| Definition | Thermoanaerobacter sp. X514 chromosome, complete genome. |
|---|---|
| Accession | NC_010320 |
| Length | 2,457,259 |
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The map label for this gene is addA [H]
Identifier: 167038872
GI number: 167038872
Start: 208499
End: 212200
Strand: Direct
Name: addA [H]
Synonym: Teth514_0203
Alternate gene names: 167038872
Gene position: 208499-212200 (Clockwise)
Preceding gene: 167038871
Following gene: 167038873
Centisome position: 8.49
GC content: 34.76
Gene sequence:
>3702_bases ATGGGGACAAAGTGGACTGAAGAGCAGAAACAAGCTATTACGACAAGAGGAAGCAATCTTTTAGTTGCGGCAGCAGCCGG TTCGGGTAAGACGGCTGTCTTGGTAGAGAGGATTATAAATCTCATAACAGATGAAGAAAATCCTGTAGACATTGACAGGT TGTTAGTTGTTACTTTTACAAATGCTGCTGCATCTGAGATGAGGGAGAGAATTGCAGAGGCTTTAATTGCCATATTGGAC CAAAATCCGGAGGATAAAAGGCTGGCGAATCAGCTGACACTTCTTAACAAGGCTACTATTACAACAATCCATTCCTTTTG TTTGGAAGTAGTCAGAAATAACTTTTTTTTGCTGGATTTAGACCCTAACTTTAGAATTGGAGATGATACAGAAACCTTGC TTTTGCAATTGGAAGCGTCAGAAGAACTTTTTGAAGAGATGTATGCTAAAGAGGATAAAGATAAGGAAGGTTTTTTGACA TTGGTGGAAAGTTATGGTGGCACAAAAGATGACCAAGATTTGCAGGACATCCTATTAAGACTTTATGGATTTGTGAGGTC TCTCCCTTGGCCTGAAAAATGGCTAAAGGATGTGATTAACACTTTTAGAGTAGAGGATAATTTCAAATTTGAAACTTCAA AGTGGGCTGAGGTTATATTGGATAGTTTAAAAGTAGAAATATCTGGGATTTTAAATACCATGCTTGTGGCTGTCGACAAA CTCAAAAACGAGGCGGGGCTTGAGGGATATTTTCATGCTTTTCAGAGGGAAGCTTATGAAATAGAGCAGCTCCTCCAATA TGATAATTGGAATGAATTTAAAAATCACATACAGGCAATTGAGTTTGAAAGGCTTCCCAATGCTGGTAAGGATGCAAATA AGAATGTTAAAGAAGAAGTTTCAAATATAAGAAAAAAAGTAAAAGATAAAATAAAAGAAATAAAGGAAAAGTTTTTTTCT GACAGCGTAGAGGAAATAAAAGATGAAATAAAGGCTTTGTACCCTATTATGGAAGCTTTGGCGGATTTAATACTACTTTT TGATAAAAAGTATAAGGAAAAGAAAAGAGAAAAAGGAATAATAGATTTTAACGATATTGAACATTTTGCACTTCAAATTT TGACTGAGATTGATGAGGAAGGAGACGTAAATCCTTCAGAAGTAGCTTTGCATTATAGAGAAAAATTTGAAGAAATATTT GTAGACGAATATCAGGACTCAAACCTGATACAGGAGGAGATACTTAGTATAATCGCAAGAGAAAATCCTCCCAATAGATT TATGGTAGGAGATGTAAAGCAGAGTATATATAGATTTAGACAGGCAAACCCTTATATATTTTTTGAGAAATACAATAGCT ATTCTCTTGATACAGGAGAAAAGAATCAAAAAATACTGCTGTATAAAAATTTCAGAAGTAGAATAGAAGTTATAGAAGCC ATAAATTATATTTTTAAAAAGATAATGTCAAAAAATATAGGGGAAGTAAACTATACAGAAGAAGAAAAATTAAATTATGG GGCAGAGTATGAAATTCCTCCCGAAGATTCTGTTACAGGTGGTGCCGTAGAACTTCACCTTATAGAAAAACAAAAGGTTG AAGAGGAAGTAGAAGAAAAAGAGGAGGAAAAAAATGAGGAAAAAGATTTTGAGGAGGAAGAGGAGGACTTAATTGATGAT ATACAGGTAGAAGCAAGGGTTGTAGCAGAGAGGATAAAACAGCTTTTTTCACAAAATTTTATGGTTTACGATAAGAATAT AAAAAGTTACAGAGCAGTTGATTACAGGGATATTGTAGTATTACTTAGGGCTACTGACAGGTGGGCACCGGTATTTTTGG AGGAACTGACACAGGCAGGTATTCCAGCTTTTGCAGATACGGGCACAGGATATTTTGATACAACAGAAATAAAGACTATA ATATCTCTTTTACAAGTGATAGATAATCCAATGCAGGATATACCATTGTTAGCTGTGCTTCGCTCTCCAATCTTTTCTTT TACAGAAGAAGAGCTTATTGACTTAAGATTAGAGGATATGGAGAAAACCATATATGAAGCAATCAAAAAAGCTTCTCAAA GGGAAGACGAATTAGGTGAAAAGGCTAAGAATTTTTTAGATACACTGAAAAAGTGGCAGGAAAAGGCTGTTTATATGCCT GTTGATGAATTTCTTTGGTATTTATATAAAGATACTGGTTATTATTCTTATGTTGCTGCTATGCCTCAAGGGGTTCAGAG GCAGGCAAATTTGAGGATTTTATTTGAAAGAGCTAAACAGTACGAGGAAACCAGCTTTAAAGGCCTTTTTAACTTTATAA ATTTTATCAACCGACTTAAAGTGAGCAGTGGCGACATGGGAAGTGCTAAAATTGTCGGAGAAAATGAGAAAGTTGTACGG ATCATGAGCATACACAAAAGCAAAGGCTTAGAATTTCCTGTGGTGATAGTTGCAGGGTTGGGCAAGCAGTTTAACACAAA AGACCTATATCAAAAGATTCTGTACCATCACTTTTTAGGATTAGGTCCTGAATTTGTAGATTTTAGAAGAAGGATTTCTT ATCCCAGCATTGTAAAAGAGGCTATAAAGTATAAGATAAAGTTAGAAGGCCTATCTGAAGAAATGAGGGTTTTGTACGTT GCACTGACACGGGCAAAAGAAAAATTAATACTTGTAGGAAGTGCAAGAGATATAAAGAAAAATGTGAGGAAATGGGCAAA TGCGGCAATTTTGCAGGAAAAGGTTTCTGAATATGATATTTTAAATGGCAAAAGCTACATGGATTGGATTGGAGCAGCTG TTATAAGGCACAAAGACTTAGAACCTTTACGAGAGTTTGCAGGTGTTTCTCTTTCTGAAGAAGAAGACGCTTCAAAATGG GAAGTAAAACTATGGAATAAAAAGGATGTGCTTTTAGAAAAAGAGAAAAATGACAAAGTAGATGTGGTGGAAAGACTAAG AAGTTTAGACTTGGATGCCCACTACAGCGAGTTTTACAAAGAAGTTGAAAGAAGGTTAAACTATGTATATCCTTACGAAA AAGCATGTTACCTACCTGCCAAGCTTTCTGTGACGGAGGTTAAGCGCATTTTAAATGCAGAAGTAGTTGACGAAGATACC ACATCTATTTTTGAAAGAGAAGTTTTAAAAACACCCATATTTTTAGAAAAGAAAAAAGGACTAACTGCAGCTGAAAAAGG TATAGCTATGCACCTTGTCATGCAAAAACTTGATTTAGATAAGGATTTGTCTTTGGAGGGTATTAAAGAACAGATAAAAG ATATGGTAGATAGAGAGATATTAACAGAGGAGCAAGCAAAAGAAGTGAATATACATAAAATCGAAGGATTTTTCAAAACC TCTCTTGGGGAAAGGATGCTAAGTTCAAAAAATGTAAAAAGAGAAGTGCCTTTTCACATTAAATTGAGCAGCAGGGAGAT TTACAAAGATTTGCCTGAAGAATACGAAAATGAGTTTATACAGGTGCAGGGAATTATTGATTGTTTCTTTGAAGAAGAGG ATGGTTTAGTTTTAATAGATTATAAAACAGACTATGTACAGGAAGGCAAAGTAGAAGAAATTAAAGAAAGATATAAAGTT CAGATAGAACTATATTCAAAGGCATTAGAGAATATTACAGGCAAAAAGGTAAAAGAAAAATACATTTATCTATTTTTCAA TGGGAACATTTTGGAGTATTGA
Upstream 100 bases:
>100_bases TGCAAATTTGAAACCAATTTTGAAGGGAATAAATACATGTTTATAAAAGAGCAAAAAGAGGAAGAGATTTGGAATATGTT ACAAAAGGAAGTGAATAAAG
Downstream 100 bases:
>100_bases TAGACATGCGTCAAACAGAGGGGACGGTTCTTTTTGTTTGGCTCAAACAAAAGGAACCGTCCCCTCTGTTTGGTATAAGT TTTATGATATAATAAGCTTG
Product: UvrD-like DNA helicase, C terminal
Products: NA
Alternate protein names: ATP-dependent helicase/nuclease AddA [H]
Number of amino acids: Translated: 1233; Mature: 1232
Protein sequence:
>1233_residues MGTKWTEEQKQAITTRGSNLLVAAAAGSGKTAVLVERIINLITDEENPVDIDRLLVVTFTNAAASEMRERIAEALIAILD QNPEDKRLANQLTLLNKATITTIHSFCLEVVRNNFFLLDLDPNFRIGDDTETLLLQLEASEELFEEMYAKEDKDKEGFLT LVESYGGTKDDQDLQDILLRLYGFVRSLPWPEKWLKDVINTFRVEDNFKFETSKWAEVILDSLKVEISGILNTMLVAVDK LKNEAGLEGYFHAFQREAYEIEQLLQYDNWNEFKNHIQAIEFERLPNAGKDANKNVKEEVSNIRKKVKDKIKEIKEKFFS DSVEEIKDEIKALYPIMEALADLILLFDKKYKEKKREKGIIDFNDIEHFALQILTEIDEEGDVNPSEVALHYREKFEEIF VDEYQDSNLIQEEILSIIARENPPNRFMVGDVKQSIYRFRQANPYIFFEKYNSYSLDTGEKNQKILLYKNFRSRIEVIEA INYIFKKIMSKNIGEVNYTEEEKLNYGAEYEIPPEDSVTGGAVELHLIEKQKVEEEVEEKEEEKNEEKDFEEEEEDLIDD IQVEARVVAERIKQLFSQNFMVYDKNIKSYRAVDYRDIVVLLRATDRWAPVFLEELTQAGIPAFADTGTGYFDTTEIKTI ISLLQVIDNPMQDIPLLAVLRSPIFSFTEEELIDLRLEDMEKTIYEAIKKASQREDELGEKAKNFLDTLKKWQEKAVYMP VDEFLWYLYKDTGYYSYVAAMPQGVQRQANLRILFERAKQYEETSFKGLFNFINFINRLKVSSGDMGSAKIVGENEKVVR IMSIHKSKGLEFPVVIVAGLGKQFNTKDLYQKILYHHFLGLGPEFVDFRRRISYPSIVKEAIKYKIKLEGLSEEMRVLYV ALTRAKEKLILVGSARDIKKNVRKWANAAILQEKVSEYDILNGKSYMDWIGAAVIRHKDLEPLREFAGVSLSEEEDASKW EVKLWNKKDVLLEKEKNDKVDVVERLRSLDLDAHYSEFYKEVERRLNYVYPYEKACYLPAKLSVTEVKRILNAEVVDEDT TSIFEREVLKTPIFLEKKKGLTAAEKGIAMHLVMQKLDLDKDLSLEGIKEQIKDMVDREILTEEQAKEVNIHKIEGFFKT SLGERMLSSKNVKREVPFHIKLSSREIYKDLPEEYENEFIQVQGIIDCFFEEEDGLVLIDYKTDYVQEGKVEEIKERYKV QIELYSKALENITGKKVKEKYIYLFFNGNILEY
Sequences:
>Translated_1233_residues MGTKWTEEQKQAITTRGSNLLVAAAAGSGKTAVLVERIINLITDEENPVDIDRLLVVTFTNAAASEMRERIAEALIAILD QNPEDKRLANQLTLLNKATITTIHSFCLEVVRNNFFLLDLDPNFRIGDDTETLLLQLEASEELFEEMYAKEDKDKEGFLT LVESYGGTKDDQDLQDILLRLYGFVRSLPWPEKWLKDVINTFRVEDNFKFETSKWAEVILDSLKVEISGILNTMLVAVDK LKNEAGLEGYFHAFQREAYEIEQLLQYDNWNEFKNHIQAIEFERLPNAGKDANKNVKEEVSNIRKKVKDKIKEIKEKFFS DSVEEIKDEIKALYPIMEALADLILLFDKKYKEKKREKGIIDFNDIEHFALQILTEIDEEGDVNPSEVALHYREKFEEIF VDEYQDSNLIQEEILSIIARENPPNRFMVGDVKQSIYRFRQANPYIFFEKYNSYSLDTGEKNQKILLYKNFRSRIEVIEA INYIFKKIMSKNIGEVNYTEEEKLNYGAEYEIPPEDSVTGGAVELHLIEKQKVEEEVEEKEEEKNEEKDFEEEEEDLIDD IQVEARVVAERIKQLFSQNFMVYDKNIKSYRAVDYRDIVVLLRATDRWAPVFLEELTQAGIPAFADTGTGYFDTTEIKTI ISLLQVIDNPMQDIPLLAVLRSPIFSFTEEELIDLRLEDMEKTIYEAIKKASQREDELGEKAKNFLDTLKKWQEKAVYMP VDEFLWYLYKDTGYYSYVAAMPQGVQRQANLRILFERAKQYEETSFKGLFNFINFINRLKVSSGDMGSAKIVGENEKVVR IMSIHKSKGLEFPVVIVAGLGKQFNTKDLYQKILYHHFLGLGPEFVDFRRRISYPSIVKEAIKYKIKLEGLSEEMRVLYV ALTRAKEKLILVGSARDIKKNVRKWANAAILQEKVSEYDILNGKSYMDWIGAAVIRHKDLEPLREFAGVSLSEEEDASKW EVKLWNKKDVLLEKEKNDKVDVVERLRSLDLDAHYSEFYKEVERRLNYVYPYEKACYLPAKLSVTEVKRILNAEVVDEDT TSIFEREVLKTPIFLEKKKGLTAAEKGIAMHLVMQKLDLDKDLSLEGIKEQIKDMVDREILTEEQAKEVNIHKIEGFFKT SLGERMLSSKNVKREVPFHIKLSSREIYKDLPEEYENEFIQVQGIIDCFFEEEDGLVLIDYKTDYVQEGKVEEIKERYKV QIELYSKALENITGKKVKEKYIYLFFNGNILEY >Mature_1232_residues GTKWTEEQKQAITTRGSNLLVAAAAGSGKTAVLVERIINLITDEENPVDIDRLLVVTFTNAAASEMRERIAEALIAILDQ NPEDKRLANQLTLLNKATITTIHSFCLEVVRNNFFLLDLDPNFRIGDDTETLLLQLEASEELFEEMYAKEDKDKEGFLTL VESYGGTKDDQDLQDILLRLYGFVRSLPWPEKWLKDVINTFRVEDNFKFETSKWAEVILDSLKVEISGILNTMLVAVDKL KNEAGLEGYFHAFQREAYEIEQLLQYDNWNEFKNHIQAIEFERLPNAGKDANKNVKEEVSNIRKKVKDKIKEIKEKFFSD SVEEIKDEIKALYPIMEALADLILLFDKKYKEKKREKGIIDFNDIEHFALQILTEIDEEGDVNPSEVALHYREKFEEIFV DEYQDSNLIQEEILSIIARENPPNRFMVGDVKQSIYRFRQANPYIFFEKYNSYSLDTGEKNQKILLYKNFRSRIEVIEAI NYIFKKIMSKNIGEVNYTEEEKLNYGAEYEIPPEDSVTGGAVELHLIEKQKVEEEVEEKEEEKNEEKDFEEEEEDLIDDI QVEARVVAERIKQLFSQNFMVYDKNIKSYRAVDYRDIVVLLRATDRWAPVFLEELTQAGIPAFADTGTGYFDTTEIKTII SLLQVIDNPMQDIPLLAVLRSPIFSFTEEELIDLRLEDMEKTIYEAIKKASQREDELGEKAKNFLDTLKKWQEKAVYMPV DEFLWYLYKDTGYYSYVAAMPQGVQRQANLRILFERAKQYEETSFKGLFNFINFINRLKVSSGDMGSAKIVGENEKVVRI MSIHKSKGLEFPVVIVAGLGKQFNTKDLYQKILYHHFLGLGPEFVDFRRRISYPSIVKEAIKYKIKLEGLSEEMRVLYVA LTRAKEKLILVGSARDIKKNVRKWANAAILQEKVSEYDILNGKSYMDWIGAAVIRHKDLEPLREFAGVSLSEEEDASKWE VKLWNKKDVLLEKEKNDKVDVVERLRSLDLDAHYSEFYKEVERRLNYVYPYEKACYLPAKLSVTEVKRILNAEVVDEDTT SIFEREVLKTPIFLEKKKGLTAAEKGIAMHLVMQKLDLDKDLSLEGIKEQIKDMVDREILTEEQAKEVNIHKIEGFFKTS LGERMLSSKNVKREVPFHIKLSSREIYKDLPEEYENEFIQVQGIIDCFFEEEDGLVLIDYKTDYVQEGKVEEIKERYKVQ IELYSKALENITGKKVKEKYIYLFFNGNILEY
Specific function: The heterodimer acts as both an ATP-dependent DNA helicase and an ATP-dependent, dual-direction single-stranded exonuclease. Recognizes the chi site generating a DNA molecule suitable for the initiation of homologous recombination. The AddA nuclease domai
COG id: COG1074
COG function: function code L; ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains)
Gene ontology:
Cell location: Cytoplasm [C]
Metaboloic importance: Non_Essential [C]
Operon status: Not Known
Operon components: None
Similarity: Contains 1 uvrD-like helicase C-terminal domain [H]
Homologues:
Organism=Escherichia coli, GI48994965, Length=138, Percent_Identity=33.3333333333333, Blast_Score=68, Evalue=4e-12,
Paralogues:
None
Copy number: 3000 [C]
Swissprot (AC and ID): NA
Other databases:
- InterPro: IPR014152 - InterPro: IPR014017 - InterPro: IPR000212 - InterPro: IPR011604 - InterPro: IPR014016 - InterPro: IPR011335 [H]
Pfam domain/function: PF00580 UvrD-helicase [H]
EC number: =3.6.4.12 [H]
Molecular weight: Translated: 143750; Mature: 143619
Theoretical pI: Translated: 4.68; Mature: 4.68
Prosite motif: NA
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.2 %Cys (Translated Protein) 1.6 %Met (Translated Protein) 1.9 %Cys+Met (Translated Protein) 0.2 %Cys (Mature Protein) 1.5 %Met (Mature Protein) 1.8 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MGTKWTEEQKQAITTRGSNLLVAAAAGSGKTAVLVERIINLITDEENPVDIDRLLVVTFT CCCCCCHHHHHHHHCCCCCEEEEEECCCCCHHHHHHHHHHHHCCCCCCCCHHHEEEEEEC NAAASEMRERIAEALIAILDQNPEDKRLANQLTLLNKATITTIHSFCLEVVRNNFFLLDL CHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCEEEEEC DPNFRIGDDTETLLLQLEASEELFEEMYAKEDKDKEGFLTLVESYGGTKDDQDLQDILLR CCCCCCCCCCEEEEEEECCHHHHHHHHHHCCCCCCHHHHHHHHHCCCCCCCHHHHHHHHH LYGFVRSLPWPEKWLKDVINTFRVEDNFKFETSKWAEVILDSLKVEISGILNTMLVAVDK HHHHHHCCCCHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHH LKNEAGLEGYFHAFQREAYEIEQLLQYDNWNEFKNHIQAIEFERLPNAGKDANKNVKEEV HHHHCCCHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCCCCCCHHHHH SNIRKKVKDKIKEIKEKFFSDSVEEIKDEIKALYPIMEALADLILLFDKKYKEKKREKGI HHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC IDFNDIEHFALQILTEIDEEGDVNPSEVALHYREKFEEIFVDEYQDSNLIQEEILSIIAR CCHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHC ENPPNRFMVGDVKQSIYRFRQANPYIFFEKYNSYSLDTGEKNQKILLYKNFRSRIEVIEA CCCCCCEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCCCCCCEEEEEHHHHHHHHHHHH INYIFKKIMSKNIGEVNYTEEEKLNYGAEYEIPPEDSVTGGAVELHLIEKQKVEEEVEEK HHHHHHHHHHCCCCCCCCCHHHHCCCCCCCCCCCCCCCCCCEEEEEEHHHHHHHHHHHHH EEEKNEEKDFEEEEEDLIDDIQVEARVVAERIKQLFSQNFMVYDKNIKSYRAVDYRDIVV HHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEECCCCHHHCCCHHHHEE LLRATDRWAPVFLEELTQAGIPAFADTGTGYFDTTEIKTIISLLQVIDNPMQDIPLLAVL EEECCCCCHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHHCCCHHHHHHHHHH RSPIFSFTEEELIDLRLEDMEKTIYEAIKKASQREDELGEKAKNFLDTLKKWQEKAVYMP HHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCC VDEFLWYLYKDTGYYSYVAAMPQGVQRQANLRILFERAKQYEETSFKGLFNFINFINRLK HHHHHHHHHHCCCHHHHHHHCCHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHC VSSGDMGSAKIVGENEKVVRIMSIHKSKGLEFPVVIVAGLGKQFNTKDLYQKILYHHFLG CCCCCCCCEEEECCCCCEEHHHHHHHHCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHC LGPEFVDFRRRISYPSIVKEAIKYKIKLEGLSEEMRVLYVALTRAKEKLILVGSARDIKK CCHHHHHHHHHCCCHHHHHHHHHHEEEECCCHHHHHHHHHHHHHCCCEEEEEECCHHHHH NVRKWANAAILQEKVSEYDILNGKSYMDWIGAAVIRHKDLEPLREFAGVSLSEEEDASKW HHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCHHHHHHHHCCCCCCCCCCCCE EVKLWNKKDVLLEKEKNDKVDVVERLRSLDLDAHYSEFYKEVERRLNYVYPYEKACYLPA EEEEECCCCCEEECCCCCCHHHHHHHHHCCCCHHHHHHHHHHHHHCCCCCCCCHHCCCCC KLSVTEVKRILNAEVVDEDTTSIFEREVLKTPIFLEKKKGLTAAEKGIAMHLVMQKLDLD CCCHHHHHHHHCCHHCCCHHHHHHHHHHHHCCCEEECCCCCCHHHHHHHHHHHHHHHCCC KDLSLEGIKEQIKDMVDREILTEEQAKEVNIHKIEGFFKTSLGERMLSSKNVKREVPFHI CCCCHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCEEE KLSSREIYKDLPEEYENEFIQVQGIIDCFFEEEDGLVLIDYKTDYVQEGKVEEIKERYKV EECCHHHHHHCCHHHHHCEEEHHHHHHHHEECCCCEEEEECCCCCCCCCCHHHHHHHHHH QIELYSKALENITGKKVKEKYIYLFFNGNILEY HHHHHHHHHHHCCCCCEECEEEEEEECCCEECC >Mature Secondary Structure GTKWTEEQKQAITTRGSNLLVAAAAGSGKTAVLVERIINLITDEENPVDIDRLLVVTFT CCCCCHHHHHHHHCCCCCEEEEEECCCCCHHHHHHHHHHHHCCCCCCCCHHHEEEEEEC NAAASEMRERIAEALIAILDQNPEDKRLANQLTLLNKATITTIHSFCLEVVRNNFFLLDL CHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCEEEEEC DPNFRIGDDTETLLLQLEASEELFEEMYAKEDKDKEGFLTLVESYGGTKDDQDLQDILLR CCCCCCCCCCEEEEEEECCHHHHHHHHHHCCCCCCHHHHHHHHHCCCCCCCHHHHHHHHH LYGFVRSLPWPEKWLKDVINTFRVEDNFKFETSKWAEVILDSLKVEISGILNTMLVAVDK HHHHHHCCCCHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHH LKNEAGLEGYFHAFQREAYEIEQLLQYDNWNEFKNHIQAIEFERLPNAGKDANKNVKEEV HHHHCCCHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCCCCCCHHHHH SNIRKKVKDKIKEIKEKFFSDSVEEIKDEIKALYPIMEALADLILLFDKKYKEKKREKGI HHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC IDFNDIEHFALQILTEIDEEGDVNPSEVALHYREKFEEIFVDEYQDSNLIQEEILSIIAR CCHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHC ENPPNRFMVGDVKQSIYRFRQANPYIFFEKYNSYSLDTGEKNQKILLYKNFRSRIEVIEA CCCCCCEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCCCCCCEEEEEHHHHHHHHHHHH INYIFKKIMSKNIGEVNYTEEEKLNYGAEYEIPPEDSVTGGAVELHLIEKQKVEEEVEEK HHHHHHHHHHCCCCCCCCCHHHHCCCCCCCCCCCCCCCCCCEEEEEEHHHHHHHHHHHHH EEEKNEEKDFEEEEEDLIDDIQVEARVVAERIKQLFSQNFMVYDKNIKSYRAVDYRDIVV HHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEECCCCHHHCCCHHHHEE LLRATDRWAPVFLEELTQAGIPAFADTGTGYFDTTEIKTIISLLQVIDNPMQDIPLLAVL EEECCCCCHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHHCCCHHHHHHHHHH RSPIFSFTEEELIDLRLEDMEKTIYEAIKKASQREDELGEKAKNFLDTLKKWQEKAVYMP HHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCC VDEFLWYLYKDTGYYSYVAAMPQGVQRQANLRILFERAKQYEETSFKGLFNFINFINRLK HHHHHHHHHHCCCHHHHHHHCCHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHC VSSGDMGSAKIVGENEKVVRIMSIHKSKGLEFPVVIVAGLGKQFNTKDLYQKILYHHFLG CCCCCCCCEEEECCCCCEEHHHHHHHHCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHC LGPEFVDFRRRISYPSIVKEAIKYKIKLEGLSEEMRVLYVALTRAKEKLILVGSARDIKK CCHHHHHHHHHCCCHHHHHHHHHHEEEECCCHHHHHHHHHHHHHCCCEEEEEECCHHHHH NVRKWANAAILQEKVSEYDILNGKSYMDWIGAAVIRHKDLEPLREFAGVSLSEEEDASKW HHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCHHHHHHHHCCCCCCCCCCCCE EVKLWNKKDVLLEKEKNDKVDVVERLRSLDLDAHYSEFYKEVERRLNYVYPYEKACYLPA EEEEECCCCCEEECCCCCCHHHHHHHHHCCCCHHHHHHHHHHHHHCCCCCCCCHHCCCCC KLSVTEVKRILNAEVVDEDTTSIFEREVLKTPIFLEKKKGLTAAEKGIAMHLVMQKLDLD CCCHHHHHHHHCCHHCCCHHHHHHHHHHHHCCCEEECCCCCCHHHHHHHHHHHHHHHCCC KDLSLEGIKEQIKDMVDREILTEEQAKEVNIHKIEGFFKTSLGERMLSSKNVKREVPFHI CCCCHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCEEE KLSSREIYKDLPEEYENEFIQVQGIIDCFFEEEDGLVLIDYKTDYVQEGKVEEIKERYKV EECCHHHHHHCCHHHHHCEEEHHHHHHHHEECCCCEEEEECCCCCCCCCCHHHHHHHHHH QIELYSKALENITGKKVKEKYIYLFFNGNILEY HHHHHHHHHHHCCCCCEECEEEEEEECCCEECC
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