GCW_00765

Uniprot: A0A0F6CK29
Description: PTS sugar transporter
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): ptsG_1
Gene names (synonym):
Mass: 95,757
Subunit structure [CC]:
Gene ontology (GO): integral component of membrane [GO:0016021]; plasma membrane [GO:0005886]; kinase activity [GO:0016301]; protein-N(PI)-phosphohistidine-sugar phosphotransferase activity [GO:0008982]; phosphoenolpyruvate-dependent sugar phosphotransferase system [GO:0009401]
Gene ontology IDs: GO:0005886; GO:0008982; GO:0009401; GO:0016021; GO:0016301
Chain:
Signal peptide:
Domain [CC]:
Sequence similarities: SIMILARITY: Contains PTS EIIA type-1 domain. {ECO:0000256|SAAS:SAAS00506360}.; SIMILARITY: Contains PTS EIIB type-1 domain. {ECO:0000256|SAAS:SAAS00515949}.; SIMILARITY: Contains PTS EIIC type-1 domain. {ECO:0000256|SAAS:SAAS00504904}.
Protein families:
Coiled coil:
Domain [FT]: DOMAIN 23 579 PTS EIIC type-1. {ECO:0000259|PROSITE:PS51103}.; DOMAIN 612 694 PTS EIIB type-1. {ECO:0000259|PROSITE:PS51098}.; DOMAIN 746 858 PTS EIIA type-1. {ECO:0000259|PROSITE:PS51093}.
Motif:
Region:
EMBL: CP006916
ProteinModelPortal:
MEROPS:
EnsemblBacteria KO: AHB99451
UniPathway:
CDD:
Gene3D:
HAMAP: 3.30.1360.60
InterPro:
PANTHER: IPR011055;IPR018113;IPR001127;IPR003352;IPR013013;IPR001996
PIRSF:
PRINTS:
PROSITE:
Pfam: PS51093;PS00371;PS51098;PS51103
ProDom: PF00358;PF00367;PF02378
SMART:
SUPFAM:
TIGRFAMs: SSF51261;SSF55604
176008-178681(+)

>nucleotide sequence
ATGGCTTCAACTACAAATCAAGTTCATAGCCAGAAACGCTCTTCAGAACGCTGAAAGAGA
TTTTCTGGTCATTTTAAAGAAGTTGTTGGTAAGTTGTCTGCAGGAATTATGATTCCGATC
GCTTTATTACCCATCGCTGGGTTATTGCTAGGGATCTTTGCTGCAGTTCAAAACAACGTA
AGTCAAGCTACTCACCCTGGTGTGTTTGCGATGGCTGCTTTCTTTAAAAATGGTGCCGAG
GCTGTTTTCGGTAACCTACCTACGCTATTTGCGATTGCAATAGCAGTAGCATTCACTAAC
CAGTCAGGGGTAGCAGCATTATCTGCTTTTGTTGGTTGGTTGATCTTCAATGCTACACAA
ACAGCATTAATTTTCCCTGCTAACTCACAAACATTTACGATTCTGTATTATAACAACGTT
CCTGCTACTGCGTTAGCTATGAACCTTGGTCTTAGATCGCTAAGTACATCTGTGTTTGGT
GGGGTTATTGTTGGTGCTATTACAACTTTATTATTCAACAAATTCCACACAATCCAATTA
CCTAAAGTGGTTGGGTTCTTCAACGGTAACCGTTTTGTTCCAATTATTACATTATTGACA
ATGTTACCAGTTGCTCTTGTTGCATTAATGATCTGACCAGCAATTGGTATTGGTCTAAAC
GCATTAGGTCAAAGCCTTGGGGTCCTATCAAGAAATGGTAACTTCAACTCGTTAATCTTT
GGTTATGTTGAAAGAGCATTGGTTCCATTTGGTCTACACCATGCTTTCTATGCTCCTTTA
TGGTTCACTAGTGCTGGTGGTAGCATTGCAAACATTATTGTTAACCAAGCTGGATCAGAC
GCAATTGCTCCATTAATCGTTACTGACGAAAATGGACAAAGAGTGATTCGCTCAATCGTT
GGTGTTGCTGCAAACAAAGATGCAGTTAAGCCTGCTGGATTTACTGCTCAAAACTGAATG
TATTGAGGTCAAGTTGTTACTGCATTAAACCCTAATACACAAATTAACACAGATAGCTTA
AGCGGTGACCAAAGATTATGATTTACCATTAACTCACTATTTGTTAACAAATCTGTATAC
TTAAGTGGTTCATCAGATCCTTACACATTCACATTCAAATCATTTGCTGACTCAACTCTT
AACCACCCTTCACTAATCCAATCTATTACTAGAAACGGAACTGTTATTAGTGGTGCACAA
CTATTAAAAATGGTTAATGAGTCTTCAACAGGATCTGTTGTTTTGCAAGCAAATGACACA
CTAAACTTTGCGTTCCCTGGTGTAAACCCTGGTCAATACGAACAAGGTAAACATGCATTC
ATGATCTTTGGTTTACCAGCTGCTGGTGCTGCGATGATTATGGCTGCTCCTAAGGACCAA
AGAAAATACGCGTCTTCAATCATCATTTCAGCTGCGTTCACTTCATTCTTAACAGGCATT
ACTGAACCAATCGAATTTACATTCTTATTCTTGGCTCCTTACCTATTCTGAGGATTCCAC
GCAGTATTCTGTGCGATCTCATTCTGATTAACAAGCTTACTAGGTGGTAACATCGGTCAA
ACATTCTCTGGTGGTATTATCGACTTAACAATCTATGGATTCATTCCTGATGCCTTAGGT
GCTAAGACAAACAGCTGACTTCCATTAGTGATTGGTCTATTCTACATCCCACTGTACTAC
TTCACATTCTACTTCCTGATTACTAAACGTAACATTGAGACTCCTGGACGTGGTACTGGT
ACAAGACTGTACACTAAAGCTGACTACCAAGCAAAAGTTGCAAGCAAAAACGCTGCTAGT
AGAAGCGACGGATCTGCTAATTTCAAACCAATCGAAATCACTTCATACAAACTAATCAAA
GCGTTTGGTGGACGTGATAACATTAGTGCGGTAAATGCATGTGCTACAAAATTAAGAGTA
TCAGTTAAAACTAAAGAAAAAGTAAACTTTGGTGAGATCGGTGCACTTGGTTCATTAGGT
ACATACGCAGTTAGTGATACTTTAGTTCACGCTGTTTATGGTGGTGATGCTGATATCATT
AAATCTTACATGCAAAAGATGATTAATAAAGATTATGACTCTTCTGCTATTGAAAAAGTA
ATTGGTGATCCAGCTACTAAAGAGATCGACCCATCAATGCCAAAAGCTACTCCTGAAGTT
GATCACAAACTATCTGATGTAGTTGATGTATACAGCCCTGTTAAAGGGACAGTAACTGAT
CTAGCTGATCTTCCAGACCCTTCATTTGCTGGTAAAATCATGGGTGATGGTGTAAGCATT
GAACCATTAGATGGCATGTTCTACTCTCCAGTTGATGGTAAATTAGAACTTGCTTACGAC
ACAGGTCACGCCTACTTCTTCGATGTTAACGGTGCTAAGATCTTAATCCACATTGGAATT
GACACTGTATCATTAAACTCAAACAACTCAGATTCTAACAACTTAGTTGGTTTCAAAATG
TTTGCTAAATCTGGTGACAACGTTTCATTCAAGAAATCACCAGTTGTTCAAGCTAACTTA
GAGATGATTAAGAAGAAAGAATTATCAACTAATTCGCCAATTCTAGCTCTAAAAGAAACA
TTAGCTAACTACGATCTTAAAGTGGTTGTTAAACCTGGGGACAAGGTTAATGTTGGTGAC
TTATTGTTCAAATTAACTAAAAAGAATAAATAG

>protein sequence
MASTTNQVHSQKRSSERWKRFSGHFKEVVGKLSAGIMIPIALLPIAGLLLGIFAAVQNNV
SQATHPGVFAMAAFFKNGAEAVFGNLPTLFAIAIAVAFTNQSGVAALSAFVGWLIFNATQ
TALIFPANSQTFTILYYNNVPATALAMNLGLRSLSTSVFGGVIVGAITTLLFNKFHTIQL
PKVVGFFNGNRFVPIITLLTMLPVALVALMIWPAIGIGLNALGQSLGVLSRNGNFNSLIF
GYVERALVPFGLHHAFYAPLWFTSAGGSIANIIVNQAGSDAIAPLIVTDENGQRVIRSIV
GVAANKDAVKPAGFTAQNWMYWGQVVTALNPNTQINTDSLSGDQRLWFTINSLFVNKSVY
LSGSSDPYTFTFKSFADSTLNHPSLIQSITRNGTVISGAQLLKMVNESSTGSVVLQANDT
LNFAFPGVNPGQYEQGKHAFMIFGLPAAGAAMIMAAPKDQRKYASSIIISAAFTSFLTGI
TEPIEFTFLFLAPYLFWGFHAVFCAISFWLTSLLGGNIGQTFSGGIIDLTIYGFIPDALG
AKTNSWLPLVIGLFYIPLYYFTFYFLITKRNIETPGRGTGTRLYTKADYQAKVASKNAAS
RSDGSANFKPIEITSYKLIKAFGGRDNISAVNACATKLRVSVKTKEKVNFGEIGALGSLG
TYAVSDTLVHAVYGGDADIIKSYMQKMINKDYDSSAIEKVIGDPATKEIDPSMPKATPEV
DHKLSDVVDVYSPVKGTVTDLADLPDPSFAGKIMGDGVSIEPLDGMFYSPVDGKLELAYD
TGHAYFFDVNGAKILIHIGIDTVSLNSNNSDSNNLVGFKMFAKSGDNVSFKKSPVVQANL
EMIKKKELSTNSPILALKETLANYDLKVVVKPGDKVNVGDLLFKLTKKNK