| Definition | Salmonella enterica subsp. enterica serovar Typhi str. Ty2 chromosome, complete genome. |
|---|---|
| Accession | NC_004631 |
| Length | 4,791,961 |
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The map label for this gene is ratA
Identifier: 29140872
GI number: 29140872
Start: 393133
End: 399525
Strand: Direct
Name: ratA
Synonym: t0341
Alternate gene names: NA
Gene position: 393133-399525 (Clockwise)
Preceding gene: 29140871
Following gene: 29140873
Centisome position: 8.2
GC content: 58.3
Gene sequence:
>6393_bases ATGGACAGGAATCGGCAAGTGAATAAAGTTGTACATTTCTTACTGACATTACTGATCATGTTTGTAGCGTCGATCGCGCC TGCGCAGGCCTTACTGAAAGGCGGGACCTGGCAAGAATTGAACTCAGCCACTGCCGCAGTTAACGGCACCGTGCCCCGCG CCGACGGCGCGATTATTCCCGTGTATCAGGGAAGTATGCTGCTTGACCCGACCAAAACCTACGATGTTGCGTTTACCGCC ATGCCGCGCGATTTTAGCGCGGATGCCACCTCAACCTCGATGCGTGCGGTCAATTCCACCGATACCGAAGGCGATCTCTT TAGCGATCCGCCGACCATTGCCTGGGAAAATCAACAGCCGCCGAGCGTGGGCCTGTTATGGGCCGATGCCGCCACGCCCG ACACGCCGCTTTCGCCGCAGCCGACGCCTAACCAGACCTTTTGCGCCCAGAACCTGGCCGGACGGAAACTGGTTGTCTGG CCGCAGCCAGACGATGAAACGACCGTCCCCGCGCTGTGGCTCTATACTCACACCGGCGTGCCGAATAATGCGGCCATCCC GCTGCTCAGCCCGAAAGTGACTGTCAATATTGCCCAGGCAGTAGGCAATCCCGTGTCGGTCAGCGGCGATCATGTTGATG CCAGCTTTAAAGCCTCAAAAGTGAAAGTAGGAGAGAGCATCACCCTCACCGTCACGACCAGAGGGTGTGATGGCAAACTG GTGAAAAATGCGCCGTTTGTCATCCGCCGTGAGGATGCCAAAAACCGTCAGGGTGTGGTCAATAACACTAACCCGGTGCA CGTTGGCGATGCCGAGCTAACGACCGTGCAAACGGAGTATCGCGGCGTCACCGATGCCGAGGGTAAAGCCACTGTGGTGG TGACGCAGGATGAAGGCCCCGGCGTAAAAACGCATCTTATCGTCGCTTCGCAAAGTTATCCTACGCTGACGGACGGCGTG GACGTTATTTTCACCACCATCACCAGCCCCGACACCGCCCAGGCCAACATGTACGGCCACATGCTGGAGAGCGCCAGCGC CACGCTGAACGGCGCGACCTACACTTTCACTCGACCGAAGCTGGCGGTGGAGGCGGGTAACGCTGACGAAAGCGTCAACG ATACTAACGAAACCTGGGCGCAGTTTACCTGGAGCGGCGCGGATAACCATTGCGACGTTCTGCCGGACGCCGAACAACTG GTGGCGCTAAGACATGCGCATAGTACGCTGGCAACGTACACCGGCTGGCCGGCGTCGGGCGATGCGGAATACTGGTCGTC AACCAAAGATCAGATGAACAACTACCACGCTGCCGTGCATATGAACAGCGCGTCGGTCGTCAGAGCGCCCAACAGCGATA CGCTGCTGGTTAGCTGTGTGGATAAAGCCCAGCCTGCGGCGCACCCGCAGATTACCCTCTCTCCGGAGGGGCCTTATAAG GCGCAGGTGGGGGAATCGATTGATCTGGTCATGACGGTAGTCGATAAAGACACGCAAAAACCGCTGCCTTACCGTTACAT GGAGCTGTTTATCGACCCGGCGAAAAACCGCAAAGGGGAGCATCAGGACGCGTGGGATAACCAGCGGGTTACCGTCAGCT CCGAAGATATGCGCGCCTCTTCGCCGGAACACTATACCGGCGTGACCGACGTCAACGGTCAGGCGCACCTGACGCTACAG CACGACAGCGGCATGGGGGGCGAGACGCCCATCCGCATCGTGATGCCGGACGATGAAGGCGGCAACGTCGAGCTGCCCTT TAGCGTCATTTTCACCGTAATAACCAGCCCGGATGTGGACGGCGCCAACATGTGGGGCCATATGCGCGGCGTGGTGGATG CCGGCAACCTGTATAAACGCCCGCTGCTGGCGGTGGAAGCCAGCCATAAAGACGGTCAGTTCAGCGAAAACAACGAAGAG TGGGCGACGTTTAACTCCGTGGCGTCGGCCACCGCGCAGTGCGGCGTCGGCCAGGTGCCGGATCAGTCATCGCTGGCGCA TTTATACAGCGAGCACCCCAGCGGCAAGATGGAAATCGAACACGGCTGGCCGACCGAAGACTACTTCATCGCCGCGGATA GCGACGCCTCGGGAACGGTACACGTCAACCTGGCAAACGGCGACAGCAACAAATTTACCAATCAGCCGAACTACCTGACC TGCTCGGCCAATGAAATGGTGGCGGTGCTGGACGTCTACTTCAACGACGACCCAACGACTAAAAATGCTGATATGACCGC CAAAGTCGGCGAACAGATTAAGCTGAATATTCATTCGCGCAACGCCCTTAACGACATGGCGATTGCCTATACCGACTTCA CCATCACCATGGCGAACGGCAAGCGGCGCGACGGATTGACGACCGGCTTTACCGATCCCAGCAACGGCGAGATGCAGTTT GACGGCGTGGGCTACCTTGCCGGGCAGGTTTATCACGGGATCACCGACGCCAACGGCGATGCGACCATTATCCTCACCCA GAATAAGGGCGTGGGGCTACTGACGCCGTTAAGCATCGCGCCCGTCGATTCATTAATCAAGACGCCGATTTCCCGCAGCG TCAAGTTTACCGTCGCCACCAGCCCGGACACGGTAAAAGCCAAAATGTGGGGCCACATGGCCGACACTCTTACCGTCGGC GACTGGACTTTTGAGCGGCCTAAGCTTGCGAGTGAAGTAAATAGCCCGCTGCGTACTCAGGAAGAGAGCAATGAAACCTG GACGCGCGTGGCCCATATCGACGCGGCGGGCAACCCGGATGCGGGCGGCTGCGCGGCGAACCGCCTGCCGCGTATCGACC AGCTTGAGGCGTTATACAGCGCCAACAGCGGCGGCGCGATGAAAAAGACTCAGGGCTGGCCAACCTTAATTAACTACTGG TCGTCCACCTACCAGAGCGCCACCACCTGGAAACTGATCGCGCTGGCGAGCGGCAGTGAATTTCCGGGCAGCAACACCTC GGTTTACACCAGTTGTCTGGCCAGCGATAACCCGGTGCCAGCCGCCATCACCATTGAACCGGTCGATCCGTCGCAGTGGT ACGACGGCAGTGGCGTCCATGCGCTGAAAGTGAAAAAGGGCGATACCCTACAGTTGAAGGTGACGGTGAAGGACGCCAGC GGCAAACCGGTGCCGGAAGCGCCGTTTGTGCTCACCCGCGGCGACGGCTACGATCGCAAAGGGGAAAAGTACACCGCCCA GGACGGCTCCGATTTGCAAAATATCGTGACGCCCGTGGTGATCGACGGCGAATCGCTGGCCTGGACTACCACCAAAATGG GGTCGCAGACCGGCCCTGATGGCACCCGCATCATCAGCGTCACCCGCCCGGACACCCACGGCACCCGCACGGCCATTACC GCCACGCTGTATGAAAATGTCGCCGTGAGCGCCAGCATCGACACCATCTTTACCGTCGTCACCAGCCCGGATGTCAGCGT CGCCCGCATGTGGGGGCATATGACGCCGTCGCTGACGGCTGCGGATAGCGCGGTGTACAAGCGCCCGCTGCTCTACGATG AACTGGCCAGCAAGACCGGTGCTGCGGAGTACCCGGAAGACAACGAACGCTGGGTGGTGTTCTATGGGCCGAATACGACC AAAACCGTTAGTCCGGAAGCTTGCTCCAAGGGGTATTTCCCGTCCGTTGAGCAACTGGATTCTCTGTACAGCAAATACCC GAACGGAGCGATAAAAACCGCCCAGGGCTGGCCGATCATCCGTTCTTACTGGAGCGGCACAAACGCCGGGACAATCACCC CCGGCGCGCCACCCTATGACTATTACACGGTCGATCTGAATGATGATGCGCACCGGAAGGTTCCCAATATTAGTGATAGC GACAGGCAATACCAGATTTGCGCCGCGACGCCGCAGCCTCTGGCCGGGCGGATTACCCTCACTTCTACGCTGGCGACGGA TAGCGATATCCAGGCGGTGAAGGCAAAAAACAGCGACTCGATTCCGCTGGTGATCACCACCACCGATGCGGCGGGCAACC CGGTGCCTTATACGCCATTTTCCCTCATACGCGACGCCGGGACGGCGCGCAACACCAGCTATACCTTTACCGGCAGCACT AACATGATGCTGGCGCCGCCCACCGGTTCGGCGCAACAGTTCTACTATAATGGCTACACTATTTACGGTGCCACCGGCGC GGACGGCACGGCGGTCCTCACGCTGACGCAGGCCGCAGGGCCGGGGGTGAAAAACGTGATAACCGCAGCCCTGACCGACA CGCCGACGGTAACCTCGACGCTGCCGGTGGTGTTCACCACCGTGACCAGCCCGGACAGCCCGCAGGCCAATATGTATGGC CATATGCCGGAAACCTTCACCGCCAGCAACGGCGCGGAGTTTAAGCGCCCGCTGCTGTATAGCGAGCTGGCGTCGACGTT AGGTGTGAAGAGCTATGCCGACACAAATGAAAACTGGCCTATAGTGAATAATTTTGATACCAGTAATTATGGCGCCTGTT CGATAAATCAGATGGCCACGCTGGATGATCTCAAGGCGCTGTACGGCGATCACCCCAGCGGCAAGGTCACGACCGACATA GGCTTACCCGTCAGGAAGAAATGGTGGGCGGGCGACAGCCTGCTGCAAGGTCAAGTCATATACTGGCGATATATCGATCT CAGTACGGGCATAGATTACTCCATGTCGGGAACGCCGGGTAATTACTATTACCAGCTCTGCCTGACCAAACCGCGCCAGA TGAATATCGCGCTCTCTACGGACGCCTGGAACGCGGACAAATCGGCGGCCGTGGCGAAAAAAGGCGAAACGATCCCCATG ACGGTGAAGGTGACGAACGCTGCCGGGCAGCCTGTTAGCAACGCGACGGTGAAAATCACGCGCGGCGATGCGCTGACGCG TGCGGGGAGCGTGTATACCACCAACAACGCGGACGATATTACCTTAAGTAATATCCAGCCTTCCGGTACGGCGACGTACT TGCTGGGGTCGGTGGATAAATATATGTATGCGCAAACGGACGCCCAGGGGCAAATAACGTTTAGCGTGTCGCAAAATAAT ACTATGGGTCTTAAAACGCCCATCCGCGTCACCGTTGCGAATGACATTACCGCAACGAGCAGTAAGGACGTGATATTTAC CGTCCTTACCAGCCCGGACGTCGCCAGCGCCAACTACTGGGGGCATATGCCGGAAACCGTGGAAGGGCCGGACGGCCTCC GCTACCAGCGCCCGCATTTGCAGGCGGAAGCGCCGTCGGGCGTCAACTACATCACCGTGAACGGTGAAAAATGGGCGGCG CCGACCGGCGTACAGACGTATACGGCAGGCCAGTCTGCGTGCGACGTTGAGTATATGCCGCTGATGAATGACTTAAAGGC GCTACAGCAACTGTATCCTGACGGCGCGCTGGAGGATCAATTCGGCTGGCCGGTGAAAACCGGTAAACTCTGGTGGTCTG CCGATCTGAATAGCTCGAAAGCACACCAGGCGATAAACCTGAAAACCGGTCAGATATCGGCGCCAACCTCCACCAGCTTG CAGGCCTGTTTGGTCAATGCGCGTAATGTCCCTGCCTCCATTACGCTAACCTCGACGGCGATGGATGCGGAGAAAGGCGC GGCGGTGGCGAAAAAAGGCGAGGCTATTCCCTTGACGGTGACGGTGAAAAACCGCGCGGGCGTTCCCATAGCGAATGAAC CGTTTACCCTGAAACGGGGCGATGCGAATGATCGCCTCGACATTAAATATACGTGGAATACTACAGCAGACGATTTGACG TTGCAGGAACTGACGCCGTCGCCGACAACGAAATCAATGACGGCTTCCGGCAATGTGTTTAGCGGCGTCACGGGGGCTGA CGGGACGGCAACGTTTACGGTGAACCAGGACGGCAGTGTGGGGCTAAAAACCGAGCTGACGGCCAGCGCGACGGGGGATG TCACGCAATCAACCAACACAGCGCTGGGCGTGATCTTTAACGTGATTACCAGCCCGGATACCGATAAAGCGCAGTACTGG GGGCATATGCCGGATACGCTGACGGTTGGTGGCGTGACGCTGCATCGCCCCTTGTTGATGAAAGAAGCGCCTGCTGGCGC GACGGATAGCCGGAAAGAAAATAACGAAACCTGGGTTTCGGTTTATACGAAAGCCGATGGTCTTACCTATGATATGAGCA AGAACTGTGGCGGGGTGGCCGGGTTCCCGGCAAAAGGCGTGCTGGAAAAAATACGCGATGAGCAGATGGCGGTCGCTAAC GGATGGCCGACAGTTTCGTTGCCTTACGCTAGCAGTACGCCTGGGACGTATAATTATTGCTGGGTTTCGTTAGCGAAAGG GGGCACAACACATTGCCCGACCACCAGCAGCGATTACTCGATAGGCTATGCCGCCTGTCTTGTACAGCCGTGA
Upstream 100 bases:
>100_bases TCCCCGCGGGGAGTGGTATTTTCCGCGCACTTTGCTTAGCCGCGCGCTAAGCAAAGTGGGTTGAATTACGACAGAGAATG AAAACGGGTGGCTATCGCTC
Downstream 100 bases:
>100_bases TCGGGATGGTTGGGTTTCGGTAAATTGTCGTTGGTACCGGTAGTGAAACGTTTCGCATTTTTACCGCCGATGGAATGAAT AGTCAGAAAGGGATGTATTC
Product: hypothetical protein
Products: NA
Alternate protein names: Outer Membrane Protein; Ig-Like Domain Protein; RatA-Like Protein
Number of amino acids: Translated: 2130; Mature: 2130
Protein sequence:
>2130_residues MDRNRQVNKVVHFLLTLLIMFVASIAPAQALLKGGTWQELNSATAAVNGTVPRADGAIIPVYQGSMLLDPTKTYDVAFTA MPRDFSADATSTSMRAVNSTDTEGDLFSDPPTIAWENQQPPSVGLLWADAATPDTPLSPQPTPNQTFCAQNLAGRKLVVW PQPDDETTVPALWLYTHTGVPNNAAIPLLSPKVTVNIAQAVGNPVSVSGDHVDASFKASKVKVGESITLTVTTRGCDGKL VKNAPFVIRREDAKNRQGVVNNTNPVHVGDAELTTVQTEYRGVTDAEGKATVVVTQDEGPGVKTHLIVASQSYPTLTDGV DVIFTTITSPDTAQANMYGHMLESASATLNGATYTFTRPKLAVEAGNADESVNDTNETWAQFTWSGADNHCDVLPDAEQL VALRHAHSTLATYTGWPASGDAEYWSSTKDQMNNYHAAVHMNSASVVRAPNSDTLLVSCVDKAQPAAHPQITLSPEGPYK AQVGESIDLVMTVVDKDTQKPLPYRYMELFIDPAKNRKGEHQDAWDNQRVTVSSEDMRASSPEHYTGVTDVNGQAHLTLQ HDSGMGGETPIRIVMPDDEGGNVELPFSVIFTVITSPDVDGANMWGHMRGVVDAGNLYKRPLLAVEASHKDGQFSENNEE WATFNSVASATAQCGVGQVPDQSSLAHLYSEHPSGKMEIEHGWPTEDYFIAADSDASGTVHVNLANGDSNKFTNQPNYLT CSANEMVAVLDVYFNDDPTTKNADMTAKVGEQIKLNIHSRNALNDMAIAYTDFTITMANGKRRDGLTTGFTDPSNGEMQF DGVGYLAGQVYHGITDANGDATIILTQNKGVGLLTPLSIAPVDSLIKTPISRSVKFTVATSPDTVKAKMWGHMADTLTVG DWTFERPKLASEVNSPLRTQEESNETWTRVAHIDAAGNPDAGGCAANRLPRIDQLEALYSANSGGAMKKTQGWPTLINYW SSTYQSATTWKLIALASGSEFPGSNTSVYTSCLASDNPVPAAITIEPVDPSQWYDGSGVHALKVKKGDTLQLKVTVKDAS GKPVPEAPFVLTRGDGYDRKGEKYTAQDGSDLQNIVTPVVIDGESLAWTTTKMGSQTGPDGTRIISVTRPDTHGTRTAIT ATLYENVAVSASIDTIFTVVTSPDVSVARMWGHMTPSLTAADSAVYKRPLLYDELASKTGAAEYPEDNERWVVFYGPNTT KTVSPEACSKGYFPSVEQLDSLYSKYPNGAIKTAQGWPIIRSYWSGTNAGTITPGAPPYDYYTVDLNDDAHRKVPNISDS DRQYQICAATPQPLAGRITLTSTLATDSDIQAVKAKNSDSIPLVITTTDAAGNPVPYTPFSLIRDAGTARNTSYTFTGST NMMLAPPTGSAQQFYYNGYTIYGATGADGTAVLTLTQAAGPGVKNVITAALTDTPTVTSTLPVVFTTVTSPDSPQANMYG HMPETFTASNGAEFKRPLLYSELASTLGVKSYADTNENWPIVNNFDTSNYGACSINQMATLDDLKALYGDHPSGKVTTDI GLPVRKKWWAGDSLLQGQVIYWRYIDLSTGIDYSMSGTPGNYYYQLCLTKPRQMNIALSTDAWNADKSAAVAKKGETIPM TVKVTNAAGQPVSNATVKITRGDALTRAGSVYTTNNADDITLSNIQPSGTATYLLGSVDKYMYAQTDAQGQITFSVSQNN TMGLKTPIRVTVANDITATSSKDVIFTVLTSPDVASANYWGHMPETVEGPDGLRYQRPHLQAEAPSGVNYITVNGEKWAA PTGVQTYTAGQSACDVEYMPLMNDLKALQQLYPDGALEDQFGWPVKTGKLWWSADLNSSKAHQAINLKTGQISAPTSTSL QACLVNARNVPASITLTSTAMDAEKGAAVAKKGEAIPLTVTVKNRAGVPIANEPFTLKRGDANDRLDIKYTWNTTADDLT LQELTPSPTTKSMTASGNVFSGVTGADGTATFTVNQDGSVGLKTELTASATGDVTQSTNTALGVIFNVITSPDTDKAQYW GHMPDTLTVGGVTLHRPLLMKEAPAGATDSRKENNETWVSVYTKADGLTYDMSKNCGGVAGFPAKGVLEKIRDEQMAVAN GWPTVSLPYASSTPGTYNYCWVSLAKGGTTHCPTTSSDYSIGYAACLVQP
Sequences:
>Translated_2130_residues MDRNRQVNKVVHFLLTLLIMFVASIAPAQALLKGGTWQELNSATAAVNGTVPRADGAIIPVYQGSMLLDPTKTYDVAFTA MPRDFSADATSTSMRAVNSTDTEGDLFSDPPTIAWENQQPPSVGLLWADAATPDTPLSPQPTPNQTFCAQNLAGRKLVVW PQPDDETTVPALWLYTHTGVPNNAAIPLLSPKVTVNIAQAVGNPVSVSGDHVDASFKASKVKVGESITLTVTTRGCDGKL VKNAPFVIRREDAKNRQGVVNNTNPVHVGDAELTTVQTEYRGVTDAEGKATVVVTQDEGPGVKTHLIVASQSYPTLTDGV DVIFTTITSPDTAQANMYGHMLESASATLNGATYTFTRPKLAVEAGNADESVNDTNETWAQFTWSGADNHCDVLPDAEQL VALRHAHSTLATYTGWPASGDAEYWSSTKDQMNNYHAAVHMNSASVVRAPNSDTLLVSCVDKAQPAAHPQITLSPEGPYK AQVGESIDLVMTVVDKDTQKPLPYRYMELFIDPAKNRKGEHQDAWDNQRVTVSSEDMRASSPEHYTGVTDVNGQAHLTLQ HDSGMGGETPIRIVMPDDEGGNVELPFSVIFTVITSPDVDGANMWGHMRGVVDAGNLYKRPLLAVEASHKDGQFSENNEE WATFNSVASATAQCGVGQVPDQSSLAHLYSEHPSGKMEIEHGWPTEDYFIAADSDASGTVHVNLANGDSNKFTNQPNYLT CSANEMVAVLDVYFNDDPTTKNADMTAKVGEQIKLNIHSRNALNDMAIAYTDFTITMANGKRRDGLTTGFTDPSNGEMQF DGVGYLAGQVYHGITDANGDATIILTQNKGVGLLTPLSIAPVDSLIKTPISRSVKFTVATSPDTVKAKMWGHMADTLTVG DWTFERPKLASEVNSPLRTQEESNETWTRVAHIDAAGNPDAGGCAANRLPRIDQLEALYSANSGGAMKKTQGWPTLINYW SSTYQSATTWKLIALASGSEFPGSNTSVYTSCLASDNPVPAAITIEPVDPSQWYDGSGVHALKVKKGDTLQLKVTVKDAS GKPVPEAPFVLTRGDGYDRKGEKYTAQDGSDLQNIVTPVVIDGESLAWTTTKMGSQTGPDGTRIISVTRPDTHGTRTAIT ATLYENVAVSASIDTIFTVVTSPDVSVARMWGHMTPSLTAADSAVYKRPLLYDELASKTGAAEYPEDNERWVVFYGPNTT KTVSPEACSKGYFPSVEQLDSLYSKYPNGAIKTAQGWPIIRSYWSGTNAGTITPGAPPYDYYTVDLNDDAHRKVPNISDS DRQYQICAATPQPLAGRITLTSTLATDSDIQAVKAKNSDSIPLVITTTDAAGNPVPYTPFSLIRDAGTARNTSYTFTGST NMMLAPPTGSAQQFYYNGYTIYGATGADGTAVLTLTQAAGPGVKNVITAALTDTPTVTSTLPVVFTTVTSPDSPQANMYG HMPETFTASNGAEFKRPLLYSELASTLGVKSYADTNENWPIVNNFDTSNYGACSINQMATLDDLKALYGDHPSGKVTTDI GLPVRKKWWAGDSLLQGQVIYWRYIDLSTGIDYSMSGTPGNYYYQLCLTKPRQMNIALSTDAWNADKSAAVAKKGETIPM TVKVTNAAGQPVSNATVKITRGDALTRAGSVYTTNNADDITLSNIQPSGTATYLLGSVDKYMYAQTDAQGQITFSVSQNN TMGLKTPIRVTVANDITATSSKDVIFTVLTSPDVASANYWGHMPETVEGPDGLRYQRPHLQAEAPSGVNYITVNGEKWAA PTGVQTYTAGQSACDVEYMPLMNDLKALQQLYPDGALEDQFGWPVKTGKLWWSADLNSSKAHQAINLKTGQISAPTSTSL QACLVNARNVPASITLTSTAMDAEKGAAVAKKGEAIPLTVTVKNRAGVPIANEPFTLKRGDANDRLDIKYTWNTTADDLT LQELTPSPTTKSMTASGNVFSGVTGADGTATFTVNQDGSVGLKTELTASATGDVTQSTNTALGVIFNVITSPDTDKAQYW GHMPDTLTVGGVTLHRPLLMKEAPAGATDSRKENNETWVSVYTKADGLTYDMSKNCGGVAGFPAKGVLEKIRDEQMAVAN GWPTVSLPYASSTPGTYNYCWVSLAKGGTTHCPTTSSDYSIGYAACLVQP >Mature_2130_residues MDRNRQVNKVVHFLLTLLIMFVASIAPAQALLKGGTWQELNSATAAVNGTVPRADGAIIPVYQGSMLLDPTKTYDVAFTA MPRDFSADATSTSMRAVNSTDTEGDLFSDPPTIAWENQQPPSVGLLWADAATPDTPLSPQPTPNQTFCAQNLAGRKLVVW PQPDDETTVPALWLYTHTGVPNNAAIPLLSPKVTVNIAQAVGNPVSVSGDHVDASFKASKVKVGESITLTVTTRGCDGKL VKNAPFVIRREDAKNRQGVVNNTNPVHVGDAELTTVQTEYRGVTDAEGKATVVVTQDEGPGVKTHLIVASQSYPTLTDGV DVIFTTITSPDTAQANMYGHMLESASATLNGATYTFTRPKLAVEAGNADESVNDTNETWAQFTWSGADNHCDVLPDAEQL VALRHAHSTLATYTGWPASGDAEYWSSTKDQMNNYHAAVHMNSASVVRAPNSDTLLVSCVDKAQPAAHPQITLSPEGPYK AQVGESIDLVMTVVDKDTQKPLPYRYMELFIDPAKNRKGEHQDAWDNQRVTVSSEDMRASSPEHYTGVTDVNGQAHLTLQ HDSGMGGETPIRIVMPDDEGGNVELPFSVIFTVITSPDVDGANMWGHMRGVVDAGNLYKRPLLAVEASHKDGQFSENNEE WATFNSVASATAQCGVGQVPDQSSLAHLYSEHPSGKMEIEHGWPTEDYFIAADSDASGTVHVNLANGDSNKFTNQPNYLT CSANEMVAVLDVYFNDDPTTKNADMTAKVGEQIKLNIHSRNALNDMAIAYTDFTITMANGKRRDGLTTGFTDPSNGEMQF DGVGYLAGQVYHGITDANGDATIILTQNKGVGLLTPLSIAPVDSLIKTPISRSVKFTVATSPDTVKAKMWGHMADTLTVG DWTFERPKLASEVNSPLRTQEESNETWTRVAHIDAAGNPDAGGCAANRLPRIDQLEALYSANSGGAMKKTQGWPTLINYW SSTYQSATTWKLIALASGSEFPGSNTSVYTSCLASDNPVPAAITIEPVDPSQWYDGSGVHALKVKKGDTLQLKVTVKDAS GKPVPEAPFVLTRGDGYDRKGEKYTAQDGSDLQNIVTPVVIDGESLAWTTTKMGSQTGPDGTRIISVTRPDTHGTRTAIT ATLYENVAVSASIDTIFTVVTSPDVSVARMWGHMTPSLTAADSAVYKRPLLYDELASKTGAAEYPEDNERWVVFYGPNTT KTVSPEACSKGYFPSVEQLDSLYSKYPNGAIKTAQGWPIIRSYWSGTNAGTITPGAPPYDYYTVDLNDDAHRKVPNISDS DRQYQICAATPQPLAGRITLTSTLATDSDIQAVKAKNSDSIPLVITTTDAAGNPVPYTPFSLIRDAGTARNTSYTFTGST NMMLAPPTGSAQQFYYNGYTIYGATGADGTAVLTLTQAAGPGVKNVITAALTDTPTVTSTLPVVFTTVTSPDSPQANMYG HMPETFTASNGAEFKRPLLYSELASTLGVKSYADTNENWPIVNNFDTSNYGACSINQMATLDDLKALYGDHPSGKVTTDI GLPVRKKWWAGDSLLQGQVIYWRYIDLSTGIDYSMSGTPGNYYYQLCLTKPRQMNIALSTDAWNADKSAAVAKKGETIPM TVKVTNAAGQPVSNATVKITRGDALTRAGSVYTTNNADDITLSNIQPSGTATYLLGSVDKYMYAQTDAQGQITFSVSQNN TMGLKTPIRVTVANDITATSSKDVIFTVLTSPDVASANYWGHMPETVEGPDGLRYQRPHLQAEAPSGVNYITVNGEKWAA PTGVQTYTAGQSACDVEYMPLMNDLKALQQLYPDGALEDQFGWPVKTGKLWWSADLNSSKAHQAINLKTGQISAPTSTSL QACLVNARNVPASITLTSTAMDAEKGAAVAKKGEAIPLTVTVKNRAGVPIANEPFTLKRGDANDRLDIKYTWNTTADDLT LQELTPSPTTKSMTASGNVFSGVTGADGTATFTVNQDGSVGLKTELTASATGDVTQSTNTALGVIFNVITSPDTDKAQYW GHMPDTLTVGGVTLHRPLLMKEAPAGATDSRKENNETWVSVYTKADGLTYDMSKNCGGVAGFPAKGVLEKIRDEQMAVAN GWPTVSLPYASSTPGTYNYCWVSLAKGGTTHCPTTSSDYSIGYAACLVQP
Specific function: Unknown
COG id: NA
COG function: NA
Gene ontology:
Cell location: Cytoplasmic
Metaboloic importance: NA
Operon status: Not Known
Operon components: None
Similarity: NA
Homologues:
None
Paralogues:
None
Copy number: NA
Swissprot (AC and ID): NA
Other databases:
NA
Pfam domain/function: NA
EC number: NA
Molecular weight: Translated: 228151; Mature: 228151
Theoretical pI: Translated: 4.82; Mature: 4.82
Prosite motif: NA
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.8 %Cys (Translated Protein) 2.2 %Met (Translated Protein) 3.1 %Cys+Met (Translated Protein) 0.8 %Cys (Mature Protein) 2.2 %Met (Mature Protein) 3.1 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MDRNRQVNKVVHFLLTLLIMFVASIAPAQALLKGGTWQELNSATAAVNGTVPRADGAIIP CCCCCHHHHHHHHHHHHHHHHHHHCCCHHHHHCCCCHHHHCCCCEEECCCCCCCCCCEEE VYQGSMLLDPTKTYDVAFTAMPRDFSADATSTSMRAVNSTDTEGDLFSDPPTIAWENQQP EECCCEEECCCCCEEEEEEECCCCCCCCCCCCCEEEECCCCCCCCCCCCCCCEEECCCCC PSVGLLWADAATPDTPLSPQPTPNQTFCAQNLAGRKLVVWPQPDDETTVPALWLYTHTGV CCEEEEEECCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEECCCCCCCCCCEEEEEEECCC PNNAAIPLLSPKVTVNIAQAVGNPVSVSGDHVDASFKASKVKVGESITLTVTTRGCDGKL CCCCEEEEECCCEEEEEHHHCCCCEEECCCCCCCCCEEEEEEECCEEEEEEEECCCCCCE VKNAPFVIRREDAKNRQGVVNNTNPVHVGDAELTTVQTEYRGVTDAEGKATVVVTQDEGP EECCCEEEECCCCCCCCCCCCCCCCEEECCCEEEEEEHHHCCCCCCCCCEEEEEECCCCC GVKTHLIVASQSYPTLTDGVDVIFTTITSPDTAQANMYGHMLESASATLNGATYTFTRPK CEEEEEEEEECCCCCCCCCCEEEEEEECCCCCCHHHHHHHHHHHCCCEECCCEEEEECCE LAVEAGNADESVNDTNETWAQFTWSGADNHCDVLPDAEQLVALRHAHSTLATYTGWPASG EEEECCCCCCCCCCCCCCEEEEEECCCCCCCCCCCCHHHHHHHHHHHHHHHEECCCCCCC DAEYWSSTKDQMNNYHAAVHMNSASVVRAPNSDTLLVSCVDKAQPAAHPQITLSPEGPYK CHHHHCCCHHHHCCEEEEEEECCCEEEECCCCCEEEEEEECCCCCCCCCEEEECCCCCCH AQVGESIDLVMTVVDKDTQKPLPYRYMELFIDPAKNRKGEHQDAWDNQRVTVSSEDMRAS HHCCCCEEEEEEEECCCCCCCCCCEEEEEEECCCCCCCCCCCCCCCCCEEEEECCCCCCC SPEHYTGVTDVNGQAHLTLQHDSGMGGETPIRIVMPDDEGGNVELPFSVIFTVITSPDVD CCCCCCCEEECCCEEEEEEEECCCCCCCCCEEEEECCCCCCCEEECHHHEEEEEECCCCC GANMWGHMRGVVDAGNLYKRPLLAVEASHKDGQFSENNEEWATFNSVASATAQCGVGQVP CCHHHHHHHCEEECCCHHCCCEEEEEECCCCCCCCCCCCCHHHHHHHHHHHHHCCCCCCC DQSSLAHLYSEHPSGKMEIEHGWPTEDYFIAADSDASGTVHVNLANGDSNKFTNQPNYLT CHHHHHHHHHCCCCCEEEEECCCCCCCEEEEECCCCCCEEEEEEECCCCCCCCCCCCEEE CSANEMVAVLDVYFNDDPTTKNADMTAKVGEQIKLNIHSRNALNDMAIAYTDFTITMANG ECCCCEEEEEEEEECCCCCCCCCCEEEECCCEEEEEEECCCCCCCEEEEEEEEEEEECCC KRRDGLTTGFTDPSNGEMQFDGVGYLAGQVYHGITDANGDATIILTQNKGVGLLTPLSIA CCCCCCCCCCCCCCCCCEEECCCEEEEHHHEECEECCCCCEEEEEECCCCCEEECCCCCC PVDSLIKTPISRSVKFTVATSPDTVKAKMWGHMADTLTVGDWTFERPKLASEVNSPLRTQ CHHHHHHCCCCCCEEEEEECCCCCEEHHHCCCCCCEEEECCCCCCCCHHHHHHCCCCCCC EESNETWTRVAHIDAAGNPDAGGCAANRLPRIDQLEALYSANSGGAMKKTQGWPTLINYW CCCCCCEEEEEEEECCCCCCCCCHHHHCCCCHHHHHHHHCCCCCCCCCCCCCCHHHHHHH SSTYQSATTWKLIALASGSEFPGSNTSVYTSCLASDNPVPAAITIEPVDPSQWYDGSGVH HHHCCCCCEEEEEEEECCCCCCCCCCEEEEEECCCCCCCCEEEEEEECCCCCCCCCCCEE ALKVKKGDTLQLKVTVKDASGKPVPEAPFVLTRGDGYDRKGEKYTAQDGSDLQNIVTPVV EEEEECCCEEEEEEEEECCCCCCCCCCCEEEECCCCCCCCCCEEECCCCCCHHHCCCEEE IDGESLAWTTTKMGSQTGPDGTRIISVTRPDTHGTRTAITATLYENVAVSASIDTIFTVV ECCCCEEEEEECCCCCCCCCCCEEEEEECCCCCCCCEEEEEEEECCEEEEEECCEEEEEE TSPDVSVARMWGHMTPSLTAADSAVYKRPLLYDELASKTGAAEYPEDNERWVVFYGPNTT ECCCCHHHHHHCCCCCCCCCCCHHHHHCCCHHHHHHHCCCCCCCCCCCCEEEEEECCCCC KTVSPEACSKGYFPSVEQLDSLYSKYPNGAIKTAQGWPIIRSYWSGTNAGTITPGAPPYD CEECHHHHCCCCCCCHHHHHHHHHHCCCCCEEECCCCHHHHHHCCCCCCCEECCCCCCCC YYTVDLNDDAHRKVPNISDSDRQYQICAATPQPLAGRITLTSTLATDSDIQAVKAKNSDS EEEEECCCCHHHCCCCCCCCCCEEEEEECCCCCCCCEEEEEEEECCCCCCEEEECCCCCC IPLVITTTDAAGNPVPYTPFSLIRDAGTARNTSYTFTGSTNMMLAPPTGSAQQFYYNGYT CEEEEEECCCCCCCCCCCHHHHHHCCCCCCCCEEEEECCCCEEEECCCCCCCEEEECCEE IYGATGADGTAVLTLTQAAGPGVKNVITAALTDTPTVTSTLPVVFTTVTSPDSPQANMYG EEEECCCCCEEEEEEECCCCCCHHHHEEEEECCCCCCCEECCEEEEEECCCCCCCCCEEC HMPETFTASNGAEFKRPLLYSELASTLGVKSYADTNENWPIVNNFDTSNYGACSINQMAT CCCCCEECCCCCCHHHHHHHHHHHHHHCCCCCCCCCCCCCEEECCCCCCCCEEECCCCCC LDDLKALYGDHPSGKVTTDIGLPVRKKWWAGDSLLQGQVIYWRYIDLSTGIDYSMSGTPG HHHHHHHHCCCCCCCEEEECCCCCCCEECCCCCEECCEEEEEEEEEECCCCCEEECCCCC NYYYQLCLTKPRQMNIALSTDAWNADKSAAVAKKGETIPMTVKVTNAAGQPVSNATVKIT CEEEEEEECCCCEEEEEEECCCCCCCCCHHHHHCCCEEEEEEEEECCCCCCCCCCEEEEE RGDALTRAGSVYTTNNADDITLSNIQPSGTATYLLGSVDKYMYAQTDAQGQITFSVSQNN CCCCHHCCCCEEECCCCCCEEEECCCCCCCEEEEEECCCHHEEEECCCCCEEEEEEECCC TMGLKTPIRVTVANDITATSSKDVIFTVLTSPDVASANYWGHMPETVEGPDGLRYQRPHL CCCCCCCEEEEEECCEECCCCCCEEEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCC QAEAPSGVNYITVNGEKWAAPTGVQTYTAGQSACDVEYMPLMNDLKALQQLYPDGALEDQ CCCCCCCCEEEEECCCCCCCCCCCEEEECCCCCCCEEEHHHHHHHHHHHHHCCCCCCCCC FGWPVKTGKLWWSADLNSSKAHQAINLKTGQISAPTSTSLQACLVNARNVPASITLTSTA CCCEEECCCEEEEECCCCCCCCEEEEEECCEECCCCCCCHHEEEEECCCCCEEEEEEEEC MDAEKGAAVAKKGEAIPLTVTVKNRAGVPIANEPFTLKRGDANDRLDIKYTWNTTADDLT CCCCCCCHHHCCCCEEEEEEEECCCCCCCCCCCCEEEECCCCCCEEEEEEEECCCCCCEE LQELTPSPTTKSMTASGNVFSGVTGADGTATFTVNQDGSVGLKTELTASATGDVTQSTNT EECCCCCCCCCEEECCCCEEECCCCCCCEEEEEECCCCCCCEEEEEEECCCCCCCCCCCC ALGVIFNVITSPDTDKAQYWGHMPDTLTVGGVTLHRPLLMKEAPAGATDSRKENNETWVS CEEEEEHHHCCCCCCHHHHCCCCCCEEEECCEEECCCEEEECCCCCCCCCCCCCCCEEEE VYTKADGLTYDMSKNCGGVAGFPAKGVLEKIRDEQMAVANGWPTVSLPYASSTPGTYNYC EEEECCCEEEECCCCCCCCCCCCHHHHHHHHCCCCEEEECCCCEEEECCCCCCCCCCEEE WVSLAKGGTTHCPTTSSDYSIGYAACLVQP EEEEECCCCCCCCCCCCCCCCEEEEEEECC >Mature Secondary Structure MDRNRQVNKVVHFLLTLLIMFVASIAPAQALLKGGTWQELNSATAAVNGTVPRADGAIIP CCCCCHHHHHHHHHHHHHHHHHHHCCCHHHHHCCCCHHHHCCCCEEECCCCCCCCCCEEE VYQGSMLLDPTKTYDVAFTAMPRDFSADATSTSMRAVNSTDTEGDLFSDPPTIAWENQQP EECCCEEECCCCCEEEEEEECCCCCCCCCCCCCEEEECCCCCCCCCCCCCCCEEECCCCC PSVGLLWADAATPDTPLSPQPTPNQTFCAQNLAGRKLVVWPQPDDETTVPALWLYTHTGV CCEEEEEECCCCCCCCCCCCCCCCHHHHHHCCCCCEEEEECCCCCCCCCCEEEEEEECCC PNNAAIPLLSPKVTVNIAQAVGNPVSVSGDHVDASFKASKVKVGESITLTVTTRGCDGKL CCCCEEEEECCCEEEEEHHHCCCCEEECCCCCCCCCEEEEEEECCEEEEEEEECCCCCCE VKNAPFVIRREDAKNRQGVVNNTNPVHVGDAELTTVQTEYRGVTDAEGKATVVVTQDEGP EECCCEEEECCCCCCCCCCCCCCCCEEECCCEEEEEEHHHCCCCCCCCCEEEEEECCCCC GVKTHLIVASQSYPTLTDGVDVIFTTITSPDTAQANMYGHMLESASATLNGATYTFTRPK CEEEEEEEEECCCCCCCCCCEEEEEEECCCCCCHHHHHHHHHHHCCCEECCCEEEEECCE LAVEAGNADESVNDTNETWAQFTWSGADNHCDVLPDAEQLVALRHAHSTLATYTGWPASG EEEECCCCCCCCCCCCCCEEEEEECCCCCCCCCCCCHHHHHHHHHHHHHHHEECCCCCCC DAEYWSSTKDQMNNYHAAVHMNSASVVRAPNSDTLLVSCVDKAQPAAHPQITLSPEGPYK CHHHHCCCHHHHCCEEEEEEECCCEEEECCCCCEEEEEEECCCCCCCCCEEEECCCCCCH AQVGESIDLVMTVVDKDTQKPLPYRYMELFIDPAKNRKGEHQDAWDNQRVTVSSEDMRAS HHCCCCEEEEEEEECCCCCCCCCCEEEEEEECCCCCCCCCCCCCCCCCEEEEECCCCCCC SPEHYTGVTDVNGQAHLTLQHDSGMGGETPIRIVMPDDEGGNVELPFSVIFTVITSPDVD CCCCCCCEEECCCEEEEEEEECCCCCCCCCEEEEECCCCCCCEEECHHHEEEEEECCCCC GANMWGHMRGVVDAGNLYKRPLLAVEASHKDGQFSENNEEWATFNSVASATAQCGVGQVP CCHHHHHHHCEEECCCHHCCCEEEEEECCCCCCCCCCCCCHHHHHHHHHHHHHCCCCCCC DQSSLAHLYSEHPSGKMEIEHGWPTEDYFIAADSDASGTVHVNLANGDSNKFTNQPNYLT CHHHHHHHHHCCCCCEEEEECCCCCCCEEEEECCCCCCEEEEEEECCCCCCCCCCCCEEE CSANEMVAVLDVYFNDDPTTKNADMTAKVGEQIKLNIHSRNALNDMAIAYTDFTITMANG ECCCCEEEEEEEEECCCCCCCCCCEEEECCCEEEEEEECCCCCCCEEEEEEEEEEEECCC KRRDGLTTGFTDPSNGEMQFDGVGYLAGQVYHGITDANGDATIILTQNKGVGLLTPLSIA CCCCCCCCCCCCCCCCCEEECCCEEEEHHHEECEECCCCCEEEEEECCCCCEEECCCCCC PVDSLIKTPISRSVKFTVATSPDTVKAKMWGHMADTLTVGDWTFERPKLASEVNSPLRTQ CHHHHHHCCCCCCEEEEEECCCCCEEHHHCCCCCCEEEECCCCCCCCHHHHHHCCCCCCC EESNETWTRVAHIDAAGNPDAGGCAANRLPRIDQLEALYSANSGGAMKKTQGWPTLINYW CCCCCCEEEEEEEECCCCCCCCCHHHHCCCCHHHHHHHHCCCCCCCCCCCCCCHHHHHHH SSTYQSATTWKLIALASGSEFPGSNTSVYTSCLASDNPVPAAITIEPVDPSQWYDGSGVH HHHCCCCCEEEEEEEECCCCCCCCCCEEEEEECCCCCCCCEEEEEEECCCCCCCCCCCEE ALKVKKGDTLQLKVTVKDASGKPVPEAPFVLTRGDGYDRKGEKYTAQDGSDLQNIVTPVV EEEEECCCEEEEEEEEECCCCCCCCCCCEEEECCCCCCCCCCEEECCCCCCHHHCCCEEE IDGESLAWTTTKMGSQTGPDGTRIISVTRPDTHGTRTAITATLYENVAVSASIDTIFTVV ECCCCEEEEEECCCCCCCCCCCEEEEEECCCCCCCCEEEEEEEECCEEEEEECCEEEEEE TSPDVSVARMWGHMTPSLTAADSAVYKRPLLYDELASKTGAAEYPEDNERWVVFYGPNTT ECCCCHHHHHHCCCCCCCCCCCHHHHHCCCHHHHHHHCCCCCCCCCCCCEEEEEECCCCC KTVSPEACSKGYFPSVEQLDSLYSKYPNGAIKTAQGWPIIRSYWSGTNAGTITPGAPPYD CEECHHHHCCCCCCCHHHHHHHHHHCCCCCEEECCCCHHHHHHCCCCCCCEECCCCCCCC YYTVDLNDDAHRKVPNISDSDRQYQICAATPQPLAGRITLTSTLATDSDIQAVKAKNSDS EEEEECCCCHHHCCCCCCCCCCEEEEEECCCCCCCCEEEEEEEECCCCCCEEEECCCCCC IPLVITTTDAAGNPVPYTPFSLIRDAGTARNTSYTFTGSTNMMLAPPTGSAQQFYYNGYT CEEEEEECCCCCCCCCCCHHHHHHCCCCCCCCEEEEECCCCEEEECCCCCCCEEEECCEE IYGATGADGTAVLTLTQAAGPGVKNVITAALTDTPTVTSTLPVVFTTVTSPDSPQANMYG EEEECCCCCEEEEEEECCCCCCHHHHEEEEECCCCCCCEECCEEEEEECCCCCCCCCEEC HMPETFTASNGAEFKRPLLYSELASTLGVKSYADTNENWPIVNNFDTSNYGACSINQMAT CCCCCEECCCCCCHHHHHHHHHHHHHHCCCCCCCCCCCCCEEECCCCCCCCEEECCCCCC LDDLKALYGDHPSGKVTTDIGLPVRKKWWAGDSLLQGQVIYWRYIDLSTGIDYSMSGTPG HHHHHHHHCCCCCCCEEEECCCCCCCEECCCCCEECCEEEEEEEEEECCCCCEEECCCCC NYYYQLCLTKPRQMNIALSTDAWNADKSAAVAKKGETIPMTVKVTNAAGQPVSNATVKIT CEEEEEEECCCCEEEEEEECCCCCCCCCHHHHHCCCEEEEEEEEECCCCCCCCCCEEEEE RGDALTRAGSVYTTNNADDITLSNIQPSGTATYLLGSVDKYMYAQTDAQGQITFSVSQNN CCCCHHCCCCEEECCCCCCEEEECCCCCCCEEEEEECCCHHEEEECCCCCEEEEEEECCC TMGLKTPIRVTVANDITATSSKDVIFTVLTSPDVASANYWGHMPETVEGPDGLRYQRPHL CCCCCCCEEEEEECCEECCCCCCEEEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCC QAEAPSGVNYITVNGEKWAAPTGVQTYTAGQSACDVEYMPLMNDLKALQQLYPDGALEDQ CCCCCCCCEEEEECCCCCCCCCCCEEEECCCCCCCEEEHHHHHHHHHHHHHCCCCCCCCC FGWPVKTGKLWWSADLNSSKAHQAINLKTGQISAPTSTSLQACLVNARNVPASITLTSTA CCCEEECCCEEEEECCCCCCCCEEEEEECCEECCCCCCCHHEEEEECCCCCEEEEEEEEC MDAEKGAAVAKKGEAIPLTVTVKNRAGVPIANEPFTLKRGDANDRLDIKYTWNTTADDLT CCCCCCCHHHCCCCEEEEEEEECCCCCCCCCCCCEEEECCCCCCEEEEEEEECCCCCCEE LQELTPSPTTKSMTASGNVFSGVTGADGTATFTVNQDGSVGLKTELTASATGDVTQSTNT EECCCCCCCCCEEECCCCEEECCCCCCCEEEEEECCCCCCCEEEEEEECCCCCCCCCCCC ALGVIFNVITSPDTDKAQYWGHMPDTLTVGGVTLHRPLLMKEAPAGATDSRKENNETWVS CEEEEEHHHCCCCCCHHHHCCCCCCEEEECCEEECCCEEEECCCCCCCCCCCCCCCEEEE VYTKADGLTYDMSKNCGGVAGFPAKGVLEKIRDEQMAVANGWPTVSLPYASSTPGTYNYC EEEECCCEEEECCCCCCCCCCCCHHHHHHHHCCCCEEEECCCCEEEECCCCCCCCCCEEE WVSLAKGGTTHCPTTSSDYSIGYAACLVQP EEEEECCCCCCCCCCCCCCCCEEEEEEECC
PDB accession: NA
Resolution: NA
Structure class: Unstructured
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: 9.0
TargetDB status: NA
Availability: NA
References: NA