ACL_RS01215

Uniprot: A9NEU3
Description: PolC-type DNA polymerase III
EC number: 2.7.7.7
Annotation score: 2 out of 5
Miscellaneous [CC]:
Protein existence: Inferred from homology
Catalytic activity: CATALYTIC ACTIVITY: Deoxynucleoside triphosphate + DNA(n) = diphosphate + DNA(n+1). {ECO:0000256|HAMAP-Rule:MF_00356, ECO:0000256|SAAS:SAAS00057091}.
Cofactor:
Enzyme regulation:
Function [CC]: FUNCTION: Required for replicative DNA synthesis. This DNA polymerase also exhibits 3' to 5' exonuclease activity. {ECO:0000256|HAMAP-Rule:MF_00356, ECO:0000256|SAAS:SAAS00229340}.
Pathway:
Active site:
Binding site:
Calcium binding:
DNA binding:
Metal binding:
Nucleotide binding:
Site:
Gene names (primary): polC
Gene names (synonym):
Mass: 172,514
Subunit structure [CC]:
Gene ontology (GO): cytoplasm [GO:0005737]; 3'-5' exonuclease activity [GO:0008408]; DNA binding [GO:0003677]; DNA-directed DNA polymerase activity [GO:0003887]; DNA-dependent DNA replication [GO:0006261]
Gene ontology IDs: GO:0003677; GO:0003887; GO:0005737; GO:0006261; GO:0008408
Chain:
Signal peptide:
Domain [CC]:
Sequence similarities: SIMILARITY: Belongs to the DNA polymerase type-C family. PolC subfamily. {ECO:0000256|HAMAP-Rule:MF_00356, ECO:0000256|SAAS:SAAS00556408}.; SIMILARITY: Contains exonuclease domain. {ECO:0000256|SAAS:SAAS00242420}.
Protein families: DNA polymerase type-C family, PolC subfamily
Coiled coil:
Domain [FT]: DOMAIN 324 391 POLIIIAc. {ECO:0000259|SMART:SM00481}.; DOMAIN 411 597 Exonuclease. {ECO:0000259|SMART:SM00479}.
Motif:
Region:
EMBL: CP000896
ProteinModelPortal: A9NEU3
MEROPS:
EnsemblBacteria KO: ABX80873
UniPathway: K03763
CDD:
Gene3D:
HAMAP: 2.40.50.140;3.30.420.10
InterPro: MF_00356
PANTHER: IPR011708;IPR029460;IPR006054;IPR013520;IPR012340;IPR004013;IPR003141;IPR006308;IPR012337
PIRSF:
PRINTS:
PROSITE:
Pfam:
ProDom: PF07733;PF14579;PF02811;PF00929
SMART:
SUPFAM: SM00479;SM00481
TIGRFAMs: SSF53098

242424-246939(+)

>nucleotide sequence
ATGTCAACCAAGTTTGATCTATTCTTACAACAAGCACAATTAAATACACACCCATTATCT
ACTGCATATTTAAATTCAGTTACTGTAAAGGTACGAGAAAAAACCTTAATATTTGATATA
ACATTTGATGAATTGATGTTACCAAGTGAAATGAGTTTATTTACCAATCAACTACAAACA
TTGTTTTTAAAAAAGGATGTTGTTTCACGTGTAGACTACCAGTTCACATTTAAACAAGCA
GATTTATCAGCACACTATAAAACTTATTATGAAGCTTTAATTCATAAAGCTTCTGAAATT
TTTCAACCCGTACTTATTTTTAAAAATTACACAGTTGAATATGAAAATAACATCTATACA
ATTTTAATTGAAAAAGATAGTAGAGGGTTAAAAAAATATCTACCAGAATTAAAGAAATAC
TTTAAAAAACATGGTTTAGATGTTGATTTTACACTGAAGGTTAATGAGGATTTAATCCCG
GTTGCTGAACAAGTAAGACAAACCATTGAATCTCAAAAAGAGAGTATGGAGCGTCTAGTT
AAAACAGCTGATGCTGTCATTTTAGATAAAAAGACAACATTTAATAGAAAATCTAGTCCA
TCTGCTGTAGCTATTAGTGAAATACCTAAGAGTGCCTATGAACTTGATAAATACCAAAAT
GAAAAAGGCGATGTAAACTTTTTAATTGAAGGTGAAGTGTTTAAAACTGAGGTTAGAGAA
CTTAAGAATACAAACCTTTTAACGATGTCTATTTTTGACAAGGATGATGCAATTACAGTC
AAAAGATTTGTAAGAGCACCTAAAGATGTTGCTTTAGCCAAAGAAGTTAAAGTTGGAGAT
ATTATCCAAGTATCTGGTCGTGCAGAATATGACACTTTCCAAAAAGAAGTCACAATCATG
GCAACAGCCTTTTATCAAATCGAGCGACCTAAAAAGTTTGAACGTATCGATAAAGCAAAA
GAAAAGCGTGTCGAGTTTCATATCCATACCAAAGCATCACCTATGGATGCAGTCACCTCA
ATTACCGATTATGTAGAAACCCTAGAAAGTTGGGGACATAAAGCTTTTGCGATTACTGAT
AGAAATGGTTTATATGCTTATCCTGAACTACATAAAGCAATTAAAGGTAAAAAGATTAAA
CCAATATATGGTGTTCAACTAGATTATGTTGACGATGAAGCTTTTTGGGTTGCTAAAGAC
TATCATGAAGATATTTTACTTAAAGAAGCAGTCTACACGGTTTTTGATATTGAAACCACA
GGTTTTTCATTTACAAGAGATAAAATCATAGAAATTGCTGCATATAAAGTCAGAGGTGGA
TTTATTGCAGAACGTTTTGAAGTCTTAATTAATCCTGAAGAGCAGTTAAGTGAAACTACA
AAACGTATTACAAATATTACAGATGAAATGGTTGAAAACGAAAAAACCATTGAAGAAGTA
TTACCGACCTTCTTAGAATTTATTAAGGGCACTGTATTAGTTGCTCATAATGCATCCTTT
GATATCGGCTTTATCTATGAAAAATCTAGATTACTTGGTCTACAACATGAACCGTTTGCA
GTTATAGATACTTTAAATATTGCAAGATACTTTTATAACAACACGAATAAAGAAAAGAAC
CATGCAAGATTCTATGTCAATGATGCTGGCAATATTCCCGATCTAAAAAGATTTAACTTA
AAAGCTTTAACGAAGTTCTTTAAAGTCAATCTAGAAGCACATCACCGTGCTATCTATGAT
GCCTATGCAACTGCAGAAGTGTTTTTAAACATGCTACAAGATTTCTATAAAGAAGAAATA
TATAGTTATTTTGAATTACAAGCATCCCTTGATATGAATGAAGTATGGCGTCATCCAATT
CCCAAATACGCCACTGTTCTAGCTCAAACTCAAGAAGGTTATAAAAACTTATTCAAATTG
GTATCTGATGCCTTAACTACACACTTTGACGGTGGCCCAAGATTATTAAAATCTGCCTTT
CTAAAATATAGAGAAGGTTTATTAATTGGTAGTGGAACCGAACATAGTGAAGTATTTGAA
GCTGCACTTAATTTAAATGATGAACAATTAAAAGAAGCAATCTCATTTTATGACTATATT
GAGGTACAACCACTTAATGCATACCTGCATCTAGAAAAAGAAATCGGTGCACTCGGTAGA
GAAGTCATTCAAGCAGCAATTAAAAAGATTATTACCTATGCAAAAGAGCAAAATAAAATA
GTGATCGCATCTTCTAATGCCCACTATTTAAATCCAGAGGATAAAAAATATAGAGAAATA
TACATTCAAACAAAATCTGTTGGTGGTGGACTACACCCACTTGCAAACTATGAAACTTCA
CCAGACCAACATCTTCTAACAACCACTGAAATGTTGGATGCATTCTCATTTTTAGATCAA
CAAACAGCTTATGAGATAGTAGTTACGAATACGAACAAGTTAAGTGATATGTTTGAGAAT
GTACGAGCTTTTCCTAAAGAACTGTACTCTATTAAAGATCACGCATTTAAAGATACATTA
GGTATTCCTTCAATTAAAGAACATGTTGAAGAAATGGTTATGAATGAAGCTAAAAGATTA
TATGGTGATCCAATACATCCATATGTATTAGGTAGAGTTCAAAGAGAATTAACCAATATT
ATTGATAACCAATTTGCACCCATTTACTTTATTTCTCATTTATTAGTTAAAAAATCATTA
GATGATGGCTACTTAGTAGGTTCTAGAGGATCTGTTGGATCTTCACTTGTAGCAACCTTA
ATGAATATTACAGAAGTCAACCCTTTAAGACCGCATTTCCGTTGTAAGAAGGGTGAATAT
GCAGTTTTTAAATTAACCGATGAAGAAATCTATGAACAAGGTGTAGATGCTAGAGATGAA
CCGTTCATCGAAGTATTAAAACATGTCAAATCAGGTTATGACCTACCAGATATGAAGTGT
CCTATTTGTGGGGAACTCATGCATAAAGATGGTCATGATATTCCGTTTGAAACCTTCTTA
GGTTTTGATGGGGATAAAATTCCTGATATCGACTTAAACTTTAGTGGAGATTATCAATCT
AAAGCACATGATTATGTTAGAGAACTATTAGGTGAAGAATATACCTTTAGAGCAGGAACC
ATTCAAACAGTTGCTGAACGTAACGCATTTGGTTATGTTAAAGGTTATTTAGAATACCTA
GGTAAAGATGCAAGAAGTGCATATATTGAGCGTCTAGCTAAAGGTATTGAAGGTGTGAAA
CGTTCAACTGGTCAGCACCCTGGTGGGATTGTTGTTGTACCAAAGGATAAATCTATTTAT
GATGTCACACCAATTCAATATCCAGCAGATGATGTCAATAGTGCATGGAAGACAACACAT
TTTGATTACCATGCCTTTGAAGATAACTTACTAAAACTAGATATTCTAGGTCACGATGAT
CCAACCATGATCAAATTCTTAATGGACTATGTTAAAGAGCATCCAGAGGATTTCCCTTTT
GATAATGCACAAGACATTCCACTGGATGATCCAAATGTCTACCGTTTATTCCAAGATACC
TCGGTGATTGGATTAAAAGATAAAGATGATGTTTATGGTGATATTGCAAGTTATGCAATT
CCAGAATTTGGTACACCATTTACAAGACAAATGTTACAACAAACAAGACCTTCAACATTT
GCAGGTTTGGTTAAAATATCTGGTCTATCACACGGTACAGACGTGTGGTTAAAAAACTCA
CAAGAACTTGTATTAGGTTCAACCCAATTTGGGAAAATTTCATTCGATGACATTATTGGT
TGTCGAGACGATATTATGGTGGAGTTATCTGACCGTGGTATGAAAGAAGCTAAAGCATTT
GAAATTATGGAGTTTGTCAGAAAGGGTAAACCTTCATCAAACCCTAAAAAATGGGCTGAA
TATGAAAATGAGATGAAAGCAAGTAAGATACCTGATTGGTATATATGGAGTGCATCTCAA
ATTAAGTATATGTTCCCTAAAGCGCATGCGACTGCATATGTGATTATGGCAATGCGTATT
GCATGGTTTAAGGTCTATAGTCCATTGTTATTCTATTCAAGTTTCTTTAGTAAACGTGCT
GTGCAATTTGAGCATGACATTATGGTTGCAGGTACAAATGCAATTAGAAACAGAATTAAT
ACTTTAAGAAATGACAATAACATTACTGCAAAAGACCAGGATGTGATTGTGACACTTTTA
GTCGCACTTGAAATGACTAAGCGTGGATTTAAGTTTTTACCGGTCAACATTAAAAAATCA
CACGCTAAAGAGTTTGTGATGGAAAAAAATGGATTACGTATGCCTTTTTCAAGTATTGAT
GGCCTTGGGTTACAAGCTGCAATCAATATTGTTGAAAATAGAGAAGAAAAACCTTATAAT
TCAAAAGAAGATGCAAGAGTACGTGGAAAGTTAAACAAGACAGTATTTGAAAGATTAGAT
TTAGCTGGCGCATTTGATGACTTAGCAGATGTAAGTAGTGAACTTGATCATGGGTTATTT
GCTCATAAATACTAA

>protein sequence
MSTKFDLFLQQAQLNTHPLSTAYLNSVTVKVREKTLIFDITFDELMLPSEMSLFTNQLQT
LFLKKDVVSRVDYQFTFKQADLSAHYKTYYEALIHKASEIFQPVLIFKNYTVEYENNIYT
ILIEKDSRGLKKYLPELKKYFKKHGLDVDFTLKVNEDLIPVAEQVRQTIESQKESMERLV
KTADAVILDKKTTFNRKSSPSAVAISEIPKSAYELDKYQNEKGDVNFLIEGEVFKTEVRE
LKNTNLLTMSIFDKDDAITVKRFVRAPKDVALAKEVKVGDIIQVSGRAEYDTFQKEVTIM
ATAFYQIERPKKFERIDKAKEKRVEFHIHTKASPMDAVTSITDYVETLESWGHKAFAITD
RNGLYAYPELHKAIKGKKIKPIYGVQLDYVDDEAFWVAKDYHEDILLKEAVYTVFDIETT
GFSFTRDKIIEIAAYKVRGGFIAERFEVLINPEEQLSETTKRITNITDEMVENEKTIEEV
LPTFLEFIKGTVLVAHNASFDIGFIYEKSRLLGLQHEPFAVIDTLNIARYFYNNTNKEKN
HARFYVNDAGNIPDLKRFNLKALTKFFKVNLEAHHRAIYDAYATAEVFLNMLQDFYKEEI
YSYFELQASLDMNEVWRHPIPKYATVLAQTQEGYKNLFKLVSDALTTHFDGGPRLLKSAF
LKYREGLLIGSGTEHSEVFEAALNLNDEQLKEAISFYDYIEVQPLNAYLHLEKEIGALGR
EVIQAAIKKIITYAKEQNKIVIASSNAHYLNPEDKKYREIYIQTKSVGGGLHPLANYETS
PDQHLLTTTEMLDAFSFLDQQTAYEIVVTNTNKLSDMFENVRAFPKELYSIKDHAFKDTL
GIPSIKEHVEEMVMNEAKRLYGDPIHPYVLGRVQRELTNIIDNQFAPIYFISHLLVKKSL
DDGYLVGSRGSVGSSLVATLMNITEVNPLRPHFRCKKGEYAVFKLTDEEIYEQGVDARDE
PFIEVLKHVKSGYDLPDMKCPICGELMHKDGHDIPFETFLGFDGDKIPDIDLNFSGDYQS
KAHDYVRELLGEEYTFRAGTIQTVAERNAFGYVKGYLEYLGKDARSAYIERLAKGIEGVK
RSTGQHPGGIVVVPKDKSIYDVTPIQYPADDVNSAWKTTHFDYHAFEDNLLKLDILGHDD
PTMIKFLMDYVKEHPEDFPFDNAQDIPLDDPNVYRLFQDTSVIGLKDKDDVYGDIASYAI
PEFGTPFTRQMLQQTRPSTFAGLVKISGLSHGTDVWLKNSQELVLGSTQFGKISFDDIIG
CRDDIMVELSDRGMKEAKAFEIMEFVRKGKPSSNPKKWAEYENEMKASKIPDWYIWSASQ
IKYMFPKAHATAYVIMAMRIAWFKVYSPLLFYSSFFSKRAVQFEHDIMVAGTNAIRNRIN
TLRNDNNITAKDQDVIVTLLVALEMTKRGFKFLPVNIKKSHAKEFVMEKNGLRMPFSSID
GLGLQAAINIVENREEKPYNSKEDARVRGKLNKTVFERLDLAGAFDDLADVSSELDHGLF
AHKY