GCW_02325

Uniprot: A0A0F6CKR3
Description: DNA topoisomerase IV subunit A
EC number: 5.99.1.3
Annotation score: 2 out of 5
Miscellaneous [CC]:
Protein existence: Inferred from homology
Catalytic activity: CATALYTIC ACTIVITY: ATP-dependent breakage, passage and rejoining of double-stranded DNA. {ECO:0000256|SAAS:SAAS00075911}.
Cofactor:
Enzyme regulation:
Function [CC]:
Pathway:
Active site:
Binding site:
Calcium binding:
DNA binding:
Metal binding:
Nucleotide binding:
Site:
Gene names (primary): parC
Gene names (synonym):
Mass: 90,380
Subunit structure [CC]:
Gene ontology (GO): chromosome [GO:0005694]; ATP binding [GO:0005524]; DNA binding [GO:0003677]; DNA topoisomerase type II (ATP-hydrolyzing) activity [GO:0003918]; DNA topological change [GO:0006265]
Gene ontology IDs: GO:0003677; GO:0003918; GO:0005524; GO:0005694; GO:0006265
Chain:
Signal peptide:
Domain [CC]:
Sequence similarities: SIMILARITY: Belongs to the type II topoisomerase GyrA/ParC subunit family. {ECO:0000256|SAAS:SAAS00565436}.
Protein families: Type II topoisomerase GyrA/ParC subunit family
Coiled coil:
Domain [FT]: DOMAIN 9 459 TOP4c. {ECO:0000259|SMART:SM00434}.
Motif:
Region:
EMBL: CP006916
ProteinModelPortal:
MEROPS:
EnsemblBacteria KO: AHB99685
UniPathway: K02621
CDD:
Gene3D:
HAMAP: 3.30.1360.40;3.90.199.10
InterPro:
PANTHER: IPR024946;IPR006691;IPR013760;IPR002205;IPR013758;IPR005741
PIRSF:
PRINTS:
PROSITE:
Pfam:
ProDom: PF03989;PF00521
SMART:
SUPFAM: SM00434
TIGRFAMs: SSF56719

In one protein complex with GCW_02330 546600-548991(-)

>nucleotide sequence
TTATTCATAATTTAGCTTATTTAAGAAAAAACCCTTGAATTCATCTTTTCAATTATGATA
TTCAGATGATAAATTACCCACCATGATCTGGTTTAATTCTAGATTAACTAATTCATTATC
ACGATTAAAACCGTATAATGCAGCTTTTTTTGTGTTTAATAAATAACCATTTACTAGTGG
TTTTTTATCCTTACCAAGTCCTAAGTTCTTACCTTGAGTGGCTCGTGATTGGTTTTCAAT
CAATGAAGCCTTAAGTTTTTTAATCTGCTTATTTTTAACTAAAACTAACTGGTCAATTGA
GTTTTTAATCTGATCAAAACCAATCACTTCATCATTGGTTTTAAGTTTAATTGCTCTCAC
CCCCATTGATTTAAGTCCAGTTAGATTAACTTCATTGATAAAAAATCTTAATGCGTAAGC
ATTTTTGGTAATGATGATCAGTTCAGCATTAGGATCACTAATCAGATTAGCACACACCAG
CTCATCATCATCTTTTAGACTCATACAAGTTGTTGGTTTAGTCGATTTGATATTAACTAG
ATCATTAACACTGATCTGTTTAATCATCCCATACTTACTAACTAAAACGATCCGATCATT
CTGATCTGATAACTCAACTAGTTTGACGATCTTTTCATTATCTTTAATCGTGGTTAGTTC
ATTAATATCCATCCCAATCTCACGTGGTTTAGCTTGCTTAATCTTATGGGCATTAATCAC
AACCACATTACCATAGTTCGTAATAAAAGCCACCTTATTAAGTGAACTAACTTTGATTAG
ATCACTTAAATAATCATCTTGTTTGATCTTTAAACTAGTTGGGTTTAATTGCTTATTTTG
ATCATAAGCAATCGTTTTGATCAACCCATCAACTGAACTGACTAAATATAATTCTTTCTT
TTCAATGATCGAAGCTTCATTGATCACTAACTTTTCAATATTACCACCAATAGTCGATCT
TCTTTTGGTGTTAAATAACTTCTTATAAGATCTTAAGATTTCTTTAAGATGATCGTTTAA
AGCGTTTTGATCTTTTAATAATAACTGATACTGTTTGATATTAGTATCTAAACTCTTCTT
TTCTTCTTTTAAAGCTAAGATATCAGTATTAGTTAACCGATACAATCTTAAAGAAACGAT
CGCTTCAGCTTGGATTGCTGAAAACTGATACTTATTGATCAGATTATTGATCGCATCTTG
CTTATCTTTAGATTTTTTAATGATCAAGATAATCTGATCAATAATACTAGTAGCTTTAAT
CAACCCGTTGATCACTTCTAGGCGTTTTTGATCTTTTTTAAGATCAAAACTAATCGCGTT
TCTTAAGATCGTATAAGCGTGGTTTAAATAACTATCCAAATAGTTAAAGATCGACATTTG
GATCGGTTTTTTCTTATCAATTACAACGTTGTTAAAGCTGTAATTGATCTGTAGTTGGGT
GTATTTGTATAGGTAGTTTTTAATCGTTGCTAACACCTTTTCATCTTTGGTGTTAGTTTG
TAAAACAACCCTAATCCCAAACCGGTCAGATTCATCTCTAACTTCTTCTAGTTGGGGAAG
TTTGTTTGCTTCTAAGATCTCTTCAATCGAACGAATAATACTTGCCTTATTCGTTTCAAA
CGGAATATCAGTAACAACTAATTGATCGTTCTCATTAACAATCTTAGCTCGAATCACGAT
CTTACCCTTACCAGTAAGATAAGCATTCTTGATCCCATCATCATCAAGAATAATCCCACC
AGTGGGAAAATCTGGTCCTGGCATCAGTTTAAGGATTGATTCTAACTTACAGTTAGGTGA
ATCGATTCTGTGGATAATCACATCAATTAACTCTTTTAAGTTAAATGGTGGGATATTAGT
TGCATACCCAGCAGCAATCCCAGTTGAACCATTAACTAGCAAGTTAGGTAATAAACTAGG
TAAGATTGTGGGTTCAACTTCACTATCATCAAAGTTATTAACAAAGTTAACGGTCTCTTT
GTTAATATTCTCAAGCATTAGATTACCATAATGGGATAATCTAGCTTCAGTATATCTCAT
CGCAGCAGCATTATCTCCATCAATCGAACCATTATTCCCTTGCATATCAATCAAGGGAAT
ATTGTTCTTCCAGCTTTGGGTCATTCTTACTAAAGCTTCATAGATTGATGAATCACCGTG
AGGGTGGAACTTTCCGATTACTTCACCAACGGTTGCTGCTGATTTACGATAAGACTTGTT
ATAGTACAATCCTAGATTGTACATCCCATACAAAACCCGTCTTTGGACGGGTTTTAGTCC
ATCTCTGATATCAGGCAGTGCCCGTTCTTGAATAATGTACTTAGCATACCGACCAAAGCT
AAGTGACATGATATCATCAAGATCTTTTTGAAATACCTTTTTCTTATCCAT

>protein sequence
MDKKKVFQKDLDDIMSLSFGRYAKYIIQERALPDIRDGLKPVQRRVLYGMYNLGLYYNKS
YRKSAATVGEVIGKFHPHGDSSIYEALVRMTQSWKNNIPLIDMQGNNGSIDGDNAAAMRY
TEARLSHYGNLMLENINKETVNFVNNFDDSEVEPTILPSLLPNLLVNGSTGIAAGYATNI
PPFNLKELIDVIIHRIDSPNCKLESILKLMPGPDFPTGGIILDDDGIKNAYLTGKGKIVI
RAKIVNENDQLVVTDIPFETNKASIIRSIEEILEANKLPQLEEVRDESDRFGIRVVLQTN
TKDEKVLATIKNYLYKYTQLQINYSFNNVVIDKKKPIQMSIFNYLDSYLNHAYTILRNAI
SFDLKKDQKRLEVINGLIKATSIIDQIILIIKKSKDKQDAINNLINKYQFSAIQAEAIVS
LRLYRLTNTDILALKEEKKSLDTNIKQYQLLLKDQNALNDHLKEILRSYKKLFNTKRRST
IGGNIEKLVINEASIIEKKELYLVSSVDGLIKTIAYDQNKQLNPTSLKIKQDDYLSDLIK
VSSLNKVAFITNYGNVVVINAHKIKQAKPREIGMDINELTTIKDNEKIVKLVELSDQNDR
IVLVSKYGMIKQISVNDLVNIKSTKPTTCMSLKDDDELVCANLISDPNAELIIITKNAYA
LRFFINEVNLTGLKSMGVRAIKLKTNDEVIGFDQIKNSIDQLVLVKNKQIKKLKASLIEN
QSRATQGKNLGLGKDKKPLVNGYLLNTKKAALYGFNRDNELVNLELNQIMVGNLSSEYHN
WKDEFKGFFLNKLNYE