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The map label for this gene is yuaQ [H]

Identifier: 146284532

GI number: 146284532

Start: 10472

End: 15256

Strand: Direct

Name: yuaQ [H]

Synonym: Ent638_4206

Alternate gene names: 146284532

Gene position: 10472-15256 (Clockwise)

Preceding gene: 146284531

Following gene: 146284533

Centisome position: 6.64

GC content: 46.52

Gene sequence:

>4785_bases
ATGAAGTCCAGAAACAAATGTGTATTTATGTTACACGCAGAGCCAATTGTTTTAACGAAAATGAAACCGTTAAGTATTTT
AATTGCTTCATTGCTGGGAATTGCAGTATTCCCCATGTTGCCAGTTTCAAAGGTAATAGCCTCTGAATGTATGACGGCAA
ACGGAACCTCCAATGGTGCAAGCGTGTCCAGTGGTGGAACCTGTTCATTCACGTCAGGCTATACGCCCGTTATAAATGAT
AATCAGGTCGACGGAGCCAATATCAACAGTGGTGATACCATTACGATTTCTGGCTTGGGTACCGATATTATCTCTGGCGA
TCGTGGTATTCAGCAAAATAGTCTTGGAACTCTCAACTCAGCTACTAATGGGCTTGAACGTTTGTTATTGGGTTCTCGCA
CATCTGGTGTAAATACACTCGATCCGGTGACTGGATCGAATATTGTAGTTGCAACTTACGACAGTAATTCTTTCGCATCT
TCTGACTGGGGACAATATAATAATGTCGCCACGCAAACCCCAAAAAATGCAGGTGATAATCAATATATCGATGCGCGTCT
GGGTACCGTTCAAAACGGCACAATGATTGTGAGTATTGGTGATTCAGGGCAGTTGCCTTCTTCAGATGTAAACACGATTA
ACATGGCAGCAAAGCAGACCATTCTTACCCTGGCGACTGGCATCAACAGTACAATCGAATGGAACTCTAAAAACCGCGTC
CTCATGGGAGATACCATGGTCGCGGCAGCGGGAGCGACGACAAAAACAATTCAAATTGAGGTACCTGTTTATGCTGGTAC
CTTCAAGGCATATGACGGAGGTACATGGACCGTCAGTAACGCTAACGAGCTAAAAGTATATAACAATGCGTTGATCAATG
CGTTGCAGAGTGGAACTTTGTCCACTCAGGCAGCTTACGATGAGGCATTTGCGAAAGCCGTGACCTTCAGCCAGAAGGAT
ATCGACTACAACTATAGCATATATGCCGGTGATGATGTCACTGCGGATACAGGTGTAAATTATACAATGTACGCCGATGG
GGCAGGTGCAAAAGCGGTACTGAAATCCGGTGGTCAAATCGATCAACGTGGTGCGGGTGTTGCTGTGGTCAATGGCGCGA
CTGCAATAATTGAAGAAGGAGCCCAACTGTCAGGACATTTTAATTCATTATTTATAGGAAGCGGCTCAAACGGAGAAAAT
AACGGTGTTATTTCAGGTGGATATTTTGCGGAAGATGGATGGGACACTACGGGCAAAGGTAATTATTTTGATGAATATTC
AGAGGCTTATACTGTAACTGTCGATGGCGAAAATTCTCATTTCAACAATAACGGTATCATTAATGTTGCAGGTTGGACGC
AATATGAAGGGTATTCGCCTGATGCATGGGGGATTCGGGTTCAGTCTAACGCCAGTGCGACAAACAGCGGGATTATTAAC
ACTGGTGTGAATAACAATTCATTAAGTCATTCCATTTCTGCAGTCAGGGTTGCAAATGGAGGTAAAAGTCAGTTTATCAA
TACCAGTACCGGAGAGATTTATCTGGGGCATGCTGCTCAATACGACACCGCTAATCCGGAGGCTGTGGTAGATGTAGCTA
ATGCCTTGCCTCAGTACGGTATTTTACTGACAGATGGCCAGGCAACTAACGAAGGTAAAATTTTAATTGGTTCGCTTACC
GAAAACGCTGTAGGGATGGCTGCAGTGGCATCATCACCTACTGGTTCACTAATTAATAAAGGTTCTGTCCTGGTTAAGGG
GAATGCCAATAGTGCGCCGTTACAGAATGTGGGGATCCTCGCACTAAATAATGGCCAGACTCAGGTTTTAAACAGCGGGA
CAGTAACACTCTCAGGAGTAAATGGCATTGGGATGAAGATTCTGGCGACAAGCGGAACAGCAACTGCCACTTCTGATGCC
AATAGCGCGATTGTTGTTGCCGGTGGAGTTGATCCAGAAAGTGGCACCAGAAACTATGGAGTGTGGACTGAGGGGGAGAA
AGCAGCTGCGAATATCCAGGGTGATATCGAACTGTCAGGTCGTGGTGCTATTGGGGTATTGGCTCGTGATGGCGCAGCCG
TTGTAGTAGGTTCTGATTCAGCGGTTCGTTTTCATGAGGTCACCAATCCCAGCTGTACTGAGAACTGCAGTGAACAAATT
GGTTATCTCGTCTACGGCAAAAGTTCGTCAATTAATAATCAGGCGGAGCAGTTGGAAGTCTCCAGTTCGGGTTCTACGCT
GTTTCGTATCGAAGATGGTGCGACTTTTGATAGTAACGGAAAAACACTGACTGCTTCTGGTAAGAACTCAACCATTCTGG
CCGCCAGCGGTAAGGGTGCCGTTGTTACCGCAAGCTCCGGAACGTTAAACGTCAGTGGGCCGGGAGCAACAGGAGTACAT
GTCGATGGCGGTGCTACTGGGCAGATCGATGAAAAAACCAGCATTAATCTTCTCGGCCAGGGTTCCACTGCAGGTATGGT
TGACGGACGCAAAACGGGCCTTTCAGGCGTAACTGGAACAGAAGAGCTGAAGTCGTCATTGACCAATAATGCCAAGATTC
AGTCTGCAATCCAGGACGTAGTCGGATTTGTCGCACAGTATGGCGGAACTGTAGTAAACAATGGCGAAATTTCATTGAGC
AGTGATACGAACAGCACCGGGGTAATAGTGCGCGAAGGTGGTCAGCTGATCAACAACGAAGCCATTACCATCACGAAAGG
AACAGGAATTCTGGTAGATGGTGGTGCGTCGGCTTCAACGTTAACAAACCAGTCATCTATCAGTGTCCACGATGGTATAG
CAGGTATTCATCTCCAGAATGGCGCAAAGCTGAATGCCTTGGGCAGCGGCCGTATTATTACTGACGGAACGGCTGACGGT
ATTTTGTTGGGGACGGGTGCAACTGGTGCAGAACTTGGTGCAAATCTGATCACATCTCAGGGGTCGGGTAGCGGGATCCA
CAATATACAGTCAGGGACATCGATCATACTGAACGGGACAACTATTGTTTCCAGTAGTGGCTCTGCGATCCTGAACGATG
CAAATGCAACATTTGCAGGGTCGAATGTCACGCTTGACTCCAGCAGAGGGTGGGCAATCCAGAACAATCAGAACCAGGCA
GATATCCGCCTTGCAAACAGTGTTGTGTCAGGGGAAACAGGCGTATTGCTGACGAACCCCGGTGCAATTACAAATCTGGA
TGTAACATCGGGTACCCTTAATGGGCGAATTGTAACGGATAATGCAAAGGCTAACGTTACCCTTAAAGATTCCAGTATCT
GGAATATGACTGCAGATTCGAATGTAACTTCTTTGAATAACGATAAAGGATCGATTAACTATACTCACGGGGGGGCATTT
AACACTCTGACCGTAAATGGAAACTATGCTGGGAACGATGGTTTGCTTCGAATGAGCACTGCTCTTGGCGATGACAATTC
GCCTACAGATCGACTCATAGTTGAAGGTAACACATCTGGCAGCACTCTGGTATCCGTGACTAATGCGGGGGGAAGTGGGG
CCTCGACCATAAATGGAATTGAACTGATCACGGTAAAGGGTGATTCTCGGGGGGTATTCAGCCAGTCAGGCCGTGTTGTT
GCCGGAGCCTATGACTATTCTCTGGTTCGTGGCCAAGCTGAAAAAGACAAAAATTGGTATTTAACAAACTATGTAAAACC
CGTTGAGCCGACAATACCGATCGATCCTACAACGCCAGTAGACCCGACTGCCCCTGTAGACCCTGTAGAACCGACGAATC
CTGCGGTGCCGGTAACGCCAACTAAACCGTCTGAACCGGTTTTCAGACCAGAGATGGGCTCCTACAGTGCCAATCTCGCT
GCGGCAAACAATATGTTTGTGCTTCGTCTGCATGATCGCCTTGGTGAGACTCAGTACACCGACATGCTGACGGGTGAAAA
TAAGGTGACCAGTATGTGGATGAGACACGTTGGTGGACATACGAGATTTAAAGATCAGTCAGGTCAATTAAATACGCAGT
CAAACCGCTATGTTCTGCAAATAGGTGGTGACGTTACTCAGTGGAGCAATAATGGAAACGATCGTACGCACCTTGGGCTG
ATGGCGGGTTATGGTAATGAACACAGCAATACTCGCTCTCATCAGAGTCATTATCGTTCAGATGGTTCAGTTAACGGGTA
CAGCGTCGGTGCGTATGGAACCTGGTACGCGAACGACGAAGATAAGAATGGGTTGCATGTTGATAGCTGGATTCAATACA
GCTGGTTCGATAACACGGTTACAGGGGAGGATATTGACCCTGAAAAATACAAATCAAAAGGGCTTACGGCATCCTTAGAG
AGCGGGTATACATTTAGTATGGGTACCTTTAAAGGTAGTCAGGGCAGCACTAATGAATGGTATATACAGCCAAAAGCGCA
GGTTATCTGGATGGGTGTAAAGGCGGATTCACACAAAGAATCAAACGGTTCAACGGTGACGGGTGAAGGCAATGGAAACA
TTCAGACTCGTGCAGGTCTCAGGACATACATTAAAGGCCATCATAAAATGGATGATGGAAAACAGCGTGAATTTGAACCA
TTTATAGAAGCAAACTGGATCCATAATACCCGTGAGTTCGGAACAACAATGAATGGGGTTTCCAATAAGATTGACGGAAG
TCGCAACCTGGGTGAAATCAAGACCGGTGTTGAGGGTATGATTAACCCAAATCTAAACTTATGGGGCAACGTTGCCGTTC
AGGTTGGTGACAAAGGTTACAGTGACACTTCTGCCATGATTGGTGTTAAATACAGTTTCAAATAA

Upstream 100 bases:

>100_bases
TGTTTAAATGTCTAGCAATAACGAATTTCAAGAGATGGTTCGATCCTTTTCATCTGTCGTGTTGCTAAAAAATGTATCGT
AATATTCAGGAATGTTATTC

Downstream 100 bases:

>100_bases
TTGCATTAAATAATCCAACTGCATCTTAAATGCTGAATAAAGCGAAGTAAGATGCAGTTTTTTATGAAGTATATCTAGGT
TCGGCCGATAATCCTCAGGT

Product: outer membrane autotransporter

Products: NA

Alternate protein names: NA

Number of amino acids: Translated: 1594; Mature: 1594

Protein sequence:

>1594_residues
MKSRNKCVFMLHAEPIVLTKMKPLSILIASLLGIAVFPMLPVSKVIASECMTANGTSNGASVSSGGTCSFTSGYTPVIND
NQVDGANINSGDTITISGLGTDIISGDRGIQQNSLGTLNSATNGLERLLLGSRTSGVNTLDPVTGSNIVVATYDSNSFAS
SDWGQYNNVATQTPKNAGDNQYIDARLGTVQNGTMIVSIGDSGQLPSSDVNTINMAAKQTILTLATGINSTIEWNSKNRV
LMGDTMVAAAGATTKTIQIEVPVYAGTFKAYDGGTWTVSNANELKVYNNALINALQSGTLSTQAAYDEAFAKAVTFSQKD
IDYNYSIYAGDDVTADTGVNYTMYADGAGAKAVLKSGGQIDQRGAGVAVVNGATAIIEEGAQLSGHFNSLFIGSGSNGEN
NGVISGGYFAEDGWDTTGKGNYFDEYSEAYTVTVDGENSHFNNNGIINVAGWTQYEGYSPDAWGIRVQSNASATNSGIIN
TGVNNNSLSHSISAVRVANGGKSQFINTSTGEIYLGHAAQYDTANPEAVVDVANALPQYGILLTDGQATNEGKILIGSLT
ENAVGMAAVASSPTGSLINKGSVLVKGNANSAPLQNVGILALNNGQTQVLNSGTVTLSGVNGIGMKILATSGTATATSDA
NSAIVVAGGVDPESGTRNYGVWTEGEKAAANIQGDIELSGRGAIGVLARDGAAVVVGSDSAVRFHEVTNPSCTENCSEQI
GYLVYGKSSSINNQAEQLEVSSSGSTLFRIEDGATFDSNGKTLTASGKNSTILAASGKGAVVTASSGTLNVSGPGATGVH
VDGGATGQIDEKTSINLLGQGSTAGMVDGRKTGLSGVTGTEELKSSLTNNAKIQSAIQDVVGFVAQYGGTVVNNGEISLS
SDTNSTGVIVREGGQLINNEAITITKGTGILVDGGASASTLTNQSSISVHDGIAGIHLQNGAKLNALGSGRIITDGTADG
ILLGTGATGAELGANLITSQGSGSGIHNIQSGTSIILNGTTIVSSSGSAILNDANATFAGSNVTLDSSRGWAIQNNQNQA
DIRLANSVVSGETGVLLTNPGAITNLDVTSGTLNGRIVTDNAKANVTLKDSSIWNMTADSNVTSLNNDKGSINYTHGGAF
NTLTVNGNYAGNDGLLRMSTALGDDNSPTDRLIVEGNTSGSTLVSVTNAGGSGASTINGIELITVKGDSRGVFSQSGRVV
AGAYDYSLVRGQAEKDKNWYLTNYVKPVEPTIPIDPTTPVDPTAPVDPVEPTNPAVPVTPTKPSEPVFRPEMGSYSANLA
AANNMFVLRLHDRLGETQYTDMLTGENKVTSMWMRHVGGHTRFKDQSGQLNTQSNRYVLQIGGDVTQWSNNGNDRTHLGL
MAGYGNEHSNTRSHQSHYRSDGSVNGYSVGAYGTWYANDEDKNGLHVDSWIQYSWFDNTVTGEDIDPEKYKSKGLTASLE
SGYTFSMGTFKGSQGSTNEWYIQPKAQVIWMGVKADSHKESNGSTVTGEGNGNIQTRAGLRTYIKGHHKMDDGKQREFEP
FIEANWIHNTREFGTTMNGVSNKIDGSRNLGEIKTGVEGMINPNLNLWGNVAVQVGDKGYSDTSAMIGVKYSFK

Sequences:

>Translated_1594_residues
MKSRNKCVFMLHAEPIVLTKMKPLSILIASLLGIAVFPMLPVSKVIASECMTANGTSNGASVSSGGTCSFTSGYTPVIND
NQVDGANINSGDTITISGLGTDIISGDRGIQQNSLGTLNSATNGLERLLLGSRTSGVNTLDPVTGSNIVVATYDSNSFAS
SDWGQYNNVATQTPKNAGDNQYIDARLGTVQNGTMIVSIGDSGQLPSSDVNTINMAAKQTILTLATGINSTIEWNSKNRV
LMGDTMVAAAGATTKTIQIEVPVYAGTFKAYDGGTWTVSNANELKVYNNALINALQSGTLSTQAAYDEAFAKAVTFSQKD
IDYNYSIYAGDDVTADTGVNYTMYADGAGAKAVLKSGGQIDQRGAGVAVVNGATAIIEEGAQLSGHFNSLFIGSGSNGEN
NGVISGGYFAEDGWDTTGKGNYFDEYSEAYTVTVDGENSHFNNNGIINVAGWTQYEGYSPDAWGIRVQSNASATNSGIIN
TGVNNNSLSHSISAVRVANGGKSQFINTSTGEIYLGHAAQYDTANPEAVVDVANALPQYGILLTDGQATNEGKILIGSLT
ENAVGMAAVASSPTGSLINKGSVLVKGNANSAPLQNVGILALNNGQTQVLNSGTVTLSGVNGIGMKILATSGTATATSDA
NSAIVVAGGVDPESGTRNYGVWTEGEKAAANIQGDIELSGRGAIGVLARDGAAVVVGSDSAVRFHEVTNPSCTENCSEQI
GYLVYGKSSSINNQAEQLEVSSSGSTLFRIEDGATFDSNGKTLTASGKNSTILAASGKGAVVTASSGTLNVSGPGATGVH
VDGGATGQIDEKTSINLLGQGSTAGMVDGRKTGLSGVTGTEELKSSLTNNAKIQSAIQDVVGFVAQYGGTVVNNGEISLS
SDTNSTGVIVREGGQLINNEAITITKGTGILVDGGASASTLTNQSSISVHDGIAGIHLQNGAKLNALGSGRIITDGTADG
ILLGTGATGAELGANLITSQGSGSGIHNIQSGTSIILNGTTIVSSSGSAILNDANATFAGSNVTLDSSRGWAIQNNQNQA
DIRLANSVVSGETGVLLTNPGAITNLDVTSGTLNGRIVTDNAKANVTLKDSSIWNMTADSNVTSLNNDKGSINYTHGGAF
NTLTVNGNYAGNDGLLRMSTALGDDNSPTDRLIVEGNTSGSTLVSVTNAGGSGASTINGIELITVKGDSRGVFSQSGRVV
AGAYDYSLVRGQAEKDKNWYLTNYVKPVEPTIPIDPTTPVDPTAPVDPVEPTNPAVPVTPTKPSEPVFRPEMGSYSANLA
AANNMFVLRLHDRLGETQYTDMLTGENKVTSMWMRHVGGHTRFKDQSGQLNTQSNRYVLQIGGDVTQWSNNGNDRTHLGL
MAGYGNEHSNTRSHQSHYRSDGSVNGYSVGAYGTWYANDEDKNGLHVDSWIQYSWFDNTVTGEDIDPEKYKSKGLTASLE
SGYTFSMGTFKGSQGSTNEWYIQPKAQVIWMGVKADSHKESNGSTVTGEGNGNIQTRAGLRTYIKGHHKMDDGKQREFEP
FIEANWIHNTREFGTTMNGVSNKIDGSRNLGEIKTGVEGMINPNLNLWGNVAVQVGDKGYSDTSAMIGVKYSFK
>Mature_1594_residues
MKSRNKCVFMLHAEPIVLTKMKPLSILIASLLGIAVFPMLPVSKVIASECMTANGTSNGASVSSGGTCSFTSGYTPVIND
NQVDGANINSGDTITISGLGTDIISGDRGIQQNSLGTLNSATNGLERLLLGSRTSGVNTLDPVTGSNIVVATYDSNSFAS
SDWGQYNNVATQTPKNAGDNQYIDARLGTVQNGTMIVSIGDSGQLPSSDVNTINMAAKQTILTLATGINSTIEWNSKNRV
LMGDTMVAAAGATTKTIQIEVPVYAGTFKAYDGGTWTVSNANELKVYNNALINALQSGTLSTQAAYDEAFAKAVTFSQKD
IDYNYSIYAGDDVTADTGVNYTMYADGAGAKAVLKSGGQIDQRGAGVAVVNGATAIIEEGAQLSGHFNSLFIGSGSNGEN
NGVISGGYFAEDGWDTTGKGNYFDEYSEAYTVTVDGENSHFNNNGIINVAGWTQYEGYSPDAWGIRVQSNASATNSGIIN
TGVNNNSLSHSISAVRVANGGKSQFINTSTGEIYLGHAAQYDTANPEAVVDVANALPQYGILLTDGQATNEGKILIGSLT
ENAVGMAAVASSPTGSLINKGSVLVKGNANSAPLQNVGILALNNGQTQVLNSGTVTLSGVNGIGMKILATSGTATATSDA
NSAIVVAGGVDPESGTRNYGVWTEGEKAAANIQGDIELSGRGAIGVLARDGAAVVVGSDSAVRFHEVTNPSCTENCSEQI
GYLVYGKSSSINNQAEQLEVSSSGSTLFRIEDGATFDSNGKTLTASGKNSTILAASGKGAVVTASSGTLNVSGPGATGVH
VDGGATGQIDEKTSINLLGQGSTAGMVDGRKTGLSGVTGTEELKSSLTNNAKIQSAIQDVVGFVAQYGGTVVNNGEISLS
SDTNSTGVIVREGGQLINNEAITITKGTGILVDGGASASTLTNQSSISVHDGIAGIHLQNGAKLNALGSGRIITDGTADG
ILLGTGATGAELGANLITSQGSGSGIHNIQSGTSIILNGTTIVSSSGSAILNDANATFAGSNVTLDSSRGWAIQNNQNQA
DIRLANSVVSGETGVLLTNPGAITNLDVTSGTLNGRIVTDNAKANVTLKDSSIWNMTADSNVTSLNNDKGSINYTHGGAF
NTLTVNGNYAGNDGLLRMSTALGDDNSPTDRLIVEGNTSGSTLVSVTNAGGSGASTINGIELITVKGDSRGVFSQSGRVV
AGAYDYSLVRGQAEKDKNWYLTNYVKPVEPTIPIDPTTPVDPTAPVDPVEPTNPAVPVTPTKPSEPVFRPEMGSYSANLA
AANNMFVLRLHDRLGETQYTDMLTGENKVTSMWMRHVGGHTRFKDQSGQLNTQSNRYVLQIGGDVTQWSNNGNDRTHLGL
MAGYGNEHSNTRSHQSHYRSDGSVNGYSVGAYGTWYANDEDKNGLHVDSWIQYSWFDNTVTGEDIDPEKYKSKGLTASLE
SGYTFSMGTFKGSQGSTNEWYIQPKAQVIWMGVKADSHKESNGSTVTGEGNGNIQTRAGLRTYIKGHHKMDDGKQREFEP
FIEANWIHNTREFGTTMNGVSNKIDGSRNLGEIKTGVEGMINPNLNLWGNVAVQVGDKGYSDTSAMIGVKYSFK

Specific function: Unknown

COG id: COG3468

COG function: function code MU; Type V secretory pathway, adhesin AidA

Gene ontology:

Cell location: Cell outer membrane; Peripheral membrane protein (Potential) [H]

Metaboloic importance: Non Essential [C]

Operon status: Not Known

Operon components: None

Similarity: Contains 1 autotransporter (TC 1.B.12) domain [H]

Homologues:

Organism=Escherichia coli, GI1788565, Length=568, Percent_Identity=30.2816901408451, Blast_Score=198, Evalue=3e-51,
Organism=Escherichia coli, GI48994897, Length=716, Percent_Identity=25.1396648044693, Blast_Score=72, Evalue=2e-13,

Paralogues:

None

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR005546
- InterPro:   IPR013425
- InterPro:   IPR006315
- InterPro:   IPR012332
- InterPro:   IPR011050
- InterPro:   IPR004899 [H]

Pfam domain/function: PF03797 Autotransporter; PF03212 Pertactin [H]

EC number: NA

Molecular weight: Translated: 165515; Mature: 165515

Theoretical pI: Translated: 4.72; Mature: 4.72

Prosite motif: NA

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

0.3 %Cys     (Translated Protein)
1.7 %Met     (Translated Protein)
2.0 %Cys+Met (Translated Protein)
0.3 %Cys     (Mature Protein)
1.7 %Met     (Mature Protein)
2.0 %Cys+Met (Mature Protein)

Secondary structure:

>Translated Secondary Structure
MKSRNKCVFMLHAEPIVLTKMKPLSILIASLLGIAVFPMLPVSKVIASECMTANGTSNGA
CCCCCCEEEEEECCCEEEEECCHHHHHHHHHHHHHHHHHCCHHHHHHHHHHCCCCCCCCC
SVSSGGTCSFTSGYTPVINDNQVDGANINSGDTITISGLGTDIISGDRGIQQNSLGTLNS
CCCCCCEEEECCCCCCCCCCCCCCCCCCCCCCEEEEEECCCCEECCCCCCCCCCCCCCHH
ATNGLERLLLGSRTSGVNTLDPVTGSNIVVATYDSNSFASSDWGQYNNVATQTPKNAGDN
HHHHHHHHHHCCCCCCCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCC
QYIDARLGTVQNGTMIVSIGDSGQLPSSDVNTINMAAKQTILTLATGINSTIEWNSKNRV
CEEEEECCEECCCEEEEEECCCCCCCCCCCCEEHHHHHHEEEEEECCCCCEEEECCCCEE
LMGDTMVAAAGATTKTIQIEVPVYAGTFKAYDGGTWTVSNANELKVYNNALINALQSGTL
EECCCEEEECCCCEEEEEEEEEEEECEEEEECCCEEEECCCCEEEEHHHHHHHHHHCCCC
STQAAYDEAFAKAVTFSQKDIDYNYSIYAGDDVTADTGVNYTMYADGAGAKAVLKSGGQI
CHHHHHHHHHHHHHEECCCCCCEEEEEEECCCCCCCCCCCEEEEECCCCHHHHHHCCCCC
DQRGAGVAVVNGATAIIEEGAQLSGHFNSLFIGSGSNGENNGVISGGYFAEDGWDTTGKG
CCCCCCEEEECCCEEEECCCCCCCCCCEEEEEECCCCCCCCCEEECCEEECCCCCCCCCC
NYFDEYSEAYTVTVDGENSHFNNNGIINVAGWTQYEGYSPDAWGIRVQSNASATNSGIIN
CCCCCCCCEEEEEECCCCCEECCCCEEEECCCCCCCCCCCCCEEEEEECCCCCCCCCEEE
TGVNNNSLSHSISAVRVANGGKSQFINTSTGEIYLGHAAQYDTANPEAVVDVANALPQYG
CCCCCCCCCCCEEEEEEECCCCCCEEECCCCEEEECCCCCCCCCCCHHHHHHHHCCCCCC
ILLTDGQATNEGKILIGSLTENAVGMAAVASSPTGSLINKGSVLVKGNANSAPLQNVGIL
EEEECCCCCCCCEEEEEECCCCCCEEEEEECCCCCCCCCCCCEEEECCCCCCCCCCCCEE
ALNNGQTQVLNSGTVTLSGVNGIGMKILATSGTATATSDANSAIVVAGGVDPESGTRNYG
EECCCCEEEEECCEEEEECCCCCCEEEEEECCCCEECCCCCCEEEEEECCCCCCCCCCCC
VWTEGEKAAANIQGDIELSGRGAIGVLARDGAAVVVGSDSAVRFHEVTNPSCTENCSEQI
EEECCCCEEECCEEEEEECCCCEEEEEEECCCEEEEECCCCEEEEECCCCCHHHHHHHHC
GYLVYGKSSSINNQAEQLEVSSSGSTLFRIEDGATFDSNGKTLTASGKNSTILAASGKGA
CEEEEECCCCCCCCHHEEEEECCCCEEEEEECCCEECCCCCEEEECCCCCEEEEECCCCE
VVTASSGTLNVSGPGATGVHVDGGATGQIDEKTSINLLGQGSTAGMVDGRKTGLSGVTGT
EEEECCCEEEECCCCCCEEEECCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCCCCCCH
EELKSSLTNNAKIQSAIQDVVGFVAQYGGTVVNNGEISLSSDTNSTGVIVREGGQLINNE
HHHHHHHCCCHHHHHHHHHHHHHHHHHCCEEEECCEEEECCCCCCCEEEEECCCEEECCC
AITITKGTGILVDGGASASTLTNQSSISVHDGIAGIHLQNGAKLNALGSGRIITDGTADG
EEEEECCCEEEEECCCCCCEECCCCCEEEECCEEEEEECCCCEEEEECCCEEEECCCCCC
ILLGTGATGAELGANLITSQGSGSGIHNIQSGTSIILNGTTIVSSSGSAILNDANATFAG
EEEECCCCCHHHCCEEEECCCCCCCCCCCCCCCEEEEECEEEEECCCCEEEECCCCEEEC
SNVTLDSSRGWAIQNNQNQADIRLANSVVSGETGVLLTNPGAITNLDVTSGTLNGRIVTD
CEEEEECCCCEEEECCCCCCEEEEEEHEECCCCCEEEECCCCEEEEEEECCCCCCEEEEC
NAKANVTLKDSSIWNMTADSNVTSLNNDKGSINYTHGGAFNTLTVNGNYAGNDGLLRMST
CCEEEEEEECCCEEEEECCCCCEECCCCCCEEEEECCCCEEEEEECCCCCCCCCEEEEEE
ALGDDNSPTDRLIVEGNTSGSTLVSVTNAGGSGASTINGIELITVKGDSRGVFSQSGRVV
ECCCCCCCCCEEEEECCCCCCEEEEEECCCCCCCCEECCEEEEEEECCCCCCCCCCCCEE
AGAYDYSLVRGQAEKDKNWYLTNYVKPVEPTIPIDPTTPVDPTAPVDPVEPTNPAVPVTP
EEEECEEEEECCCCCCCCEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEECCC
TKPSEPVFRPEMGSYSANLAAANNMFVLRLHDRLGETQYTDMLTGENKVTSMWMRHVGGH
CCCCCCCCCCCCCCCCEEEEECCCEEEEEEHHHCCCCEEHHEECCCCHHHHHHHHHCCCC
TRFKDQSGQLNTQSNRYVLQIGGDVTQWSNNGNDRTHLGLMAGYGNEHSNTRSHQSHYRS
CEECCCCCCCCCCCCEEEEEECCCEEECCCCCCCCEEEEEEECCCCCCCCCCCHHHHHCC
DGSVNGYSVGAYGTWYANDEDKNGLHVDSWIQYSWFDNTVTGEDIDPEKYKSKGLTASLE
CCCCCCEEECCEEEEECCCCCCCCEEECCEEEEEEECCCCCCCCCCHHHHHHCCCEEEEC
SGYTFSMGTFKGSQGSTNEWYIQPKAQVIWMGVKADSHKESNGSTVTGEGNGNIQTRAGL
CCEEEEEEEEECCCCCCCEEEECCCCEEEEEEEECCCCCCCCCCEEEECCCCCEEECCCH
RTYIKGHHKMDDGKQREFEPFIEANWIHNTREFGTTMNGVSNKIDGSRNLGEIKTGVEGM
HHHHCCCCCCCCCCCCCCCCCEEEEECCCCHHHCCHHCCCCCCCCCCCCCCHHHCCCCEE
INPNLNLWGNVAVQVGDKGYSDTSAMIGVKYSFK
ECCCCEEEEEEEEEECCCCCCCCCEEEEEEEECC
>Mature Secondary Structure
MKSRNKCVFMLHAEPIVLTKMKPLSILIASLLGIAVFPMLPVSKVIASECMTANGTSNGA
CCCCCCEEEEEECCCEEEEECCHHHHHHHHHHHHHHHHHCCHHHHHHHHHHCCCCCCCCC
SVSSGGTCSFTSGYTPVINDNQVDGANINSGDTITISGLGTDIISGDRGIQQNSLGTLNS
CCCCCCEEEECCCCCCCCCCCCCCCCCCCCCCEEEEEECCCCEECCCCCCCCCCCCCCHH
ATNGLERLLLGSRTSGVNTLDPVTGSNIVVATYDSNSFASSDWGQYNNVATQTPKNAGDN
HHHHHHHHHHCCCCCCCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCC
QYIDARLGTVQNGTMIVSIGDSGQLPSSDVNTINMAAKQTILTLATGINSTIEWNSKNRV
CEEEEECCEECCCEEEEEECCCCCCCCCCCCEEHHHHHHEEEEEECCCCCEEEECCCCEE
LMGDTMVAAAGATTKTIQIEVPVYAGTFKAYDGGTWTVSNANELKVYNNALINALQSGTL
EECCCEEEECCCCEEEEEEEEEEEECEEEEECCCEEEECCCCEEEEHHHHHHHHHHCCCC
STQAAYDEAFAKAVTFSQKDIDYNYSIYAGDDVTADTGVNYTMYADGAGAKAVLKSGGQI
CHHHHHHHHHHHHHEECCCCCCEEEEEEECCCCCCCCCCCEEEEECCCCHHHHHHCCCCC
DQRGAGVAVVNGATAIIEEGAQLSGHFNSLFIGSGSNGENNGVISGGYFAEDGWDTTGKG
CCCCCCEEEECCCEEEECCCCCCCCCCEEEEEECCCCCCCCCEEECCEEECCCCCCCCCC
NYFDEYSEAYTVTVDGENSHFNNNGIINVAGWTQYEGYSPDAWGIRVQSNASATNSGIIN
CCCCCCCCEEEEEECCCCCEECCCCEEEECCCCCCCCCCCCCEEEEEECCCCCCCCCEEE
TGVNNNSLSHSISAVRVANGGKSQFINTSTGEIYLGHAAQYDTANPEAVVDVANALPQYG
CCCCCCCCCCCEEEEEEECCCCCCEEECCCCEEEECCCCCCCCCCCHHHHHHHHCCCCCC
ILLTDGQATNEGKILIGSLTENAVGMAAVASSPTGSLINKGSVLVKGNANSAPLQNVGIL
EEEECCCCCCCCEEEEEECCCCCCEEEEEECCCCCCCCCCCCEEEECCCCCCCCCCCCEE
ALNNGQTQVLNSGTVTLSGVNGIGMKILATSGTATATSDANSAIVVAGGVDPESGTRNYG
EECCCCEEEEECCEEEEECCCCCCEEEEEECCCCEECCCCCCEEEEEECCCCCCCCCCCC
VWTEGEKAAANIQGDIELSGRGAIGVLARDGAAVVVGSDSAVRFHEVTNPSCTENCSEQI
EEECCCCEEECCEEEEEECCCCEEEEEEECCCEEEEECCCCEEEEECCCCCHHHHHHHHC
GYLVYGKSSSINNQAEQLEVSSSGSTLFRIEDGATFDSNGKTLTASGKNSTILAASGKGA
CEEEEECCCCCCCCHHEEEEECCCCEEEEEECCCEECCCCCEEEECCCCCEEEEECCCCE
VVTASSGTLNVSGPGATGVHVDGGATGQIDEKTSINLLGQGSTAGMVDGRKTGLSGVTGT
EEEECCCEEEECCCCCCEEEECCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCCCCCCH
EELKSSLTNNAKIQSAIQDVVGFVAQYGGTVVNNGEISLSSDTNSTGVIVREGGQLINNE
HHHHHHHCCCHHHHHHHHHHHHHHHHHCCEEEECCEEEECCCCCCCEEEEECCCEEECCC
AITITKGTGILVDGGASASTLTNQSSISVHDGIAGIHLQNGAKLNALGSGRIITDGTADG
EEEEECCCEEEEECCCCCCEECCCCCEEEECCEEEEEECCCCEEEEECCCEEEECCCCCC
ILLGTGATGAELGANLITSQGSGSGIHNIQSGTSIILNGTTIVSSSGSAILNDANATFAG
EEEECCCCCHHHCCEEEECCCCCCCCCCCCCCCEEEEECEEEEECCCCEEEECCCCEEEC
SNVTLDSSRGWAIQNNQNQADIRLANSVVSGETGVLLTNPGAITNLDVTSGTLNGRIVTD
CEEEEECCCCEEEECCCCCCEEEEEEHEECCCCCEEEECCCCEEEEEEECCCCCCEEEEC
NAKANVTLKDSSIWNMTADSNVTSLNNDKGSINYTHGGAFNTLTVNGNYAGNDGLLRMST
CCEEEEEEECCCEEEEECCCCCEECCCCCCEEEEECCCCEEEEEECCCCCCCCCEEEEEE
ALGDDNSPTDRLIVEGNTSGSTLVSVTNAGGSGASTINGIELITVKGDSRGVFSQSGRVV
ECCCCCCCCCEEEEECCCCCCEEEEEECCCCCCCCEECCEEEEEEECCCCCCCCCCCCEE
AGAYDYSLVRGQAEKDKNWYLTNYVKPVEPTIPIDPTTPVDPTAPVDPVEPTNPAVPVTP
EEEECEEEEECCCCCCCCEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEECCC
TKPSEPVFRPEMGSYSANLAAANNMFVLRLHDRLGETQYTDMLTGENKVTSMWMRHVGGH
CCCCCCCCCCCCCCCCEEEEECCCEEEEEEHHHCCCCEEHHEECCCCHHHHHHHHHCCCC
TRFKDQSGQLNTQSNRYVLQIGGDVTQWSNNGNDRTHLGLMAGYGNEHSNTRSHQSHYRS
CEECCCCCCCCCCCCEEEEEECCCEEECCCCCCCCEEEEEEECCCCCCCCCCCHHHHHCC
DGSVNGYSVGAYGTWYANDEDKNGLHVDSWIQYSWFDNTVTGEDIDPEKYKSKGLTASLE
CCCCCCEEECCEEEEECCCCCCCCEEECCEEEEEEECCCCCCCCCCHHHHHHCCCEEEEC
SGYTFSMGTFKGSQGSTNEWYIQPKAQVIWMGVKADSHKESNGSTVTGEGNGNIQTRAGL
CCEEEEEEEEECCCCCCCEEEECCCCEEEEEEEECCCCCCCCCCEEEECCCCCEEECCCH
RTYIKGHHKMDDGKQREFEPFIEANWIHNTREFGTTMNGVSNKIDGSRNLGEIKTGVEGM
HHHHCCCCCCCCCCCCCCCCCEEEEECCCCHHHCCHHCCCCCCCCCCCCCCHHHCCCCEE
INPNLNLWGNVAVQVGDKGYSDTSAMIGVKYSFK
ECCCCEEEEEEEEEECCCCCCCCCEEEEEEEECC

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: 6.0

TargetDB status: NA

Availability: NA

References: NA