ggKbase home page
Advanced Search
Search Help

L3_063_000G1_scaffold_464_29

Organism: dasL3_063_000G1_maxbin2_maxbin_093_fasta_fa

near complete RP 45 / 55 BSCG 51 / 51 ASCG 14 / 38 MC: 1
Location: 27993..35639

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
Peptidase S8 and S53 subtilisin kexin sedolisin n=1 Tax=Clostridium sp. CAG:138 RepID=R6ASC8_9CLOT similarity UNIREF
DB: UNIREF100
  • Identity: 53.5
  • Coverage: 1715.0
  • Bit_score: 1779
  • Evalue 0.0
Peptidase S8 and S53 subtilisin kexin sedolisin {ECO:0000313|EMBL:CDA51639.1}; TaxID=1262775 species="Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; environmental samples.;" source="Clostridium sp. CAG:138.;" similarity UNIPROT
DB: UniProtKB
  • Identity: 53.5
  • Coverage: 1715.0
  • Bit_score: 1779
  • Evalue 0.0
Bacterial Ig-like domain (group 2)./Subtilase family. similarity KEGG
DB: KEGG
  • Identity: 32.0
  • Coverage: 1365.0
  • Bit_score: 553
  • Evalue 1.60e-154

Lists

This feature is not on any list.

Notes

This feature has no notes.

Taxonomy

Clostridium sp. CAG:138 → Clostridium → Clostridiales → Clostridia → Firmicutes → Bacteria

Sequences

DNA sequence
Length: 7647
ATGAAGAAAAGGATTCTGTCTCTGCTCCTTGCGCTGGCACTTGTTCTGACGGGCGTTCCCATGGCCTTTGCCACGGAGAGCGGCTTTGCAGACGGCAACGTCCCGGAGATCTCCACGGACGGCCCGGTGCAGCTCCCGAGCAGCAATATCGCTGAAGACCCGACTGTCGAGACCGACGCGCAGCAGCCCGTTGAGGCTGGTGAGCCGAAGCTCGTGCAGAACGGCGAAGACCGCTTCTCCGCACAGCTTGCCGAGAGCGAGCCCAAGGCGGACGAGGTTGTTACGTTCATCGTCGTCATGCAGAAGAGCCCGCTGCTCGTGGCAGGCTTCACGAAGGACGACATCGCCACCCGCGCGCCGAAGGCTGTCGCCTATGAGGCCGCGCTCCGTCTCGAGCTCAATGCGCTCAAGGCAAACCTCACCCAGAAGTTCCGCAATGACGCACAGTTCGAGCTGGGTTACACCTACACCATCGCCACGACCGGCGTGGCTGTAAAGACGGAGTACGGCAATAAGGAAGCCCTCGAGGCGCTTCCCGGTGTGGATCATGTCTACGTCGCCCCGACGTTCTCCCTGCCCGAGGAGGAGTCCGCCCTGACGTCTGACGGTGAGCTGCAGCCCATGACCAGCAACGCCACCACCATGATCGGCGCCGATCAGCTCAATGCAACGGGCTTCACCGGCAAGGGCATGAAGGTCGCCATTCTGGACACCGGCATCGTGGTCGATCATCCGAACTTCGGCGCTCTGTCCGAGGATAAGCTCACCGAGAGCTCCCTGACGAAGGAAGGCGTCGATGCCATCTGGAACACGCTGAATGCGGGCCAGATGACGAGCCTGCGCAATCGCTCCTATTATAATAGTAAGCTTCCGTTCATCTTCAACTACTACACGCGTGATTTCGATGTTTCGCACGCAACGGCACAGCATGATCACGGCACGCACGTCGCCGGTATCACGGCTGCTAATAAGATCGAAGGCAGCAGTGTCATCGGTGTTGCGCCGGATGCGCAGATCATCGTCATGCAGGTCTTCTCCGCAGGCGGCGGCGCCGGCTGGGACACCATCATGGCCGGCCTTGAAGATTGCGTCCGTCTGGATGTCGATGCCTGCAACCTCTCCCTTGGTGCAGCCGGCGGCTTTACGACCGGCGACATGAGCAAAACGCTTGAGCTGTTCGAGAGCACCGATATCGAGGTCCTGATCGCTGCGGGCAACGAAACGAACGCTGCGTATCAGAACCGCACCGGCTGGAACCTCTCCCGTTCCGGCAACCCCGATGACGGCGTCGTCGGTACCCCGAGTACGCTTTCTGCCGCTCTGTCCATTGCCTCCATCGACAACGACGGCGCAGAATCCCTGTACTTCACCGTGAACGGCCGCACCATCGGCTACAACGACACCGCAACGACGAACGCCACGAAGTTCCTGAGCAACTTCAAGGGCCAGTCTGTGGAGTTCGTTCCGATCGGCGGTTACGGCGAGGCGAGCGACTATGAGAATGTGGATGTCAGCGGTAAGATTGCCCTGGTTTCCCGCGGCTCCAGCTCCTTCCCCGACAAGCAGGCCGCTGCACAGGCTGCAGGTGCGATCGGCATCGTGGTCTACAACAATGCCTCCGGCATGCTCAACATGCAGATCAATGACGGCGGCGATAACATCCCCGCAGTCTTTGTTTCCAAGGCAGACGGCGAGTACATGAAGGCGCAGTTCGCCGAGGGCGTCAAGACCCTGACATGCTGCAACGGCGACCTCGTGCAGGTCAAGCGCGACCGCACCCTCAGCGACTTCTCCTCCTGGGGCGTCACCCCGGACCTGAAGCTGAAGCCGGAGATCGCCGGTGTCGGCGGCAACATCTACTCCACCCGTGATCCGAGCATTGCAGGCTCCAACTACGGCCTTATGAGCGGTACGTCCATGGCGACCCCGCAGATCACCGGTGCGATGGCTGTTCTCATGCAGTATCTGCGCCAGAACTATCCGCAGTATCAGGAAGCAGAGCTCCGTCAGGTTGCTGCGAACCTCCTGATGAGCACGGCGGATCCCATCCTCGATTCCAACGGCCTCGAGGTCTCCCCGAGAGGCCAGGGCGCCGGTCTTGCCAACCTTGTCAAGGCAACAAGCTCCCTTGCCTATCTGTCTAACGCGCAGGCTTATGAGAACCGCGCCAAGGCGGAGCTGGGCGACGACGACGCCAAAAACGGTGTCTACACGTTCCCGTTCACTATCAACAACATGTCCGGCGAGAAGGATCTGACCTATACGTTCAATGCCTCCATTCTCACCGAAACTGTCGTGACCTACACCAACGGCACGTTCATCGGCCACGCTCCCTATGCGCTGGGCGCTTCCCTGACCGTGGCCGGTGCGACCGAGTCGAACATCATGAAGTATGACTTCAATGACGACGGCGAGATCACGACGGCCGACGCCCGCGTCCTGCTGCTGCACGTCACCGATGATGCTCCCATCGCTGAGGACAATGTGCACTATGCCTATCTGGACGTCAATGGCGACGGCACCGTCAACAAGGATGATGTCGATGTCATCACGGCCTACTGCGCAGAGCTGGAGGTCAGCACCGATCTGACGGAGAATGCCGTTATTTCCGGCACGGAAGCGCTTGAGAGCGTCACCGTTCCGGCTGGCGAGTCCGTCACCCTGACTGCCACCATCACGCTGACCGCGGAAGACAAGGCCTATCTCGACGCATCCTTCGAGAACGGCATGTATGTCGAAGGCTTCCTTTATGTGAAGTCCGCCACGGATGACACGACCGACCTCGAGATGCCGTTCCTCGGCTTCTACGGCGACTGGTCTCAGGCTCCTGCGTTCGACTCTGCTGACGAAGACGAAGCCAGCCTGTATCCGCTCAGCATTTTCACGAACAATGCCGCCATCGGCACGAACCCGTACATCCGTACCGGCGCTTCCGGCGACGAGTACAATGCCTTCTCCTATGCCAACCCGCTTGCCGAGATCGACGTCGGCCTGCTCCGCAACCTGAAGAAGATCAACTTCCAGGTTAAGGATAAGGTCACGAACGAGGTCTACTTCGACCTGACCGGCGAGTATATGGCAAAGTCCTACTATAACTCCGGCTACGGCCAGATCATCCCGCTGTATGTTCTGGCAGAGGAAGGCGAGGTCTGGAACGGCCTTGACAAGAACGACAACAAGCTGCCCGACGGCACGACCGTCACCTACACTGCCAGTGCATGGCTTGATGACGGCGACGACGTGATGGACGATTCCTTCTCCTTTGATGTCACGCTGGACGACAAGGCTCCCGTTGTGGAGAATGAGGCGACCCTCCAGCAGGATCTCAAGATCGAGAACGGCAAGGTCCTTCTTCCGCTGAAGCTCAACGACAACCAGCACATCGCGGCCCTGATCTTCGTCAACAACGACGGCATCATTATGGGCAAGTACGAAGTCAAGAATGAGCCGGGCAAGACCTTTACCCAGGACTACGACATCACCGGCTTCGGCCCCGACTTCACCATCGTTGTGGCGGACTACGCCTGCAATGAGACGGAAATCGATGTCTCCCTCGACCTCGGCGCAATGGCCGATCAGAAGCCTGCCATGCAGAAGCTGAGCTCCGACCGCCTGTATGGCTGCGAGACGTTTGACCGCGCTGCCGTTGAAGGCGGCTGGTTCAGCGCCAACAAGGCAGACATGAGCGACTACCGCAACGAGACGTTCGACAGCTCGAACCGCTATTATTCTGCAGAGTACGTCAACGGCTACCTCGTGGCCCAGCGCGCAACGGACGGCGCGGTCGTGCTTGTTACCCCGTACAACACCTACTGGGGTTCTCAGACCCTCGTCACTCAGCCCGGCAAGGTCGGCGACATCGGCTTCAAGGTCCTGTACGACATGGCACTCGACTATTCTGACAAGGGCAAGAGCGATTCGGATACGGTCAGCAACCACCTCTACGCTGTCGGCTGGAACTATGAAGGCGACCGCGACGGCGACGGCAAGGATGACGGAAGCAACGCTCTCTTCCAGATCAGCTTCTACTCCAACGGCTCCATCTCCCTTGAGAAGATCGCCGACATCACCGGCTCTGACGGTGAGATCCTGACCCTCGGCTGCACGACGGAAGGCCAGCTTTACGGCATTTCTACCGCCGGTAAGCTCTACAGCCTCGAGCGCGACGGCGTGTGCACCTACATCGGCACGACCGATTTCGTAAACTACGCCAACTACTCCGGCTGCAATGTCATCCAGTCCATGGGCTATGATCACAACACCGACACGATGTACTGGTATGCACACAGCCAGACGGCTGCAGGCAACACCTACATCAATGTCTGCATGACCTACAAGGTCGACCTTGCCACCGGCAAGTGCACAGAGGTCGGCACCTACGGCCCCGGCGGCCAGACGTCCCTGTTCGTTCCGACCGACAAGACGTCCGACCTGTTCACCATCGGCGTGGATCCGCAAGAGCGCTTCCAGCTTTCCCCGTATCAGCTTACCATGACGCAGGGCCAGCGCAAGCGCTTTGAGGTCGAGTGGAATCCGTGGAACGCTAAGGCAAGCGAACTGACCTGGGCCTCCGCGGACGAGACCATCGCCACCGTCACACAGCAGGGCTTCGTCACCGCCGTAGGCGAGGGCGAGACCGAGATCACCGCGACTGGCAAGGTCTGGTATCCTTGGCACTGGGATGAAGAAACCAGCTCCACCGTCCCGCAGTGGGTCGATTACACCGCGACCGCTACGGTCCGCGTCGTTGGCTCCGCAGAGGCCATCTACACCTATATTGTGGCGGACTACAAGAACGCCGCCAATGGCTTTACCTGGGTTACGTTCTCCGACAAAACGCCCACGCAGCTCACGCAGATCGCGAAGCAGAAGCTTACGGTCGTCGGTATCGACGGCGAGGAGAGCACGACCGATGCCATGTGGCAGGGTGCAGCCTACTACAACGGCTATGTCTACGCAGTCGTGAAGGAAGACCGCGCTATGGATGACAGCACGTTCGGCGTCGGCACGTCCCTCTACCGCTTCAAGGTCAACAAGGGAGAGACCCCGGATAAGACCACGTTCGGCGATATCGAGTTCATCGGCTTCACCGCAGGCGTCGAGCTCGGCAACATGGGCTTCGATTACAACACCGGTCGTATGTATGCGGTCGATCTTACGAACGGCGGCCTCGCCATTGTCGACCTCGACACCGGCGCGATCGACCTGCTCGGCACCTACTCCGGCGAGATCGGCGGCCCGGCGATCACCCCCGCCATGACCGTCACTGCAGAAGGCTACATCATCGTCTCGGATATGTCCGGCAACCTCTACATGGTCGATGCCGACACCCTGAGCACGACGAAGCTCGGCTCCCTCGGTCAGGATACCTGGTACTATGCTTCTATGATGTATGACTACAACACTGGAAACATCTACTGGAACCCCTGCATGAATGCTGGTTCTTCTCCGCTGTGCCTCGTCCGCATCGACCCGCAGGAATGGGATCCCGACAAGCTCGAAGCGACGATCGTGAAGATCGGCAACGTCTCCACGAAGTCTGGCGTTGAGTCCACCGCAATGTTCACCATTCCGGAGAATGAGCCGGAGACGAAGCACATCCCCGTTGAGGGCATCGAGATTACGAACGGCGACAGTGTCACCGGCCTTGTCGGCGGCACGCTGCAGCTCGATACCGTCACGACCCCGGTCCGCCCGACTGTCCGTACTCGCACCTGGACCAGCAGCAACCCCGATGTCGTCACCGTTGACCGCTTTGGTGTTGCCACGTTCCACGGCGTCGGCACGGCGACCGTCACGGTCTCCATCACGAACAAGAATCCCGAGGTCGAGGGCGGCCCGTTCACGGACAGCATCGACGTCACGGTCTACGCCTCCGCAGGCACGTTCCTCTCGTTCCTGAACGACGACCAGAACGGCGGCAGCGGCTACTATGACTTCTGGCTGCAGGTCCCGGACAACAACCTGAGAACCTGCCCGGTGACGACCTCTGCCATCGGTGCTTACTCCCTGCGCACCGGCGCTTACTACGACGGCTGTGTCTACGCCTACAACTCCAAGGGCGACTTCTACCGCTTCGATGCTTCGGACGTTTCGTCCTACACGAACCTTGGCAGCGTCAACCTCGACGTGGAGACCGATCAGGTCACCGGCATGGCCATGGACTACACGACCGGCACCATGTACGGCCTGACGCTCAGCGGCAAGCTTGTGACGATCGACCTTGATAACGGCGCCGTCACCGAGATCGCGGCGACCTCCGAGAAGGTCACGGCTCTTGCAATCGACAAGAGAGGCGTCCTCTACGCAGCCGGAAGCACTGCCATCGGCGTGGAGGCGAAGCTCTACACCGTCGATCCGAAGACAGCTGCCTGCACCTTCGTCATGGATATCCCGGGCGCTCAGGTTGGCACCGGCAGCACCTACTACGGCAGCATGTCCTACAACGCACAGATGACCTATGACTTTGGCACGGATCGTCTGTACCTGCATGCAACGTATCACACGAAGCAGCTGGCCATGAGCAACGGCATGTACATGTTCATGCTGGGCGAGGGCACGCCTGAGCTCGTGAACCTCGGTAAGATCTCCGTCCAGACCGCTCCCGGCCGTACGACGAAGCAGGGCGATGCCTATCTCGGCCTCCTGTGCTCCATCCCCACCGCAGAGCAGACACCTGTCGGCAAGGTCAACGGCATCCTGCTGAACAAGACTGTCGGCCGTCTGGCCCTTGGCGAGTCCTTCCAGCTTACCGGCAAGGTCCGTCCGTCCAACGCGGCGAACCAGGCCATCACCTGGAGCTCCTCCGATGAGAACGTCGCGAAGGTCGATGCAAACGGTCTGGTCACGTCCGTTGCCGCAGGCAACGTCGTCATCACCGCTACGAGCGTAGAGACCGGCGTTACTGCCACCTGCACGCTGACTGTGGTCGACATGACCGGCAAGCCTGTCTCCACGGCTTACACGGTCTCTGCCAAGCACGACGCCCTCTACAGCTTCAACCCCGAGCTGCCGGACTCCACGGCGACTGAGGTCGCGACCTTCAGCGGCGGCACGAACATCACGGGTCTTGCCTATGACTACGAAGGCGGCCTGTACTATGTCGTCAACGAAGGCGGCCTGCCCTACATCTACTACTACGACCTCACGTCGAAGCAGACCACGCTGAAGGGCCAGGTCTACACCTTCACCGATGCCAACGATCTCGCGTATGACCCGGTAAATAAGGTGCTGTATGTTGTCGCGGGCTTCTACCTGTTCCAGTTCAATCCGTCCCGTATGGATCCCACGCAGCTGAACTACTGGACGGCCTGCCGCGATATGTCTGGCATGACGAACATCCCGTCTCCGCGTACCGTTGCCTGCAAGGACGGCAATGTCTATGTCCTCGCCAGAGGCTATGGCAATACCGAGCTCATCCGCGCGGATGTGGATCTCACCACATTCACGAAGCTTGCAGAGGTCGACCTCATGGTCGAAAACCGCCTCAACGAAATGGACTACGATCCGACGACCGGCCTGTTCTATGTGACCGACTCGGCGCATCGCCTCTACTCCTTCGATGAGACCGGCGCGATCACGCTGATCGACACCGTTGGCGGCGGTCTGGACCTCAACGGCCTGACCATCGTTCCCGCTGCCAAATAA
PROTEIN sequence
Length: 2549
MKKRILSLLLALALVLTGVPMAFATESGFADGNVPEISTDGPVQLPSSNIAEDPTVETDAQQPVEAGEPKLVQNGEDRFSAQLAESEPKADEVVTFIVVMQKSPLLVAGFTKDDIATRAPKAVAYEAALRLELNALKANLTQKFRNDAQFELGYTYTIATTGVAVKTEYGNKEALEALPGVDHVYVAPTFSLPEEESALTSDGELQPMTSNATTMIGADQLNATGFTGKGMKVAILDTGIVVDHPNFGALSEDKLTESSLTKEGVDAIWNTLNAGQMTSLRNRSYYNSKLPFIFNYYTRDFDVSHATAQHDHGTHVAGITAANKIEGSSVIGVAPDAQIIVMQVFSAGGGAGWDTIMAGLEDCVRLDVDACNLSLGAAGGFTTGDMSKTLELFESTDIEVLIAAGNETNAAYQNRTGWNLSRSGNPDDGVVGTPSTLSAALSIASIDNDGAESLYFTVNGRTIGYNDTATTNATKFLSNFKGQSVEFVPIGGYGEASDYENVDVSGKIALVSRGSSSFPDKQAAAQAAGAIGIVVYNNASGMLNMQINDGGDNIPAVFVSKADGEYMKAQFAEGVKTLTCCNGDLVQVKRDRTLSDFSSWGVTPDLKLKPEIAGVGGNIYSTRDPSIAGSNYGLMSGTSMATPQITGAMAVLMQYLRQNYPQYQEAELRQVAANLLMSTADPILDSNGLEVSPRGQGAGLANLVKATSSLAYLSNAQAYENRAKAELGDDDAKNGVYTFPFTINNMSGEKDLTYTFNASILTETVVTYTNGTFIGHAPYALGASLTVAGATESNIMKYDFNDDGEITTADARVLLLHVTDDAPIAEDNVHYAYLDVNGDGTVNKDDVDVITAYCAELEVSTDLTENAVISGTEALESVTVPAGESVTLTATITLTAEDKAYLDASFENGMYVEGFLYVKSATDDTTDLEMPFLGFYGDWSQAPAFDSADEDEASLYPLSIFTNNAAIGTNPYIRTGASGDEYNAFSYANPLAEIDVGLLRNLKKINFQVKDKVTNEVYFDLTGEYMAKSYYNSGYGQIIPLYVLAEEGEVWNGLDKNDNKLPDGTTVTYTASAWLDDGDDVMDDSFSFDVTLDDKAPVVENEATLQQDLKIENGKVLLPLKLNDNQHIAALIFVNNDGIIMGKYEVKNEPGKTFTQDYDITGFGPDFTIVVADYACNETEIDVSLDLGAMADQKPAMQKLSSDRLYGCETFDRAAVEGGWFSANKADMSDYRNETFDSSNRYYSAEYVNGYLVAQRATDGAVVLVTPYNTYWGSQTLVTQPGKVGDIGFKVLYDMALDYSDKGKSDSDTVSNHLYAVGWNYEGDRDGDGKDDGSNALFQISFYSNGSISLEKIADITGSDGEILTLGCTTEGQLYGISTAGKLYSLERDGVCTYIGTTDFVNYANYSGCNVIQSMGYDHNTDTMYWYAHSQTAAGNTYINVCMTYKVDLATGKCTEVGTYGPGGQTSLFVPTDKTSDLFTIGVDPQERFQLSPYQLTMTQGQRKRFEVEWNPWNAKASELTWASADETIATVTQQGFVTAVGEGETEITATGKVWYPWHWDEETSSTVPQWVDYTATATVRVVGSAEAIYTYIVADYKNAANGFTWVTFSDKTPTQLTQIAKQKLTVVGIDGEESTTDAMWQGAAYYNGYVYAVVKEDRAMDDSTFGVGTSLYRFKVNKGETPDKTTFGDIEFIGFTAGVELGNMGFDYNTGRMYAVDLTNGGLAIVDLDTGAIDLLGTYSGEIGGPAITPAMTVTAEGYIIVSDMSGNLYMVDADTLSTTKLGSLGQDTWYYASMMYDYNTGNIYWNPCMNAGSSPLCLVRIDPQEWDPDKLEATIVKIGNVSTKSGVESTAMFTIPENEPETKHIPVEGIEITNGDSVTGLVGGTLQLDTVTTPVRPTVRTRTWTSSNPDVVTVDRFGVATFHGVGTATVTVSITNKNPEVEGGPFTDSIDVTVYASAGTFLSFLNDDQNGGSGYYDFWLQVPDNNLRTCPVTTSAIGAYSLRTGAYYDGCVYAYNSKGDFYRFDASDVSSYTNLGSVNLDVETDQVTGMAMDYTTGTMYGLTLSGKLVTIDLDNGAVTEIAATSEKVTALAIDKRGVLYAAGSTAIGVEAKLYTVDPKTAACTFVMDIPGAQVGTGSTYYGSMSYNAQMTYDFGTDRLYLHATYHTKQLAMSNGMYMFMLGEGTPELVNLGKISVQTAPGRTTKQGDAYLGLLCSIPTAEQTPVGKVNGILLNKTVGRLALGESFQLTGKVRPSNAANQAITWSSSDENVAKVDANGLVTSVAAGNVVITATSVETGVTATCTLTVVDMTGKPVSTAYTVSAKHDALYSFNPELPDSTATEVATFSGGTNITGLAYDYEGGLYYVVNEGGLPYIYYYDLTSKQTTLKGQVYTFTDANDLAYDPVNKVLYVVAGFYLFQFNPSRMDPTQLNYWTACRDMSGMTNIPSPRTVACKDGNVYVLARGYGNTELIRADVDLTTFTKLAEVDLMVENRLNEMDYDPTTGLFYVTDSAHRLYSFDETGAITLIDTVGGGLDLNGLTIVPAAK*