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Identifier: 37527581

GI number:

Start: 4374057

End: 4383140

Strand: Reverse

Name: Not Available

Synonym: plu3718

Alternate gene names: NA

Gene position: NA

Preceding gene: 37527582

Following gene: 37527580

Centisome position: NA

GC content: NA

Gene sequence:

>9084_bases
ATGAACAAGCAGTTATATCGTATTATCTTTAATCAGGCCCGCCAGATGTGGATGGTGGTGGCCGAGATAGCGCGGGCCGG
ACGGGGAAGAACCGGACGCCGCGCTCATCGCTCCGCTTCACCGCAGCGTTGTTGCCGGCTGACTGCGCTACGGTTTGGGG
TGTTATTCGCCCTTGGCGGAATTTCGCTTACGGCACAGGCGGCGATTGTGGCCGACGGACAGGCACCGGGGCGTCAGCAG
CCGACTATTATTCGCAGCGCCAACGGCACGCCGCAGGTCAATATTCAGACGCCGGGCGCCGATGGCGTTTCCCACAATAC
CTACCGTCAGTTTGACGTGGATAAACAGGGAGTTATCCTCAATAACAGCCATCAGGCTACGCAGACGCAACTCGGCGGCA
TGGTGGCGGGCAATCCGTGGTTAGCTAAAGGGGATGCCCGCGTTATCCTCAATGAAGTCAACAACCATAACCGCAGTCAC
CTCAACGGCTGGATTGAAGTGGCCGGGCATAAAGCCGAGGTGATTATTGCCAATCCGGCGGGCATCACCTGTAACGGTTG
CGGGTTCATTAACTCACATCGCACCACGCTCACTACCGGACAAGCGCTGATGGAGCGAGGCCGGCTGAAAGGGTTTGATG
TCAATCAGGGGGAAGTGCGGATTGACGGACACGGTATGGACAGCACACAGCAAAGTTACACCGATATTATCGCCCGCTCC
GTGGCGATTAACGCCAAATTACACGCGCAAGACCTGAAAGTGACCACCGGGCGCAATATTGTCGATGCGACGCATCAGCA
GATGAAGAAAAAATCGATTGACGATGAAAAGCACCCGGCGTTTGCGTTGGATGTGGCGGCGCTGGGCGGCATGTATGCCC
ATAAAATCAGGCTGATAGGCACCGAAGCGGGGGTGGGCGTGCATAATGCCGGTAATATCGGCGCGTCTGCCGGCGAGGTC
CATATCACCGCCGAGGGCCGGATAGAGAACCGCGGCACCCTCAGTAGTCGGGATACGTTGCAATTAACCTCGTCTGCCGA
TGTCACTAACACCGGCAAATTGCTGTCACAATCGGCGGTGAATTTACAGGCTAAAGGTGCGCTCAATAATCAGGGCCGGG
TGGAAGCCCGCGGCGATACCACCGTTACTGCGGGCACGATACACAGCAGCCATGACAGCGTATGGGCTGCGGGGCTGGAT
GATAACGGCAACACTACCCGACCCGGCTCATTGACTCTGACCGCGCAGCACGTTCAGGCTAAGGGCAAAAATCTGGCCGC
CGATACGCTGGCTATCCACAGTCAGCGGATTGACCTGAGCGACAGCCAGACCGCAGCCAGCCAGATTCAACTCACCGCCA
GTCAATTGGGCATCAGTACCGCTCGCGCTACCGTCAACGCCGACCGTTTGACCGCGAAAACCCCGGGCCAGTTTAACAAC
GACGGCGGCCAGTTAGTGGCGCGAGCAATCCACCTCACGACGCCTGATATCTCTAACTTGAAGGGAAAAATTAATCAGAC
CGGTACTGGTGAACTGACGCTCCATACCCGCACCCTGAATAACCGTGAGGGGACCGTGTTCAATCAGGGGAAATTGACCC
TCACCACTGACCGGCTCGACAACCATCAGGGCACTATTGCCAGTCAGGGCGAGGACCTGCATCTCACCGCGCATCAGGCC
GATAACAACCAGGGAACGGTGCAACTGGCAGGCAACGGGAAACTGTCGCTCAACACGCAACGGTGGCTGGGTGATAAGGG
CAAACTGCTGACCAATGGCACCCTGACGATACAGGCCGGTGAACTGCAACTCAACCACGCCGAAACTCAGGCCGGGCAGA
TAACCATCAACGCCGACACCCTGAGCCATCAAGGCGGCGTGATGCAACAATGGGGTAAGGATGACTTGTCCCTCACTACC
CGGATACTGGATAACCACAGCGGCACTATTGCGGGCAATGGCAACCTGAACCTTAAGGCAACGACCGTCGATAATCGTCA
CGGCAATATCGTGGCCGCCGACCAAGGTTCGCTGAAACTGACCGTCAAAGACACGCTGGATAATCAGTCGGGCAAACTGG
AAGCGGGCCACGCGCTCCAACTTAGCGCCACTCAACTGGATAATCGCCGGAGGAGCATTGTTGCCGCCGGGGACAGCGCC
ACCCTCACCGTTGGCAAAACTATTCAAAACGCTCACGGCCATCTTGAAGCCAAAACCCGACTGACTACGACTAGCCAGAC
GTTGGATAACACCCAGGGGGTGTTGCTGGCACAAAACATTGACAGCCAGACCACAGGCCATCCCTTCACCAATACCGCCG
GACAGGTGATAGCCGAAGACACCCTGACGGTCAACAGTGGTCAACTGGATAATACGGCGGGGCTGTTACAGGCCGGTCGC
GAGATGGCCGTTGATACCCACGGGCATGGGCTCACCAATACCCACCATGCCGACCAAAAAGCGGGCCGGTTATTGAGTGG
CGGGCAGTTAACTTTGCGCACCGGCGACATCGACAACACCGGAGGGATGATCGCAGCGGACGGCAAAACCGTGCTGACCA
GCACCGCGCTCAATAATACTCAGGGCCAGATAGCCGGAAATAGCGGGCTGAACATTCACAGCCGACAACTCACCAACCGC
GAGGGCACTTTACAATCCGCCGACGCCCTGACTCTGGATACCGACGGGCAGTTACTGGATAACCAGCAGGGCCAGATTAT
CGGTGAGGGCAAAACCACTATCACCAGTGGCCCGCTGGACAATCGCCACGGTCATCTTCAAGGCGGACAGTTGGCTATCG
ATACCCGACACGCCGCGCTGGATAATCGGGATGGCAAACTGTTATCCACGGACACCTTAACTCTGAACACTCACCAACTC
GATAATCGTCACGGGCAGGTGCAGGCGGTGGGCGACACTCAGCTTGATGTTGACACTCAAACCGATAACACCGGCGGCCT
TATCCGTGGCGGTCAGCAATTGACCCTGAACACCGCTCGCCTGATTAACCGCGAGACGGCGCACACGGATAACGGGCTGG
AAGCGCAAAACCTGACGGTAAACGCGCAACAGGTGGACAATACTCAGGGCGCTTTACGGGCGGCCAACCACCTGCAAGCG
AACATCCGCCAGACGTTGAATAATACCCAGGGACTGGTCTCCGCAGGTAAACAACTGACGGTGGGCGACAAGAGCGGGCC
TGCCTCGCTGGCGATTAACAACCGGCAAGGCACGCTAATTGCCGGGGAACACGCAGCTATCACCGCACACGCCTTGAGCG
GGGACGGCCAACTGTTATCGCAGGGCGATATGGCGGTCACTTTAACCGAGGATTTTCACCATACCGGCAACACGGCGGCC
AATGGCAATCTGACGCTGAAAACGACCGGCAATATCACCAACAACCGCCAGATAAAAGCCGGTCGGGCGCTGTATCTGGG
CGCACAGAATCTCATCAACAGCGCCTCCGGTGAAATCAGCGCCAAACAAACGCAAATCCAGGTTCACGATACGCTGAACA
ACACCGGACTGATTGACGGCGGCTTAACCCATCTCACGGCCAACACTCTGAACAATACCGGCACCGGGCGCATTTACGGT
GACCAAATTGCCCTCCAGACAGGCACACTGAATAACTCCGCACAGGACGGCAAAGCCGCGGTGATTGCGGCGCGGGACCA
ACTGGATATCGGCACCGGAACACTCAACAACCAGCATCATGCGCAGATTTACAGTGTGGGCGACATGCACATCGGCGGTC
AGTTGGATAACGCCCTGAAAGCTACCGGCCAAGCTGGTGTGCTCAATAACCACGCGGCGACGATTGAAGCCGGGCGCCAT
TTGAAGATTAATGCCGACCGGATTAACAACACCAACGCCGGGTTGGTGACTCAGGTCGTCGAAACAGAAAAGTCTCAGCA
TCACGATGCAGTACTGAGCGGCCAGACCACTCGCTATGACTGGTCACAGGTGGACACCTCCCACCGCAATAAATACAAAG
TGCACGATGCCATCATGCCGGACGGCAGCGGCAGTAATGACTTTTACGAATATCAGTACACCCGCACCGTCAGGGAAACT
CAGGTTAAACAGAGTGACCCCGGTAAAATTCTGGCCGGCGGCAATATGACGCTCAACAGTGCGCAGGTCACCAATCATGA
CAGCCAAATTATCGCCGGTGGGGCGCTGGACGGGGTGATAGGCGAACTGCATAATATTGCCACTCAGGGGGAACGCATCA
CTACCGATAAAGGTCGCCAGACCCACTGGTATGCGAAAAAGAAACGACTGAAGCCCCGATTCCGTGGTACCAAAACCTCG
CAGGGAAAAAGCCGCAGCAATTATGCCCCCGCCCCAGTGATAGAAACCATCGACCTGAAAACGCTGGCCTGGCAGGAGCA
TACCCGTCCGCAGGGTACCGATATCACGATTACAGACCGACAAACCGGTCAGATACACGCGGCCCCCACGACAGTCACAC
CGGTGAGCGGTATCAAAAATCAGCCACTGGTCTTGCCTCCCGGTCAGCCGTTTGAGCTGAGTTTGCCCCCGGAGACCGTC
AAAGGGCAAACAGTCGATCCGGTGATACGCGTGGTGACGCCCGATACCCGCTTGCCGAATAACAGCCTGTATACCGTGCA
ACCGGGCAGTGACAGTCACTATCTGGTCGAAACCGACCCGAAATTTACCCAGTACAAACCGTGGCTGGGCTCGGACTATA
TGCGGCAACAGTTAACGCATGACCCGGCGCTGGTCCACAAACGTCTGGGCGATGGGTTCTACGAACAGCGGCTGGTGCGG
GACCAAATCACCCAACTGACCGGCCGGCGCTATCTGCCGGGCTACAATAACGACGAAGCGCAGTTTAAAGCGCTGATGGA
TGCCGGTGTCGCTTTTGGAAAACAGCAACAATTAACGCCGGGCGTCGCCTTAAGCCCGGCACAGATGGCGCTGCTGACCT
CAGACATTATCTGGCTGACTAACCAAACCGTCACTTTGCCGGATGGCACTACCGAGGTGGTCACCGTGCCGCAGGTTTAT
GCGCGCGTCCGTCAGGGCGACCTGCGCAGTGATGGCGCTTTGCTGGCCGGGAATACCGTGGCGCTCAACAGTCAGGGCGA
TATCACCAACAGCGGCACAATTAGCGGGCGGGATGTGACTCAACTGACGGCCAACAACCTCACCAACAGCGGCTTTATTC
GCGGCGGCAAAGTAGATTTAACGGCCCAACAGACGCTCACCAACCGGGGCGGCCGGATTCAGGGGGATGACCGGGTGACC
CTGAAAGGCCGGGATATCACCAGTGCATCAACGGTGCGCGGGGATGAGGCTAATCGTTGGTTAGATCGTCCGGCAGGCAT
CTATGTGCAGAACGATAACGGCACCTTATCGCTGAACGCCATCAACAATGTGCAATTAACCGCCAGTGACGTCAAAAACG
CCGGTAAAGACGGCCACACCGAGATAACGGCAGGCCATAACCTGACGCTGGACACCTTAAGCACGCGTCGCACAGAGCAG
GGCAACTGGGGGAAAGATAACACTCGCCATCTGACCCAACAACAAGATATCGGTAGCCAGATAACCGGTGCCGGTGAGGT
GACCCTGCAAGCCGGGCAGGATTTGAACGCCACCGCTGCCCACGTCAACGCCGGTCAACACCTGACGGCGCAGGCCGGAA
ATAACCTGACGCTGACCACCGGGACGGCCTCATCCGATTTAGTGGAGCACAGTAAACAAACCAGCAAAGGCTGGCTGTCG
AAATCGTCAGTGGAAACCCACGATGAAGTGCACGACCGGCAGGCGCTCAGCACCACATTCAGTGGCGATAAAGTGACTTT
ACAGGCCGGTAAAGACCTCAATATCCGCGGCAGCAATGTGGCGGGCACGCAGGATGTCAGCCTGAACGCCGGTCATCAGC
TCACCGTCACCACCGCCGCGGAATCTCACGATGAAACCCATTTGCGGCAGGAGAAAAAATCGGGCCTGATGGGGACTGGG
GGGATTGGCTTCACCTTAGGTAAAGCCAGCCAGAAAGTCACCACCGACAGTGACAGCCAGCTGAGCAAAGGCAGCACGGT
CGGCAGCAGCCAGGGCAATGTCACCCTTAACGCAGGTGAACAGCTCCGGGTTCACGGCAGCGAGGTGATTGCCGGTAAAG
ACCTGACGCTCGCCGGTCAACAGGTCGATATCACCAGCGCGGAAAACCGCCATCACACCACGACAAAAACCGAGCAAAAA
CAGAGCGGCTTAACTGTGGCGCTGAGTGGCACAGCAGGCGGGGCCGTCAACAGCGCGGTGCAAACAGCCAGAGCCGCCCA
CAATGAAAGTGACCCGCGAGTGAAAGCGCTGCAAAATACTAAAGCCGCGCTGAGCGGGGTACAGGCCGTGCAGGCTGGCC
GACTGGCGGAAGCTCAGGGCAGTGACGACAAAGGCAATAACAATCTGGCCGGGGTGAGCCTGTCTTACGGTCGGCAATCC
TCCCGTTCAGAACAGCAGCACCGTCAGACCACCCAACAGGGCAGCCACCTCACCGCCGGGGATAACCTCACCATAACCGC
CAAAGGGGATGGCAAAGGCGCATCAGGCCAGAATGGCGATATCCGTATTCAGGGCAGTCAGTTACAGGCGGGCAAAGACC
TGCAACTGAATGCTCACCGGGATATTCAGCTCTCCTCCAGCCAGAACACCGAACAGACGACCGGCAAGAACAGCAGTCAC
GGCAGCGCGCTGGGCGTGGGCCTGACCGCAGGGCCGGGGGGCACCGGTCTGAACGTCTCGGCCAATGTCAGTCGGGGCAA
CGGTCACGAAAACGGCAACGGCGTCAGTCATACTAACACCACGTTACAGGCGGGACAGACCGTCGGGCTGAACAGTGGCC
GGGACACGACGCTAAAAGGCGCTCAGGTCAGCGGCGAACAGATTACCGCCGAGGTGAAACGTCATCTGACCCTCAGCAGC
GAGCAGGACAGCCAGCGCTATGACAGCAAACAACAGAATGCCAGTGCGGGCGTCAGTGCCACCGTGGGTCCCCTCACCAA
TGGTACCGCGAGCCTCAATGCCAGCCGCAATAAACTGCACAGCAACTATGACAGCGTGCAGGAGCAGACCGGGCTGTTTG
CTGGCAAAGGCGGCTATCAGGTTAACGTCGGTGACCACACCCAACTGGACGGGGCGGTGATAGCGAGTCAAGCCGACAAA
ACCAAAAACACCCTGAACACCGGGACGCTGGGCTTCAAGGACATTCAGAATCAAGCGGACTTTACTGTCGAACAGCAGAG
TGCGGGCGTCAGCCTTGGTCAACCGACCGCCGGTCAGGTCCTGAATAATCTGGCGGTCAATGGGCTGACGGGGACTCATA
ACTCAGGCCATGACAGCAGCACCACGCACGCCGCGGTCAGTGACGGCAATCTGATTATCCGGGACAAAGCGCACCAGACG
CAGGATGTCGCGAACTTAAGTCGCGATACCGATAATGCCGCCAATGTTCTGAGTCCGATATTTGATAAGGAAAAAGCACA
GCAACGGCTGAAACAAGCGCAACTGATTGGCGAACTCAGCGCCCAGATGACCGAGATAGCCCGTACGGAAGGGAAAATTA
TCGCCACCAAAGCGGCGAAAGCGAAACTGAATCATATCAGTGAACCGGACAAAGCCGCGGCCAGAGAAAAATTGATCAAC
GCAGGTAATAAAGACCCCTCTCCAGCGGATATCAATAAGCAAGTTTATGACACCGCTTACACGCAGGCACTGAATGACTC
GGGCTTGGGGACCGGCGGAACCTATCAGAAAGCCTTACAGGCTGCTACGGCAGCGATTCAGGGCTTGGCTGGGAACAATC
TCGGTCAGGCGCTGGCCGGGGGCGCTTCACCGTATCTGGCGGGCGTGATAAAAGAGCTGACGACGGACCCACAAACCCAT
CAGGTGGATACCGCCACCAATACGCTGGCCCATGCGATTTTAGGCGCGGTAGCGGCAGAGGTCAGCGGCAATAATGCCTT
GTCAGGCGCAGCCGGTGCGGCTTCCGGTGAACTGGCCGCTCAGGTACTGATGAAGCAACTTTATGGTGACGGGGCCAACG
TCAGTGAGTTAACGGAGGAGCAGAAGCAAACTATCAGCACCCTTTCCACCCTGGCGGCAGGGCTGGCCGGCGGTATTGCC
GGTGACTCCACCGGGAGCGCCATCACCGGGGCACAGGCAGGGAAGAATGCGGTTGAGAATAACTATCTGAGCGTGAATGA
GCTGGACAGTTTTGCGCATCAAGCCCGCACCTGTGAAGGCGAAAGCTGCAAACAAGTGATCAAGGATATGGTAGACACTA
ATATCCGCAATCAGCAGGAAATGATGGATTTCTGCAACAGCAACCCGACCCAGTGTGCACAGAAGTATGGTTATCTGGTT
GATCAGTGGCCGGTGTTTGAACGTACCCTCAAAAATATGGACCGGGATGGCACATTGCCGGTTGAGTTCAGAAATTACCT
GTCGGCGGTGAATACGTTAGGTCAGGCGGCCACAGGCAAGGTAGGCGAACTCGGCTGGACAAAACGCTTTGAGGCGATGG
GCATGAGTCAGGAGACTGCCGCTGCAATGGCGATGACGCTGCCTATTGTGATGGAGGGAGCCAAAGGGCCGAAGTCGTCA
CCAAAATCATCGCAAAATAATGCCGGCAAAGATGCTCAGCCTGAGTTAGCAGGGAAAAACACAAGTGGTGCGGAAAATGC
GGCAACTTATCCGAAGTTAAAAGAAGACTTGGTGCAACGAAACCTCAGTCATATTGCTTCGCAAGATCCAAGGTTGGCGG
CTGTAGTTAAAGGTGATAATGGTAAGCTCAATTATGGCATTGGCACTGGAACTCGAACAGAAGCGGATAGATTAGGCAAA
ATCTGGGTAGGAGATGGAGCCAAGAAGACTACCGGAAATGGCTGGGTTAGTGCGGATGGTACGAGAGGTTATAGGCCGCC
ATCAGAGAAACCTAATAGTGCCCATGCCACTACTGGTGTGCAAGCCAACTTTGAAACTTATTCCATTGATTCTAAAGGAA
AAATAAATAAGACTGGAAACGGTCATTTAAATATTCTGGATTAA

Upstream 100 bases:

>100_bases
CTTCCAAACCTCCCCCGTCACGGCCGGATTCAACCTGTATTGGCAGTATTAATTCAAATAGCAAAACTGCCAGTGGGTAG
TGTTGTGTGGAGTAAAAATC

Downstream 100 bases:

>100_bases
AAGAGGATGCATTAGTGAAAGCAGTACTAAAAGGCATAGATTGTATGCATAAAGATCCAGTTATGTACTCCGGTGAAGAT
GACGGAACTATTAATATAAC

Product: hypothetical protein

Products: NA

Alternate protein names: NA

Number of amino acids: NA

Protein sequence:

>3027_residues
MNKQLYRIIFNQARQMWMVVAEIARAGRGRTGRRAHRSASPQRCCRLTALRFGVLFALGGISLTAQAAIVADGQAPGRQQ
PTIIRSANGTPQVNIQTPGADGVSHNTYRQFDVDKQGVILNNSHQATQTQLGGMVAGNPWLAKGDARVILNEVNNHNRSH
LNGWIEVAGHKAEVIIANPAGITCNGCGFINSHRTTLTTGQALMERGRLKGFDVNQGEVRIDGHGMDSTQQSYTDIIARS
VAINAKLHAQDLKVTTGRNIVDATHQQMKKKSIDDEKHPAFALDVAALGGMYAHKIRLIGTEAGVGVHNAGNIGASAGEV
HITAEGRIENRGTLSSRDTLQLTSSADVTNTGKLLSQSAVNLQAKGALNNQGRVEARGDTTVTAGTIHSSHDSVWAAGLD
DNGNTTRPGSLTLTAQHVQAKGKNLAADTLAIHSQRIDLSDSQTAASQIQLTASQLGISTARATVNADRLTAKTPGQFNN
DGGQLVARAIHLTTPDISNLKGKINQTGTGELTLHTRTLNNREGTVFNQGKLTLTTDRLDNHQGTIASQGEDLHLTAHQA
DNNQGTVQLAGNGKLSLNTQRWLGDKGKLLTNGTLTIQAGELQLNHAETQAGQITINADTLSHQGGVMQQWGKDDLSLTT
RILDNHSGTIAGNGNLNLKATTVDNRHGNIVAADQGSLKLTVKDTLDNQSGKLEAGHALQLSATQLDNRRRSIVAAGDSA
TLTVGKTIQNAHGHLEAKTRLTTTSQTLDNTQGVLLAQNIDSQTTGHPFTNTAGQVIAEDTLTVNSGQLDNTAGLLQAGR
EMAVDTHGHGLTNTHHADQKAGRLLSGGQLTLRTGDIDNTGGMIAADGKTVLTSTALNNTQGQIAGNSGLNIHSRQLTNR
EGTLQSADALTLDTDGQLLDNQQGQIIGEGKTTITSGPLDNRHGHLQGGQLAIDTRHAALDNRDGKLLSTDTLTLNTHQL
DNRHGQVQAVGDTQLDVDTQTDNTGGLIRGGQQLTLNTARLINRETAHTDNGLEAQNLTVNAQQVDNTQGALRAANHLQA
NIRQTLNNTQGLVSAGKQLTVGDKSGPASLAINNRQGTLIAGEHAAITAHALSGDGQLLSQGDMAVTLTEDFHHTGNTAA
NGNLTLKTTGNITNNRQIKAGRALYLGAQNLINSASGEISAKQTQIQVHDTLNNTGLIDGGLTHLTANTLNNTGTGRIYG
DQIALQTGTLNNSAQDGKAAVIAARDQLDIGTGTLNNQHHAQIYSVGDMHIGGQLDNALKATGQAGVLNNHAATIEAGRH
LKINADRINNTNAGLVTQVVETEKSQHHDAVLSGQTTRYDWSQVDTSHRNKYKVHDAIMPDGSGSNDFYEYQYTRTVRET
QVKQSDPGKILAGGNMTLNSAQVTNHDSQIIAGGALDGVIGELHNIATQGERITTDKGRQTHWYAKKKRLKPRFRGTKTS
QGKSRSNYAPAPVIETIDLKTLAWQEHTRPQGTDITITDRQTGQIHAAPTTVTPVSGIKNQPLVLPPGQPFELSLPPETV
KGQTVDPVIRVVTPDTRLPNNSLYTVQPGSDSHYLVETDPKFTQYKPWLGSDYMRQQLTHDPALVHKRLGDGFYEQRLVR
DQITQLTGRRYLPGYNNDEAQFKALMDAGVAFGKQQQLTPGVALSPAQMALLTSDIIWLTNQTVTLPDGTTEVVTVPQVY
ARVRQGDLRSDGALLAGNTVALNSQGDITNSGTISGRDVTQLTANNLTNSGFIRGGKVDLTAQQTLTNRGGRIQGDDRVT
LKGRDITSASTVRGDEANRWLDRPAGIYVQNDNGTLSLNAINNVQLTASDVKNAGKDGHTEITAGHNLTLDTLSTRRTEQ
GNWGKDNTRHLTQQQDIGSQITGAGEVTLQAGQDLNATAAHVNAGQHLTAQAGNNLTLTTGTASSDLVEHSKQTSKGWLS
KSSVETHDEVHDRQALSTTFSGDKVTLQAGKDLNIRGSNVAGTQDVSLNAGHQLTVTTAAESHDETHLRQEKKSGLMGTG
GIGFTLGKASQKVTTDSDSQLSKGSTVGSSQGNVTLNAGEQLRVHGSEVIAGKDLTLAGQQVDITSAENRHHTTTKTEQK
QSGLTVALSGTAGGAVNSAVQTARAAHNESDPRVKALQNTKAALSGVQAVQAGRLAEAQGSDDKGNNNLAGVSLSYGRQS
SRSEQQHRQTTQQGSHLTAGDNLTITAKGDGKGASGQNGDIRIQGSQLQAGKDLQLNAHRDIQLSSSQNTEQTTGKNSSH
GSALGVGLTAGPGGTGLNVSANVSRGNGHENGNGVSHTNTTLQAGQTVGLNSGRDTTLKGAQVSGEQITAEVKRHLTLSS
EQDSQRYDSKQQNASAGVSATVGPLTNGTASLNASRNKLHSNYDSVQEQTGLFAGKGGYQVNVGDHTQLDGAVIASQADK
TKNTLNTGTLGFKDIQNQADFTVEQQSAGVSLGQPTAGQVLNNLAVNGLTGTHNSGHDSSTTHAAVSDGNLIIRDKAHQT
QDVANLSRDTDNAANVLSPIFDKEKAQQRLKQAQLIGELSAQMTEIARTEGKIIATKAAKAKLNHISEPDKAAAREKLIN
AGNKDPSPADINKQVYDTAYTQALNDSGLGTGGTYQKALQAATAAIQGLAGNNLGQALAGGASPYLAGVIKELTTDPQTH
QVDTATNTLAHAILGAVAAEVSGNNALSGAAGAASGELAAQVLMKQLYGDGANVSELTEEQKQTISTLSTLAAGLAGGIA
GDSTGSAITGAQAGKNAVENNYLSVNELDSFAHQARTCEGESCKQVIKDMVDTNIRNQQEMMDFCNSNPTQCAQKYGYLV
DQWPVFERTLKNMDRDGTLPVEFRNYLSAVNTLGQAATGKVGELGWTKRFEAMGMSQETAAAMAMTLPIVMEGAKGPKSS
PKSSQNNAGKDAQPELAGKNTSGAENAATYPKLKEDLVQRNLSHIASQDPRLAAVVKGDNGKLNYGIGTGTRTEADRLGK
IWVGDGAKKTTGNGWVSADGTRGYRPPSEKPNSAHATTGVQANFETYSIDSKGKINKTGNGHLNILD

Sequences:
NA

Specific function: NA

COG id: COG3210

COG function: function code U; Large exoproteins involved in heme utilization or adhesion

Gene ontology:

Cell location: NA

Metaboloic importance: NA

Operon status: NA

Operon components: NA

Similarity: NA

Homologues:

NA

Paralogues:

NA

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

NA

Pfam domain/function: NA

EC number: NA

Molecular weight: NA

Theoretical pI: NA

Prosite motif: NA

Important sites: NA

Signals:

NA

Transmembrane regions:

NA

Cys/Met content:

NA

Secondary structure: NA

PDB accession: NA

Resolution: NA

Structure class: NA

Cofactors: NA

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: NA

Specific reaction: NA

General reaction: NA

Inhibitor: NA

Structure determination priority: NA

TargetDB status: NA

Availability: NA

References: NA