| Definition | Rhodoferax ferrireducens T118 plasmid1, complete sequence. |
|---|---|
| Accession | NC_007901 |
| Length | 257,447 |
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The map label for this gene is 89885781
Identifier: 89885781
GI number: 89885781
Start: 56369
End: 61549
Strand: Reverse
Name: 89885781
Synonym: Rfer_4295
Alternate gene names: NA
Gene position: 61549-56369 (Counterclockwise)
Preceding gene: 89885783
Following gene: 89885780
Centisome position: 23.91
GC content: 53.97
Gene sequence:
>5181_bases ATGACACAAACCAACTTATGGCTTCCCGGCTTTGAATTCGCCGATGCCCTTTTTGGGCTCACGCCAATTCAGACCGAAGT TCCCATCGAGCCCGTCTCGATTACTCAACAAGAGCCGCAGAGTACCGAAATTCAAGAGGTCCCCTGTTTCGATGCGTCCT CAACCGAAGACACATTAACCCAAGCAGAATCATTGCCTGAAAATGCTGCACCTTCCCTCGTCATGGCCCAACCGGCCACA GCGCAGGATGTTGGTCTAAGCGAGCCACCCTGGCCCTTGCTGGCCAAAGACGTACATGAAGACCTACGTGGTCAAGTGAC AAAATTCGACGCCAACGTTGAAGCCATTGAGCTCCTTCGGGTGCTCGAAGCCGAGATGACGCCGCCCACCCTCGCGCAGC GTCAGACACTCAACCGTTACACCGGCTGGGGCGGGATCAAACATCCCTTTGATAGCCCATATCATCTGGCCCAGGAGTGG GTCAACCGCGCCAAACAACTCAAGTCACTTCTCAGCGAAGACGAGTTCGAAAGCGCAAAGGAGAGCACGCTCAACGCGCA CTTCACGCCCATTCCTGTCATCGACCAACTCTGGACGATACTTCGCCAAATCGGCTTTACCGGTGGGCGGATTATTGAAC CTGCCGGCGGCATAGGTTTTATGCTTGGCGCAATGCCAAGCGACATCGCGCAGCGCTCCAGCGTAACGGCGGTAGAAATT GACGATCTGAGTGCTCGTTTCCTGAAAGTGCTCTACGGTAGTCATGCCAATGTGCTGCACATGGGCTTTGAAAAGACGAA CCTGCCAGAGCAGTATTTCGATCTGGTCATAGGCAACGTTCCTTTTGGGAATTACAGCGTCGGAGATCTTCGCCGTAAGA CTTATTCAGACTGGGCTATTCACAATTACTTTGTGGGACGTTCGCTGGATTTGGTCCGTCCCGGTGGCCTCGTTGCTGTG ATCACGTCGGCGTACTTCATGGACAACAGCAATGACAAAGTTCGCGACGTAATTGCCAGAAAGGCCAAGCTGCTCGGAGC AATCCGTTTGCCAGCAGGCACGTTCTCAGAAATTGCTAACACTGACGTGGTGGCCGATCTGGTCATCCTCCAAAAGAGAT CATCCACGGAAACTCTCACGCGCGAGGAGCGGGAGAACTGGGTAGAGACCACATTGTTGCTGGACGAAGACGGCACAAAA ATGCGAGTAGGCAACTACACCCAAGGACAGAATGTCAACAGCTACTGGATGAAAAACCCACAAGCTGTTGTTGGCGTCTG GACTGAAATCAGCAGGAATCAGGGACAGTCAATTGTTCCAAAGCTTCCCAAGGGCGCCGATCTCATGGTTGAAATGGAGC GCGCGTCCAAGGTCATTCCGCAAGGGGTCTATGCCCCTGCAACGCAGCAAGTCAAGGAAGTCTTGCTGGCAGTCGCTGAC GGTTCGAACGCGGTACTGCCGGGGTCGTATGTGATCGAAGGTGGTGACATCTACCGATTCAATGGACACAGCCTTGAAAA GACCGGGGTCAAAGGCAAGAAAGCCGAACGCATCGCTGGGATGGCGCTCATTCGCGATACAGCGCAGGCCCTGATCAAGG AACAATGCAAGTCAGACGCCGCCGAATCCGTAATGTCAACCTTGCGCTTTCAACTCAACGTGCGCTATGACAGCTTCATC GCGAAGCACGGGTTCATCTCTACCAAGGGAAACCGTCAGGCGATGGGATCTGACCCAACCTGGCCCCTGTTGCTCTCCCT TGAGATGTACAACCTCGAAGAAGAAACGGCCAGCAAGGCAGATATATTTTTCGAGAGAACGATCTTCTCCACAGCGATAC CAAAGTCAGCCGACAACGCCGAGGATGCACTGGCGATCTGCGTGGCCGAGTTAGGCTGCATTGACGTTGACTTTATCGGC CAATTACTGGCTGCCGATGGCAAACGGGCTCTCGACGGACTGGCTGCCATCGGCGCAGTGTTCGTCGATCCGATGACCAT GGCGTATCAGACGGCGACAGAGTATTTGTCGGGCAACGTCCGCGACAAACTCGTGATTGCGCAATCCGCCGGACTGGCCT TTGACAGAAATGTCCGCGCGCTGGAAGAAAGTCTGCCCCCCGATCTCAACCCAACTGACATCGATGTCATACCGGGAGCG GCGTGGATTCCAATCGATGTGACCGAGGCGTTCCTCAGAGAACTGGTTGCGGAAGAATGGAAGGGATCGAACTGGGCAAG CGTCAACATCGGCTATGAGTTGACCACTGGCACATGGAGTGTCAAGTCCAGTGGGCCCACGGGAACCGCCATGTGCGTCA CCTGGGGCACTTCACGGATAAACGGGTTTGCACTGTTTGAAAAGTGCATGAATCAGATTGACGCGGAGGTCTTCGATAGC TTTGGTGACAGCCCTGTTCTGAATGCGTCCGAAACGGCGCAAGCAAGGATGAAGCAAGATGAACTCCGTGCCGAATACGC ACGGTGGATTTGGTCCGACGACGACCGCGCCAAGCAATTGTGCCGGCTGTACAACGACAAGTACAACTGCTGGGCGATAC GCAAGTATGACGGTTCAAACCTACGACTGCCAGGATACAGCCAGTCGCTGGCACTGCGTCAATTCCAGCTCAACGCGATT GCACGAATAGCCACTGGATGCAACACGCTGCTGGCGCACGTTGTCGGCGCAGGAAAGACCATCACCATGGTCTGTGGCTC CATGGAGCTACGCCGACTGGGAATTGCCAAGAAGCCATTTCATGTGGTTCCCAACCACTGCCTGGAGCAGTATTGCGCCG AGTTCATGCGGGCTTACCCAAATGCATCGGTGCTGATGGCAACAAAAGCAGACTTCGAGAAAGACAAGCGACAGACCTTT GTGGCCAAGTGCGCAACGGGCAACTGGGACGCAGTGGTGCTCACGCACTCCATGTTCGAGCGGATCGCCGCAGATCAAGT GATTGTTGAGGACTACCTCAAACGCATACTGAGCGAATTGCGCGCTGCCAAAGATGCCGGAGCGTTGGACCGTACGGCAG CTCGCGCTGTCAATAAGTTCATAAAAGATTGGGAAGCCCGGCTTGAAAAGCTCCAGGCCAGCTGGAAAAAAGACCAGCTT ATCTCCTTGTCGGAAACGGGCTGCGATTGGGTGTTCTTCGATGAGTGCCATGTCGCGAAAAATCTGTTCCGGATTTCGAG CATGAAAAACATAGCCGGCTTGAGCAACAGCAATAGCCAGCGATCATTCGATTTGTTGCTCAAATGCGTTCAGCTCATGA GGCTGCACGGCGACCGCGAGCGAGGCCTTTGCTTTGCTTCCGGCACGGTCATAAGCAACACCATGGCTGAACTCCATGTA GCGCAGCGCTACTTGCAACCGTATGCGCTGGAGAAGGCAGGTCTCGAGAAATTTGATGCTTGGGCCGCGCAATTCGGCCG GGCTGTGAGCTCGATGGAAGTCAGCCCCGACGGATCTAGCTTCCGGCTCAATAAGCGATTTAAGCAATTTGTGAATATGC CGGAACTGATGGGTCTTTTCAGGCAAGTTGCTGATATTCAGACCAAGGAAATGCTCGACTTGCCAGTTCCAAAACTGGTG ACCGGGTCCTACCAGATATGTGCCGTTGAGCCTTCAAATGAGGTCAAAGAGTACGTCGCAGACTTGGTGGAGCGTGTTGA GGCCATTCGTGACAGGCAGGTCAAGCCCGCAGAGGACAACATGCTGGCGATTACAGGAGACGGACAGAAAGTTGCTTTGG ACATGCGTCTGATACGCCCCAGAACACCATTCGATCCGAAAGGAAAGGTGGCCATGTGCATAGACAACGTCTACCGCATT TGGGAGATGACTGCGAGCTTTAAGGGGGCACAAATCATATTTTCGGATATGGGAACTCCCACTGGACACTCGCTCAATCT GTATGAGGACATGCGGACCAGGTTGGTGGCCAAAGGTATTCCACACCACGAGATCGCGTTCATTCACGAAGCGCAAACAC ACCACGCCAAGTCAGCGTTGTTTGCCAAGGTTCGGGCCGGTACGATTCGCGTACTGATTGGCTCAACGTCAAAGTGCGGG ATGGGTACCAATGTGCAGACCCGGCTGTATGCCGTTCATCACCTGACTACCCCTTGGCGGCCTTCGGATTTGCAGCAAAG AGACGGAAGAATTGAGCGCCAGGGCAACACCTGCGAGGCTATCGAGATATGGAGGTACGTGACTTCCGGGACCTTTGATG CCTACATGTGGCAGACGTTGACAGCGAAAGCGGGCTTCATTGCCCAGGTCCTATCGGGTAACGCTGAGGTTCGTTCTGTT GAAGACGCCATGATGGCGACCTTGTCGTATGACGAGGTCAAGGCCATTGCGTGTGGCAACCCCGCTGTGCGAGAAAAGGC AACCATAGACGCCGAGATAATGGGCTTATCGCTCAAATTGAAGCATCACCGGGACAGTGTGTGGAATTCAAAAGAAGAAC TCTGGCGCTTACCGATCAAGATTGCTGAACACAAGCGTCAGGCAGTCGAGTATGCGAAATTCCACGAGCAAGTTCTGGCC TCAGACGGGCAAGGTCGAGGCTTCGGGATGGTCGTCAATGGCAAGAAGTTTTCCGATCCTGAAAAGATCGAGAAGATCAT CACCCTGAGCATCAGGGAGCTGAAGGAACTCCAAAAGGCAGGGTTGATCTCGGAAGAGAGGTTGATTGGAACGCTTTGCG GAGTGGACATCTTCTATGGTCGCAGTTATGGTGATTTCAAAATAACAGCCCGCAGCAGCAACGGTGGGGCCAGCATCGAC ATTGGCACGTACTCCACCGGGGATTCTGTCATCCGCAAGCTCGGTGAGATTGAACAGCGTTTATTGGCTGTTGTGCAAGA CAACGAAAATCGCGCGAATTACCTGACTCAGCAGTTGCCTATTCTGGAGCGCATTGCGCAAAGTGAATTTGCAGACACAG GGAAGCTTGAATCGCTGCGGGCCCGTTCCAAAGAAATAGCCATTGAATTGGGTTTGCTCAAGGCGATGGCGGGAACCGAT GGACAGGCTGACGGAACCGAGATCAGTTCGGAACTTGCCGCAACACTCGCGGGGGAAGACGAATCTACACAGGACGGCAC GGAAGCGTCCGAAGAAAACGAAGAGCACGACGAATGTCTGCTCACAGAAGCCTTCTGCTAA
Upstream 100 bases:
>100_bases TCGTCGTCGCTACACGCGACGGCATTTCATGAAATGTCAAACCCTATCGGGACGCCTTCCCGACGGGGATTGGTGCGTCT CCGATTCATTGGAGCAATCA
Downstream 100 bases:
>100_bases AACTATCAATGTAAAACGCCCCAACACACTCTCGAAGTGTGTTGGGGCGTTTTTTTTCGTCCGCACTTTATTCGGATGGG CCAGCCGGCATAGTTAAGCA
Product: helicase-like
Products: NA
Alternate protein names: None
Number of amino acids: Translated: 1726; Mature: 1725
Protein sequence:
>1726_residues MTQTNLWLPGFEFADALFGLTPIQTEVPIEPVSITQQEPQSTEIQEVPCFDASSTEDTLTQAESLPENAAPSLVMAQPAT AQDVGLSEPPWPLLAKDVHEDLRGQVTKFDANVEAIELLRVLEAEMTPPTLAQRQTLNRYTGWGGIKHPFDSPYHLAQEW VNRAKQLKSLLSEDEFESAKESTLNAHFTPIPVIDQLWTILRQIGFTGGRIIEPAGGIGFMLGAMPSDIAQRSSVTAVEI DDLSARFLKVLYGSHANVLHMGFEKTNLPEQYFDLVIGNVPFGNYSVGDLRRKTYSDWAIHNYFVGRSLDLVRPGGLVAV ITSAYFMDNSNDKVRDVIARKAKLLGAIRLPAGTFSEIANTDVVADLVILQKRSSTETLTREERENWVETTLLLDEDGTK MRVGNYTQGQNVNSYWMKNPQAVVGVWTEISRNQGQSIVPKLPKGADLMVEMERASKVIPQGVYAPATQQVKEVLLAVAD GSNAVLPGSYVIEGGDIYRFNGHSLEKTGVKGKKAERIAGMALIRDTAQALIKEQCKSDAAESVMSTLRFQLNVRYDSFI AKHGFISTKGNRQAMGSDPTWPLLLSLEMYNLEEETASKADIFFERTIFSTAIPKSADNAEDALAICVAELGCIDVDFIG QLLAADGKRALDGLAAIGAVFVDPMTMAYQTATEYLSGNVRDKLVIAQSAGLAFDRNVRALEESLPPDLNPTDIDVIPGA AWIPIDVTEAFLRELVAEEWKGSNWASVNIGYELTTGTWSVKSSGPTGTAMCVTWGTSRINGFALFEKCMNQIDAEVFDS FGDSPVLNASETAQARMKQDELRAEYARWIWSDDDRAKQLCRLYNDKYNCWAIRKYDGSNLRLPGYSQSLALRQFQLNAI ARIATGCNTLLAHVVGAGKTITMVCGSMELRRLGIAKKPFHVVPNHCLEQYCAEFMRAYPNASVLMATKADFEKDKRQTF VAKCATGNWDAVVLTHSMFERIAADQVIVEDYLKRILSELRAAKDAGALDRTAARAVNKFIKDWEARLEKLQASWKKDQL ISLSETGCDWVFFDECHVAKNLFRISSMKNIAGLSNSNSQRSFDLLLKCVQLMRLHGDRERGLCFASGTVISNTMAELHV AQRYLQPYALEKAGLEKFDAWAAQFGRAVSSMEVSPDGSSFRLNKRFKQFVNMPELMGLFRQVADIQTKEMLDLPVPKLV TGSYQICAVEPSNEVKEYVADLVERVEAIRDRQVKPAEDNMLAITGDGQKVALDMRLIRPRTPFDPKGKVAMCIDNVYRI WEMTASFKGAQIIFSDMGTPTGHSLNLYEDMRTRLVAKGIPHHEIAFIHEAQTHHAKSALFAKVRAGTIRVLIGSTSKCG MGTNVQTRLYAVHHLTTPWRPSDLQQRDGRIERQGNTCEAIEIWRYVTSGTFDAYMWQTLTAKAGFIAQVLSGNAEVRSV EDAMMATLSYDEVKAIACGNPAVREKATIDAEIMGLSLKLKHHRDSVWNSKEELWRLPIKIAEHKRQAVEYAKFHEQVLA SDGQGRGFGMVVNGKKFSDPEKIEKIITLSIRELKELQKAGLISEERLIGTLCGVDIFYGRSYGDFKITARSSNGGASID IGTYSTGDSVIRKLGEIEQRLLAVVQDNENRANYLTQQLPILERIAQSEFADTGKLESLRARSKEIAIELGLLKAMAGTD GQADGTEISSELAATLAGEDESTQDGTEASEENEEHDECLLTEAFC
Sequences:
>Translated_1726_residues MTQTNLWLPGFEFADALFGLTPIQTEVPIEPVSITQQEPQSTEIQEVPCFDASSTEDTLTQAESLPENAAPSLVMAQPAT AQDVGLSEPPWPLLAKDVHEDLRGQVTKFDANVEAIELLRVLEAEMTPPTLAQRQTLNRYTGWGGIKHPFDSPYHLAQEW VNRAKQLKSLLSEDEFESAKESTLNAHFTPIPVIDQLWTILRQIGFTGGRIIEPAGGIGFMLGAMPSDIAQRSSVTAVEI DDLSARFLKVLYGSHANVLHMGFEKTNLPEQYFDLVIGNVPFGNYSVGDLRRKTYSDWAIHNYFVGRSLDLVRPGGLVAV ITSAYFMDNSNDKVRDVIARKAKLLGAIRLPAGTFSEIANTDVVADLVILQKRSSTETLTREERENWVETTLLLDEDGTK MRVGNYTQGQNVNSYWMKNPQAVVGVWTEISRNQGQSIVPKLPKGADLMVEMERASKVIPQGVYAPATQQVKEVLLAVAD GSNAVLPGSYVIEGGDIYRFNGHSLEKTGVKGKKAERIAGMALIRDTAQALIKEQCKSDAAESVMSTLRFQLNVRYDSFI AKHGFISTKGNRQAMGSDPTWPLLLSLEMYNLEEETASKADIFFERTIFSTAIPKSADNAEDALAICVAELGCIDVDFIG QLLAADGKRALDGLAAIGAVFVDPMTMAYQTATEYLSGNVRDKLVIAQSAGLAFDRNVRALEESLPPDLNPTDIDVIPGA AWIPIDVTEAFLRELVAEEWKGSNWASVNIGYELTTGTWSVKSSGPTGTAMCVTWGTSRINGFALFEKCMNQIDAEVFDS FGDSPVLNASETAQARMKQDELRAEYARWIWSDDDRAKQLCRLYNDKYNCWAIRKYDGSNLRLPGYSQSLALRQFQLNAI ARIATGCNTLLAHVVGAGKTITMVCGSMELRRLGIAKKPFHVVPNHCLEQYCAEFMRAYPNASVLMATKADFEKDKRQTF VAKCATGNWDAVVLTHSMFERIAADQVIVEDYLKRILSELRAAKDAGALDRTAARAVNKFIKDWEARLEKLQASWKKDQL ISLSETGCDWVFFDECHVAKNLFRISSMKNIAGLSNSNSQRSFDLLLKCVQLMRLHGDRERGLCFASGTVISNTMAELHV AQRYLQPYALEKAGLEKFDAWAAQFGRAVSSMEVSPDGSSFRLNKRFKQFVNMPELMGLFRQVADIQTKEMLDLPVPKLV TGSYQICAVEPSNEVKEYVADLVERVEAIRDRQVKPAEDNMLAITGDGQKVALDMRLIRPRTPFDPKGKVAMCIDNVYRI WEMTASFKGAQIIFSDMGTPTGHSLNLYEDMRTRLVAKGIPHHEIAFIHEAQTHHAKSALFAKVRAGTIRVLIGSTSKCG MGTNVQTRLYAVHHLTTPWRPSDLQQRDGRIERQGNTCEAIEIWRYVTSGTFDAYMWQTLTAKAGFIAQVLSGNAEVRSV EDAMMATLSYDEVKAIACGNPAVREKATIDAEIMGLSLKLKHHRDSVWNSKEELWRLPIKIAEHKRQAVEYAKFHEQVLA SDGQGRGFGMVVNGKKFSDPEKIEKIITLSIRELKELQKAGLISEERLIGTLCGVDIFYGRSYGDFKITARSSNGGASID IGTYSTGDSVIRKLGEIEQRLLAVVQDNENRANYLTQQLPILERIAQSEFADTGKLESLRARSKEIAIELGLLKAMAGTD GQADGTEISSELAATLAGEDESTQDGTEASEENEEHDECLLTEAFC >Mature_1725_residues TQTNLWLPGFEFADALFGLTPIQTEVPIEPVSITQQEPQSTEIQEVPCFDASSTEDTLTQAESLPENAAPSLVMAQPATA QDVGLSEPPWPLLAKDVHEDLRGQVTKFDANVEAIELLRVLEAEMTPPTLAQRQTLNRYTGWGGIKHPFDSPYHLAQEWV NRAKQLKSLLSEDEFESAKESTLNAHFTPIPVIDQLWTILRQIGFTGGRIIEPAGGIGFMLGAMPSDIAQRSSVTAVEID DLSARFLKVLYGSHANVLHMGFEKTNLPEQYFDLVIGNVPFGNYSVGDLRRKTYSDWAIHNYFVGRSLDLVRPGGLVAVI TSAYFMDNSNDKVRDVIARKAKLLGAIRLPAGTFSEIANTDVVADLVILQKRSSTETLTREERENWVETTLLLDEDGTKM RVGNYTQGQNVNSYWMKNPQAVVGVWTEISRNQGQSIVPKLPKGADLMVEMERASKVIPQGVYAPATQQVKEVLLAVADG SNAVLPGSYVIEGGDIYRFNGHSLEKTGVKGKKAERIAGMALIRDTAQALIKEQCKSDAAESVMSTLRFQLNVRYDSFIA KHGFISTKGNRQAMGSDPTWPLLLSLEMYNLEEETASKADIFFERTIFSTAIPKSADNAEDALAICVAELGCIDVDFIGQ LLAADGKRALDGLAAIGAVFVDPMTMAYQTATEYLSGNVRDKLVIAQSAGLAFDRNVRALEESLPPDLNPTDIDVIPGAA WIPIDVTEAFLRELVAEEWKGSNWASVNIGYELTTGTWSVKSSGPTGTAMCVTWGTSRINGFALFEKCMNQIDAEVFDSF GDSPVLNASETAQARMKQDELRAEYARWIWSDDDRAKQLCRLYNDKYNCWAIRKYDGSNLRLPGYSQSLALRQFQLNAIA RIATGCNTLLAHVVGAGKTITMVCGSMELRRLGIAKKPFHVVPNHCLEQYCAEFMRAYPNASVLMATKADFEKDKRQTFV AKCATGNWDAVVLTHSMFERIAADQVIVEDYLKRILSELRAAKDAGALDRTAARAVNKFIKDWEARLEKLQASWKKDQLI SLSETGCDWVFFDECHVAKNLFRISSMKNIAGLSNSNSQRSFDLLLKCVQLMRLHGDRERGLCFASGTVISNTMAELHVA QRYLQPYALEKAGLEKFDAWAAQFGRAVSSMEVSPDGSSFRLNKRFKQFVNMPELMGLFRQVADIQTKEMLDLPVPKLVT GSYQICAVEPSNEVKEYVADLVERVEAIRDRQVKPAEDNMLAITGDGQKVALDMRLIRPRTPFDPKGKVAMCIDNVYRIW EMTASFKGAQIIFSDMGTPTGHSLNLYEDMRTRLVAKGIPHHEIAFIHEAQTHHAKSALFAKVRAGTIRVLIGSTSKCGM GTNVQTRLYAVHHLTTPWRPSDLQQRDGRIERQGNTCEAIEIWRYVTSGTFDAYMWQTLTAKAGFIAQVLSGNAEVRSVE DAMMATLSYDEVKAIACGNPAVREKATIDAEIMGLSLKLKHHRDSVWNSKEELWRLPIKIAEHKRQAVEYAKFHEQVLAS DGQGRGFGMVVNGKKFSDPEKIEKIITLSIRELKELQKAGLISEERLIGTLCGVDIFYGRSYGDFKITARSSNGGASIDI GTYSTGDSVIRKLGEIEQRLLAVVQDNENRANYLTQQLPILERIAQSEFADTGKLESLRARSKEIAIELGLLKAMAGTDG QADGTEISSELAATLAGEDESTQDGTEASEENEEHDECLLTEAFC
Specific function: Unknown
COG id: COG4646
COG function: function code KL; DNA methylase
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: 191286; Mature: 191154
Theoretical pI: Translated: 5.32; Mature: 5.32
Prosite motif: NA
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
1.4 %Cys (Translated Protein) 2.6 %Met (Translated Protein) 4.1 %Cys+Met (Translated Protein) 1.4 %Cys (Mature Protein) 2.6 %Met (Mature Protein) 4.0 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MTQTNLWLPGFEFADALFGLTPIQTEVPIEPVSITQQEPQSTEIQEVPCFDASSTEDTLT CCCCCCCCCCHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHH QAESLPENAAPSLVMAQPATAQDVGLSEPPWPLLAKDVHEDLRGQVTKFDANVEAIELLR HHHHCCCCCCCCEEEECCCCHHCCCCCCCCCCHHHHHHHHHHCCCEEEECCCHHHHHHHH VLEAEMTPPTLAQRQTLNRYTGWGGIKHPFDSPYHLAQEWVNRAKQLKSLLSEDEFESAK HHHHCCCCCHHHHHHHHHHHCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHCHHHHHHHH ESTLNAHFTPIPVIDQLWTILRQIGFTGGRIIEPAGGIGFMLGAMPSDIAQRSSVTAVEI HHCCCCCCCCCCHHHHHHHHHHHHCCCCCEEECCCCCHHHHHHCCCHHHHHHCCCEEEEE DDLSARFLKVLYGSHANVLHMGFEKTNLPEQYFDLVIGNVPFGNYSVGDLRRKTYSDWAI CHHHHHHHHHHHCCCCCEEEECCCCCCCCHHHHHHEECCCCCCCCCHHHHHHHHCCCHHH HNYFVGRSLDLVRPGGLVAVITSAYFMDNSNDKVRDVIARKAKLLGAIRLPAGTFSEIAN HHEECCCCCCEECCCCCEEEEHHHHHCCCCCHHHHHHHHHHHHHHHHEECCCCCHHHHCC TDVVADLVILQKRSSTETLTREERENWVETTLLLDEDGTKMRVGNYTQGQNVNSYWMKNP HHHHHHHHHHHCCCCHHHHHHHHHHHHEEEEEEECCCCCEEEECCCCCCCCCCHHHCCCC QAVVGVWTEISRNQGQSIVPKLPKGADLMVEMERASKVIPQGVYAPATQQVKEVLLAVAD CEEEEEHHHHHCCCCCCCCCCCCCCCCCEEEEHHHHHHCCCCCCCCHHHHHHHHHHEEEC GSNAVLPGSYVIEGGDIYRFNGHSLEKTGVKGKKAERIAGMALIRDTAQALIKEQCKSDA CCCEECCCCEEEECCEEEEECCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHH AESVMSTLRFQLNVRYDSFIAKHGFISTKGNRQAMGSDPTWPLLLSLEMYNLEEETASKA HHHHHHHHHHHEEECHHHHHHHCCCEECCCCCCCCCCCCCCEEEEEEEHHCCCHHHCCHH DIFFERTIFSTAIPKSADNAEDALAICVAELGCIDVDFIGQLLAADGKRALDGLAAIGAV HHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHCCCCHHHHHHHHHCCCHHHHHHHHHHHHH FVDPMTMAYQTATEYLSGNVRDKLVIAQSAGLAFDRNVRALEESLPPDLNPTDIDVIPGA HHCHHHHHHHHHHHHHCCCCCCEEEEEECCCCCCCCCHHHHHHHCCCCCCCCCEEEECCC AWIPIDVTEAFLRELVAEEWKGSNWASVNIGYELTTGTWSVKSSGPTGTAMCVTWGTSRI EEEEHHHHHHHHHHHHHHHCCCCCEEEEEECEEEECCEEEECCCCCCCCEEEEEECCCCC NGFALFEKCMNQIDAEVFDSFGDSPVLNASETAQARMKQDELRAEYARWIWSDDDRAKQL HHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCHHHHHH CRLYNDKYNCWAIRKYDGSNLRLPGYSQSLALRQFQLNAIARIATGCNTLLAHVVGAGKT HHHHCCCCCEEEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCE ITMVCGSMELRRLGIAKKPFHVVPNHCLEQYCAEFMRAYPNASVLMATKADFEKDKRQTF EEEECCCHHHHHHCCCCCCCHHCCHHHHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHHH VAKCATGNWDAVVLTHSMFERIAADQVIVEDYLKRILSELRAAKDAGALDRTAARAVNKF HHEECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHH IKDWEARLEKLQASWKKDQLISLSETGCDWVFFDECHVAKNLFRISSMKNIAGLSNSNSQ HHHHHHHHHHHHHHCCCCCEEEEECCCCCEEEECHHHHHHHHHHHHHHHHHCCCCCCCCC RSFDLLLKCVQLMRLHGDRERGLCFASGTVISNTMAELHVAQRYLQPYALEKAGLEKFDA HHHHHHHHHHHHHHHCCCCCCCEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHH WAAQFGRAVSSMEVSPDGSSFRLNKRFKQFVNMPELMGLFRQVADIQTKEMLDLPVPKLV HHHHHHHHHHCCCCCCCCCCEEHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHCCCCCCCC TGSYQICAVEPSNEVKEYVADLVERVEAIRDRQVKPAEDNMLAITGDGQKVALDMRLIRP CCCEEEEEECCHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEECCCCEEEEEEEEECC RTPFDPKGKVAMCIDNVYRIWEMTASFKGAQIIFSDMGTPTGHSLNLYEDMRTRLVAKGI CCCCCCCCCEEHHHHHHHHHHHHHHCCCCCEEEEECCCCCCCCCEEHHHHHHHHHHHCCC PHHEIAFIHEAQTHHAKSALFAKVRAGTIRVLIGSTSKCGMGTNVQTRLYAVHHLTTPWR CCCCEEEEECHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCCCCCHHEEEEEEECCCCCC PSDLQQRDGRIERQGNTCEAIEIWRYVTSGTFDAYMWQTLTAKAGFIAQVLSGNAEVRSV CCCHHHHCCCEECCCCCCHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHCCCCHHHHH EDAMMATLSYDEVKAIACGNPAVREKATIDAEIMGLSLKLKHHRDSVWNSKEELWRLPIK HHHHHHHCCHHHEEEEECCCCHHCCCCCCCCEEEEEEEEEEHHHCHHCCCHHHHHHCCHH IAEHKRQAVEYAKFHEQVLASDGQGRGFGMVVNGKKFSDPEKIEKIITLSIRELKELQKA HHHHHHHHHHHHHHHHHHHHCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHHHHHHHC GLISEERLIGTLCGVDIFYGRSYGDFKITARSSNGGASIDIGTYSTGDSVIRKLGEIEQR CCCCHHHHHHHHHCCHHEECCCCCCEEEEEECCCCCCEEEECCCCCHHHHHHHHHHHHHH LLAVVQDNENRANYLTQQLPILERIAQSEFADTGKLESLRARSKEIAIELGLLKAMAGTD HHHHHCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCC GQADGTEISSELAATLAGEDESTQDGTEASEENEEHDECLLTEAFC CCCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHCCC >Mature Secondary Structure TQTNLWLPGFEFADALFGLTPIQTEVPIEPVSITQQEPQSTEIQEVPCFDASSTEDTLT CCCCCCCCCHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHH QAESLPENAAPSLVMAQPATAQDVGLSEPPWPLLAKDVHEDLRGQVTKFDANVEAIELLR HHHHCCCCCCCCEEEECCCCHHCCCCCCCCCCHHHHHHHHHHCCCEEEECCCHHHHHHHH VLEAEMTPPTLAQRQTLNRYTGWGGIKHPFDSPYHLAQEWVNRAKQLKSLLSEDEFESAK HHHHCCCCCHHHHHHHHHHHCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHCHHHHHHHH ESTLNAHFTPIPVIDQLWTILRQIGFTGGRIIEPAGGIGFMLGAMPSDIAQRSSVTAVEI HHCCCCCCCCCCHHHHHHHHHHHHCCCCCEEECCCCCHHHHHHCCCHHHHHHCCCEEEEE DDLSARFLKVLYGSHANVLHMGFEKTNLPEQYFDLVIGNVPFGNYSVGDLRRKTYSDWAI CHHHHHHHHHHHCCCCCEEEECCCCCCCCHHHHHHEECCCCCCCCCHHHHHHHHCCCHHH HNYFVGRSLDLVRPGGLVAVITSAYFMDNSNDKVRDVIARKAKLLGAIRLPAGTFSEIAN HHEECCCCCCEECCCCCEEEEHHHHHCCCCCHHHHHHHHHHHHHHHHEECCCCCHHHHCC TDVVADLVILQKRSSTETLTREERENWVETTLLLDEDGTKMRVGNYTQGQNVNSYWMKNP HHHHHHHHHHHCCCCHHHHHHHHHHHHEEEEEEECCCCCEEEECCCCCCCCCCHHHCCCC QAVVGVWTEISRNQGQSIVPKLPKGADLMVEMERASKVIPQGVYAPATQQVKEVLLAVAD CEEEEEHHHHHCCCCCCCCCCCCCCCCCEEEEHHHHHHCCCCCCCCHHHHHHHHHHEEEC GSNAVLPGSYVIEGGDIYRFNGHSLEKTGVKGKKAERIAGMALIRDTAQALIKEQCKSDA CCCEECCCCEEEECCEEEEECCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHH AESVMSTLRFQLNVRYDSFIAKHGFISTKGNRQAMGSDPTWPLLLSLEMYNLEEETASKA HHHHHHHHHHHEEECHHHHHHHCCCEECCCCCCCCCCCCCCEEEEEEEHHCCCHHHCCHH DIFFERTIFSTAIPKSADNAEDALAICVAELGCIDVDFIGQLLAADGKRALDGLAAIGAV HHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHCCCCHHHHHHHHHCCCHHHHHHHHHHHHH FVDPMTMAYQTATEYLSGNVRDKLVIAQSAGLAFDRNVRALEESLPPDLNPTDIDVIPGA HHCHHHHHHHHHHHHHCCCCCCEEEEEECCCCCCCCCHHHHHHHCCCCCCCCCEEEECCC AWIPIDVTEAFLRELVAEEWKGSNWASVNIGYELTTGTWSVKSSGPTGTAMCVTWGTSRI EEEEHHHHHHHHHHHHHHHCCCCCEEEEEECEEEECCEEEECCCCCCCCEEEEEECCCCC NGFALFEKCMNQIDAEVFDSFGDSPVLNASETAQARMKQDELRAEYARWIWSDDDRAKQL HHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCHHHHHH CRLYNDKYNCWAIRKYDGSNLRLPGYSQSLALRQFQLNAIARIATGCNTLLAHVVGAGKT HHHHCCCCCEEEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCE ITMVCGSMELRRLGIAKKPFHVVPNHCLEQYCAEFMRAYPNASVLMATKADFEKDKRQTF EEEECCCHHHHHHCCCCCCCHHCCHHHHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHHH VAKCATGNWDAVVLTHSMFERIAADQVIVEDYLKRILSELRAAKDAGALDRTAARAVNKF HHEECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHH IKDWEARLEKLQASWKKDQLISLSETGCDWVFFDECHVAKNLFRISSMKNIAGLSNSNSQ HHHHHHHHHHHHHHCCCCCEEEEECCCCCEEEECHHHHHHHHHHHHHHHHHCCCCCCCCC RSFDLLLKCVQLMRLHGDRERGLCFASGTVISNTMAELHVAQRYLQPYALEKAGLEKFDA HHHHHHHHHHHHHHHCCCCCCCEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHH WAAQFGRAVSSMEVSPDGSSFRLNKRFKQFVNMPELMGLFRQVADIQTKEMLDLPVPKLV HHHHHHHHHHCCCCCCCCCCEEHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHCCCCCCCC TGSYQICAVEPSNEVKEYVADLVERVEAIRDRQVKPAEDNMLAITGDGQKVALDMRLIRP CCCEEEEEECCHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEECCCCEEEEEEEEECC RTPFDPKGKVAMCIDNVYRIWEMTASFKGAQIIFSDMGTPTGHSLNLYEDMRTRLVAKGI CCCCCCCCCEEHHHHHHHHHHHHHHCCCCCEEEEECCCCCCCCCEEHHHHHHHHHHHCCC PHHEIAFIHEAQTHHAKSALFAKVRAGTIRVLIGSTSKCGMGTNVQTRLYAVHHLTTPWR CCCCEEEEECHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCCCCCHHEEEEEEECCCCCC PSDLQQRDGRIERQGNTCEAIEIWRYVTSGTFDAYMWQTLTAKAGFIAQVLSGNAEVRSV CCCHHHHCCCEECCCCCCHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHCCCCHHHHH EDAMMATLSYDEVKAIACGNPAVREKATIDAEIMGLSLKLKHHRDSVWNSKEELWRLPIK HHHHHHHCCHHHEEEEECCCCHHCCCCCCCCEEEEEEEEEEHHHCHHCCCHHHHHHCCHH IAEHKRQAVEYAKFHEQVLASDGQGRGFGMVVNGKKFSDPEKIEKIITLSIRELKELQKA HHHHHHHHHHHHHHHHHHHHCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHHHHHHHC GLISEERLIGTLCGVDIFYGRSYGDFKITARSSNGGASIDIGTYSTGDSVIRKLGEIEQR CCCCHHHHHHHHHCCHHEECCCCCCEEEEEECCCCCCEEEECCCCCHHHHHHHHHHHHHH LLAVVQDNENRANYLTQQLPILERIAQSEFADTGKLESLRARSKEIAIELGLLKAMAGTD HHHHHCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCC GQADGTEISSELAATLAGEDESTQDGTEASEENEEHDECLLTEAFC CCCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHCCC
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