTAAGATTTGC
TTAGTCAGGAATGGTTATCCTCCTCAATATAGTCCTGAAGTTTTTAGTAAGGTAATGAGA
CAAGTTGAGAACTTTGAGGAAAATAATGATTAG

>protein sequence
MAKLKEYNGRFCESDYENAFINYLVNEGWTYLFGNDLPRENKRSVIYRDDLAVYLSETHE
ELSDEEINQIVDAITLVGDVSDFATLHKVYKWLVDGYTFKPAEGPSKEIKLIDFENYANN
KLKVVNQLIVEYINNGKNENRRPDVLLYINGIPLCVIELKNPTDANATIVDAWKQISIRY
WRDIPHLLHYCPLACISDGVKTRLGTVRTPYEHFYAWRRVNDGDKVSTLPFDELKTMIKG
VYEPQRFLEIFRDYVYFQDEQYDNEEKEIICRYPQFFATRLLKQSIIKSVETKSGRGGIY
FGATGCGKTYTMAFLARQLSLRCADVPAIGSPTIIMIVDRDELQKQGAKLFTKSTEFLNI
GEVSVVPNRKILREELRARESGGFYICTIQKFCDRVDDKIGLINSRSNIICFSDEAHRTQ
LEHSKRIKFSEDADSNMKALLSKPYAKVLREAFPNATFVGFTGTPIDETYQTFGDEIDRY
TMDQAVADGITVPIKYHPRIAKVLLDIAKAKEIEEYYKKCADDGVTKEDIEASKKAMSSM
EVILGEPSRLEKLAVDIHDHYVNAVAQDPTRIQKALITCANRPIAYTLLKIFQEKYPEWF
VEKKTPDGVDTTEEELNELTPRPFIAMVSSVGKNDEPEMYNYLGGANNDKRSDDLNVSFK
QDKSNFSIAIVVDMWITGFDVPTLTYLYNDKPLKKHMLIQTISRVNRKYPGKEYGLIIDY
IGIRDNMREAMKIYGGDTSIAPTADDVEQATQIFREQLEILKDLFKDYDLSPFIDVNCEP
TRRYELLSKTAEQVFVSSQTLNFVGENQAHSSKVSFKTYFLKMVTRMRRAYDICQPSGGL
SEEESALAQCFMAIAGFVRKMSGTTKVDTETMNRNLSKMVEEALKYSNVESILDTNEQED
IFSPEYFEKLSDIKMPATKLEILIKSLKKQIKEYRKINQVASKKFQEMLEKTIQEYHERR
KTLTEEEAGEAQEHASEEIIKNATEQAIKLLNELKENKESFRKIGLTFEEKAFYDILIDL
RDHYNFEYGEDKNVDGIVINEKCRNLAKKVKEIIDTKSSFADWLNNRNVREQLKFGIKIC
LVRNGYPPQYSPEVFSKVMRQVENFEENND