| Definition | Photorhabdus luminescens subsp. laumondii TTO1, complete genome. |
|---|---|
| Accession | NC_005126 |
| Length | 5,688,987 |
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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