ACL_RS07155

Uniprot: A9NEW3
Description: Ig-like surface-anchored protein
EC number: 3.5.1.28
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: 109,928
Subunit structure [CC]:
Gene ontology (GO): N-acetylmuramoyl-L-alanine amidase activity [GO:0008745]; peptidoglycan catabolic process [GO:0009253]
Gene ontology IDs: GO:0008745; GO:0009253
Chain: CHAIN 22 1009 {ECO:0000256|SAM:SignalP}. /FTId=PRO_5002739324.
Signal peptide: SIGNAL 1 21 {ECO:0000256|SAM:SignalP}.
Domain [CC]:
Sequence similarities:
Protein families:
Coiled coil:
Domain [FT]: DOMAIN 24 99 BID_2. {ECO:0000259|SMART:SM00635}.; DOMAIN 104 175 BID_2. {ECO:0000259|SMART:SM00635}.; DOMAIN 183 259 BID_2. {ECO:0000259|SMART:SM00635}.; DOMAIN 625 702 BID_2. {ECO:0000259|SMART:SM00635}.; DOMAIN 787 937 Ami_2. {ECO:0000259|SMART:SM00644}.
Motif:
Region:
EMBL: CP000896
ProteinModelPortal: A9NEW3
MEROPS:
EnsemblBacteria KO: ABX80893
UniPathway: K01447
CDD:
Gene3D: cd06583
HAMAP: 3.40.80.10
InterPro:
PANTHER: IPR002502;IPR003343;IPR008964;IPR011050
PIRSF:
PRINTS:
PROSITE:
Pfam:
ProDom: PF01510;PF02368
SMART:
SUPFAM: SM00644;SM00635
TIGRFAMs: SSF49373;SSF51126;SSF55846

271034-274064(+)

>nucleotide sequence
ATGAAGAAAATATTTGCAATATTTAGTTTAGTATTGGTTAGTTTGATTACAGCATGTACT
GCAATAGAAAAACCTGATGAAATTACATTAAGTTTAAGTAGTGGTCCAATCCAATTAGAA
GTTGGTAAGACTCATCAGTTATCTATTACTACAAATGATACTTTAGGTTATGATATTAGT
TCATCTAATCATGAAGTAGTAACCGTATCAAATACAGGGTTAGTTACTGCCTTAAAAGAA
GGTACTTCAGTAGTTACTGTAACATCTAAGACTAATGAAGAAGTATCTAAAAGTGTCAAC
ATCCATGTAACTAAAACATATAACTTAGTGATTGAAGAGCCATCCACATATTTATGGGCT
GGACAAACACTTCAATTAAGTTTTGAAACATCTGGTGAGGAAGTTACATTTAAATCAGAC
AATGAAGCTGTTGCAACAGTGGATAATAACGGTTTAGTTACGGCAGTAAGTCCAGGTAAC
TTTAAAATTACAATGACATTAGCATCAGATATTTCTGTTAAAGCAGAAATTAGTTTAGTA
GTGTATGATGAAACATCAACCATTTTACTAGAAGGTGACTCTAAGTTAAATGTGGGTCAA
ACAACAAAGTTAAGTGCCATTTTAGGTCCTGAAACTGCAGCACCTGCTTTAGCATGGTCA
TCTAGTGATGAGTTCGTTGCTACAGTAGATGATGAAGGTACAATCACCGCACATAAATCT
GGTGCTGTTACAATTACAGCAACTTCATTAACCTCTACAGAGGTGAGTGCAACGCATTCG
ATTCTAATTGTTAATGAACTAGTAGTCGATGGTGAAGCAAAAACTGGTGATAAAGTCGTC
GTTGAGGATTTAGAATTTGAGTTTGGAACGACTTTATTTAATACTTTAGAAGCAGCACTT
GATACTGCAACTGATGGCGCGCATATTTATTTAAAAAATCTTGAACTTTTAACACTTACT
ATACTAGATAAATCTGTGACTTTAGAAGGAATCAATGATCAAGTTGTAGCGAAAAATCTA
GTTACAATAGATGCTAGTGATGTGGTCATTAAAAATATAGCATTTAATGAACAGGGTGCT
ATCCATGTATTACAAGGGTCAAGTAATGTATCGATAATGAATAATAAATTTTCAGATTTA
AATGAAGCAGTACTTCAAGCAATACTTGTTGAAGAAGCACAAGGCTTAAGTATTGAACAA
AATGAATTTAAGACATTAAAACATGATGCAATCGTTATTGATGACATTATTTCGGGTTCA
TTAAATATTAATAAAAACATTATTGATGGTGCAGAAGTTGCTATTAAGTTAGCAGGTAGT
TCATATAGTAATGATACTGAAATTTTTATTCAAAGAAATTCGATTTCAAACATTGAAGTT
GCATTTGATGTTTCTTTAAATGACACTGAAATTTTAGCATATGCTCGTTTTAATGCAGTA
TCTAGTTTTAGTAAGTACCCTGCTAAAGCGAATTTGGGGTCCAATTTTGATTTCACACTA
AACTACTGGGGAAGTGCAACACTAGATTTAAACCAATTCGAAAACATATCTGAACGCATG
TTAATGGGACATTATGAATCAGAAGCTGTAATACTTAAAGAAGCAGACTATGATCCAACC
GCACCGCTATTCATATATATTACTAGTGATCTTAAGGTATTAGATGTTAATGATGAAATA
ATGCTAGAGTTCGAATATTTACCTTATGAACTTAAAGATGGTCGTTTTAGATTTAGAACA
GATGCACCAGATACTTTGTTAGTAACTGGAACAGGTTTATTAAAAGCATTGAGTAGTGGT
CAGGCAACGATTAGGGTTGAAGCATCGCATAAATTTTCTAATGCACAAGATTCAATTACT
CTTGATGTGACAACTGATCCAGGTATTGACCTTGTACCATCTATTGATACACATTCACTA
GTTGCTGGTGACAGTGTAAGGATTGAAGCGACACCATTTCCTGTAACGATTAAAGATAGC
GAAGTTCTATTTGAATCATCAAACTCAGCCATAGCAACCGTAGACAGTGAAGGTTTAGTG
ACATCTCTAACAAGTGGTAGTGTCATTATTACTGCAAGACTTGTATCTGATGTAGAAGTT
AAACAAGAAATTTATTTAGATTTTTATGAAAACTTAGATCAAAATAATCTCATGGACTTA
ATTACGATGAATCAGCAAAGTCATTTGAAGATGTTTGACTTTTATGAAATCGGAACGGGA
CCAACTTATAGAGTCGTTGGATATGAATCGGTATCAAACTACTATTTTGATGAAGTCACA
CCAGATACATCACTTATGATACCTGATATATATAAAGGTAAAAATGTAAGACCCGGGTTA
CCACTATCACCAATACCTGCTGGCTATACAACATACAATGATAAAAATATTCACTGGATT
ACAGTACATGATACTGCAAATACTGCAACCGGATCTGGTGCACTTTCTCACGCAAATTAT
TTAAATAATCAAGCGAGAATTAACGGTGCTCAAGTATCATGGCACTATACAATAGATGAT
AAAGCATTCTATCAGCATATTCCTGAAGGTGAAGTTGCTTGGCATGCTGGAGATGGTTCT
AACTTAGTTGGACAAGGTAGTTACTTGGGTGGTGGAAATAGAAATGCGATTGCAATTGAA
ATGTCTGTTGCAATGGGCGATGATCTCTATAGAATTTGGCAAAGAACGGCTAAGTTTTCA
GCTGAAACGTTAGTTAAATATAACTTACCAAGAGAACACATCAAATTCCATCAACATTTT
TCTGGAAAACATTGTCCTAATGCTTTATTAGTATCTGGATTAGAACCTAAATTCCAAAAA
ATGGCAGATATAGAGTATAAAGTAGCACTAGAATATCCAGGTGCTCAAATCTCAATGGTG
AGCAATCATCCGGATATTATTGATAATATGGGACGTGTAATTTCAATGCCTTTACATAAT
ACACTTGCAAGTTATACAGTAACTGTAGTTTATGAAGGTGTAACAACTTCTCGTACATTT
AATGTGTATGTTCCAGGTACAACAAGATAA

>protein sequence
MKKIFAIFSLVLVSLITACTAIEKPDEITLSLSSGPIQLEVGKTHQLSITTNDTLGYDIS
SSNHEVVTVSNTGLVTALKEGTSVVTVTSKTNEEVSKSVNIHVTKTYNLVIEEPSTYLWA
GQTLQLSFETSGEEVTFKSDNEAVATVDNNGLVTAVSPGNFKITMTLASDISVKAEISLV
VYDETSTILLEGDSKLNVGQTTKLSAILGPETAAPALAWSSSDEFVATVDDEGTITAHKS
GAVTITATSLTSTEVSATHSILIVNELVVDGEAKTGDKVVVEDLEFEFGTTLFNTLEAAL
DTATDGAHIYLKNLELLTLTILDKSVTLEGINDQVVAKNLVTIDASDVVIKNIAFNEQGA
IHVLQGSSNVSIMNNKFSDLNEAVLQAILVEEAQGLSIEQNEFKTLKHDAIVIDDIISGS
LNINKNIIDGAEVAIKLAGSSYSNDTEIFIQRNSISNIEVAFDVSLNDTEILAYARFNAV
SSFSKYPAKANLGSNFDFTLNYWGSATLDLNQFENISERMLMGHYESEAVILKEADYDPT
APLFIYITSDLKVLDVNDEIMLEFEYLPYELKDGRFRFRTDAPDTLLVTGTGLLKALSSG
QATIRVEASHKFSNAQDSITLDVTTDPGIDLVPSIDTHSLVAGDSVRIEATPFPVTIKDS
EVLFESSNSAIATVDSEGLVTSLTSGSVIITARLVSDVEVKQEIYLDFYENLDQNNLMDL
ITMNQQSHLKMFDFYEIGTGPTYRVVGYESVSNYYFDEVTPDTSLMIPDIYKGKNVRPGL
PLSPIPAGYTTYNDKNIHWITVHDTANTATGSGALSHANYLNNQARINGAQVSWHYTIDD
KAFYQHIPEGEVAWHAGDGSNLVGQGSYLGGGNRNAIAIEMSVAMGDDLYRIWQRTAKFS
AETLVKYNLPREHIKFHQHFSGKHCPNALLVSGLEPKFQKMADIEYKVALEYPGAQISMV
SNHPDIIDNMGRVISMPLHNTLASYTVTVVYEGVTTSRTFNVYVPGTTR