New model in OGS2.0 | DPOGS215043  |
---|---|
Genomic Position | scaffold137:- 62113-75020 |
See gene structure | |
CDS Length | 4488 |
Paired RNAseq reads   | 71 |
Single RNAseq reads   | 206 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005675 (3e-09) |
Best Drosophila hit   | ND |
Best Human hit | calpain-7-like protein (1e-07) |
Best NR hit (blastp)   | hypothetical protein Phum_PHUM497560 [Pediculus humanus corporis] (3e-14) |
Best NR hit (blastx)   | hypothetical protein BRAFLDRAFT_81713 [Branchiostoma floridae] (1e-16) |
GeneOntology terms    | GO:0004198 calcium-dependent cysteine-type endopeptidase activity GO:0005622 intracellular GO:0006508 proteolysis |
InterPro families    | IPR000048 IQ motif, EF-hand binding site IPR001300 Peptidase C2, calpain, catalytic domain |
Orthology group | MCL30991 |
Nucleotide sequence:
ATGTCTAAAAAATCGGATATGGGACGAAGTCTTGTGGTCTACGAGGTCGACCCCACGGAA
TGCCCATTTAGGGAATTTCGGGATAATGAACTCTCCACGGAGTTTTGGGGGATGGGTCCA
TCTGCTTTTCGAACCAGTCATTTTGTTAGCAAAATTTCGACGAAGACTCAAGCAGACTAT
GTTTGGGTGGATGACCAAACACAGCCCTTGCCCCGATCAGCGAGACAGTATCTTCATGGA
TGGGTTAGAGCTGACGAATTAGCTTTGAATCGATGGGACGCTGAAGTTGTTATTTTTGAG
GATAACGGCAGTGGTAAGATGTCAATCATAGACATGCAGCTCAGCCATGCACAGGTTCTC
CTGAGATCATCCTTCTGCAGACGAGTCCTCTCTATGTGCTTCATGCTTGAAAGGGTTGAT
AGTTTAATTGTGGAACATCAATGGGAGAACTTTGTATTCACAATGGCCCCGGAAGGCTGG
AGGTCTCGGTTTCATATTTACTCCCCGGGATTGAAACCTGGTGGTGGACAACAACATCGA
CCAACACATTCCAAAAATGGTAATAGAGCCCTCGAAAATACTTTGTTGCCTGGTTGTTAT
CTCGTTCGCCTATTCTATCTCGGCGCCTGGCGCTGCGTTTGGGTCAGTGATCAGGTTCCA
GTGGATGCGACTGATTCACCACTCCTGCCATTCTCTCCGCTACTCAGCCGTGCTCCAGCC
AAACCAGGCGGTAAACAAGCCCCCGCCATGGTGACTTCCAACGTCGTACATCTATGGCCC
TTACTTATATGCAAGGCGTTGTTGAAGCTGGCAGCACCCGACTTGAATTCGGACGAAGAC
GCGAATTGTGAAGACGAATTGATGCCAGAGTTTGATATATTACACGCCCTAACTGGTTGT
TTGAATCTGGTTTATAATATAAAGAACCCCGAGACCATATGGGACATTATAACAAGTGAG
GTTCCATTATTTACTTGGGACGATGATGACGATACCCTGGCTAGCACTGTAAAGTCTAGG
AGTACGAAGAAACCTGCTACGAAAGAAACTACGGTTGTCCGGAGAGGATCTATGACGTCA
ATTCTTATTGAAGACTCAAAGAATTCTCCTCCTTACGCTCTCCCGGGAATTACTCCAGGC
CACGAAATGAATCTCCTCGTGACTATGGCTAGGGATTTACCACTTAAAAAACCGCTACCT
GAACCGGAGGTCCCACTGTGGAAAACATATCGGTGGGTGGATTGGGCGCGTCGACATGGT
TTGTACGAGGCTTATGATTGTCCGCGCACCCAGTTTCTGAAAGTCAATGGGTTCTTAAAG
CTATCACACGCTCCGCATTTGTTAGATGTCCAAAGTACTGAATCGATTACATTACAATTT
AGAGAAGAACATGATAGGACCAATCCACCGCTAAAGAAAGGTATAAGAGATGTAAATCGT
TCGCAAACAGCTAATTCAGCAACAGCTCAGCAACTAAAAGAAGAATTGAGGGAATGGATA
CCGTATCTGACATTATATGAGTTATTAAAGCAGTGCAGCGTTCTGTTTTACCCTTCTATG
TACGAGTTCACATCGGTAGCTAGCAACCCTCCAGTTAGAATTACTAAAACGGCTCCTAAT
AAAGCGCTAGATATAGCTGCTTCTAAGTCATCACCGCTGTACCTGCAAATTGATGGACCT
GATGAGAATATTTTAAGAATTTCTCTGAGCGCTCTTCATCCGCGAGTTCTTTTTAACTGT
GGCGTTGCGATACTTGATCATATAGAACCAGCTCATTTAGTACTGGAAGTTTTTGAATGG
TTTAATGACTGCGAGTTGCCCAGGGCAAAAGCGTATATTCATACCCGAGGATATGATTCT
GTTGAAGTTAAATTACAACCAGGAAGGCACTTTTGCAGAGTTTGGGTTCATTCTCGTATG
AATTGGCATGCTATGCTTCTGAGTGAATCATCCTTACTACTTGGAACTCGAGATGTGATC
CAGTCTGCAGCTGTCAGAGATTGCCCGTGGGCAGCACGTTTTTTATGTAATCTCGGCAAT
GCTTTCCAAAATTGGATAAAAGCAACAAGATCAGCAGTGAACTTATCATTAAATGATAAA
GAATTTTACGGATCGTACCAGCCCGATTTACAATGGGATGCAAATATAGTGGGTTATGAC
AAGGCTTTTCTTCATTGGATGTTCAGACAGGCTCTACAGTCCTTACTATCAAAAAAGCTT
GTACGATCAGACTACAATAGCGTATGTTTGGTGTTGAGAAAACATTTTCTTGACCCAGAT
TTTGGGTTCCCACCTAAGCCAAGGCCTCCATTAAAGCCAGTACGATACGTTGCAGAAGTA
GATCCATGTGATTGCGTTATGCCAGAAGTAGAAGAACAAGAAGTTGTAGAAGAAGAAACG
GAAGAACAACAGTTACTGGAGGAAATTCCATTGGTTAATCAAGAAACAATGGATCGACTG
CTCACTTTACCAAAACCACCTCTAACGTCTCAAGTTTGTGAGCTTGCCACTGAAGAATTG
CCCTGTGGAGTTCTGAAAAACGAAAGGGAAAAAACCATCCAAAGACATGAGGCAGCAACA
ACATTGCAAGCTTATTGGAGAGGAACCTGGGTCCGGCAATGCTTGACACGCATGGTCTCC
CTTACACCTGAAATTTTAAAACTTATAATGGATAATGCTTTTGGTAATATGGAGGCACTG
TCGTCCCTGATGAATGAGTTCTTCAAAATGTACCCAGGAACGAAAAAGTCGTATTCAGTT
GCTTCTGCACTTAGCGGAGTGTACGGGCTCCAGCAACACAGCGGATCTTCACCTATAAGT
CCAAAATGCAAATGGGTTCCGTACTTTCAGAGCGTATTTACGTGTCACGCTCCAGTTAAA
GTTCACTTGGATGTTCAAAGTTCACTCCAACACAGCACATTGGCTGTTTACAATAATGAT
ACCGGTGAACAGATGCCCCAGGCCTACAACTCTCATATAACATTCATTTTTCAACCAAAT
GATCATGGTTATACGGTCATGGGTCATGGGACATTGAATCAACCATCTGGAGTTAATAGT
GAGGTGCATTGGCAGTTAACAGTACTATCATCGATTGCTGACGTTTTTCACGTATGTGAC
AATGAGATTGACTCTTGCAAGGAGCTGCCACTCTCACCGGCTAGCAAGCTGCATATTGAT
GAAATTTTCATTCCTAATCGCAAGAATATATTGGGTGGCATACAAATATTGGTCACAAAA
CATGATGCTGTTTGTTTTAGAGCAGCTGCTACATCCCCAGAGCTCGAAATGGAAGCGATT
TTACGTACCGTGAATCCGGATGGATCTGTGGAAGAATTGGGCAGGTGTTCAGGGACGGGA
GAGCTGCAGTGGCCTTACATAAGACTAGAACCGACACTACTCATAGCCAACAACCAATTC
AAAAAAGCTTCCACTTCGCAAGCAAACTTGGCATCGACGGCCAAAGAAAACATCACGAGT
GCGCGTTCTTTGAGGAGTAAGCAAAAAGCACCGAGTGCTAAGAATAAATCTGCAACTAGG
GTTAAAGATATCAAACTTAATTTGGAACCGAAGCAGTATTCAATTGAAGTCGTGGCTCCG
AAAGGATGGCCTTTGACGTTGGCGCAGTGGAACAGAGTCGATCAGGTCCGGAATTCTCAG
GAGTCTAACAAAGTGGAAGCCGCTCCTGTCAAGAAACCTGTCAAAGATAAGGGTGTATTG
AAAGACAAGATCCAATCACCAACGCTATACCAGCCTCAGATAGGAGATGCATATGTGGAA
CTGGAATGCTCGTTGGCGATCGGAGGTGGTTCGGTGGCGAGGCTTGATGATGAGCGGGAT
ATACAGTTCGCAACAGCAAAAAGAAATTGGGATTTACTTGAGCCTGGTAGGAATGCTAGA
GGAGCGCAGATCAGGAAAGAGTTCAGGGCGGATTTTTTAGAGTCCGTACCACCTCCACAG
TCTCTGAGTGAACAAAGTTTAGGAGAGGAAATACTGGGAGAGGATTTATTCGGAGAGGAG
AAAAAAGAAACACCACCTGCTGCACAACAGGGTCCAACGCCAGCAACTGAGAGCGGGTCT
CTTGAAGTATCAGAAGAAAGCGAGGAAGAGACCAAGTATCTGACGATGCCGGAAATATTG
AAGGACAAATTTTTACCGTTGTACTTCATACCATTGTGTACCAAAGAGTACAATGAAGAT
GAATGCGTCGTTGTCACACCAGAAATGGCTGAAGTAGCGAAGAATGATCGCCAAAATCGC
ATTGACGCAGCGTTGAAGCGCATGCGTGAGCTGCAGGCTTACAATGAGCAGTATGTGATA
TACAGGCAACGACAGAGGTGCCACTTACTAGAGAAATTGTTTGTCGATTCTCAATGGAAT
GAAGAATTAAATGCCGTTCTGGAAGAGAGAGACGACGCTATAGCGAGAGAAGCACTGATT
CGATCTCTCTCTGCGACAAAAAAGAAGCAGGAGGCAAAGAAGAAATAA
Protein sequence:
MSKKSDMGRSLVVYEVDPTECPFREFRDNELSTEFWGMGPSAFRTSHFVSKISTKTQADY
VWVDDQTQPLPRSARQYLHGWVRADELALNRWDAEVVIFEDNGSGKMSIIDMQLSHAQVL
LRSSFCRRVLSMCFMLERVDSLIVEHQWENFVFTMAPEGWRSRFHIYSPGLKPGGGQQHR
PTHSKNGNRALENTLLPGCYLVRLFYLGAWRCVWVSDQVPVDATDSPLLPFSPLLSRAPA
KPGGKQAPAMVTSNVVHLWPLLICKALLKLAAPDLNSDEDANCEDELMPEFDILHALTGC
LNLVYNIKNPETIWDIITSEVPLFTWDDDDDTLASTVKSRSTKKPATKETTVVRRGSMTS
ILIEDSKNSPPYALPGITPGHEMNLLVTMARDLPLKKPLPEPEVPLWKTYRWVDWARRHG
LYEAYDCPRTQFLKVNGFLKLSHAPHLLDVQSTESITLQFREEHDRTNPPLKKGIRDVNR
SQTANSATAQQLKEELREWIPYLTLYELLKQCSVLFYPSMYEFTSVASNPPVRITKTAPN
KALDIAASKSSPLYLQIDGPDENILRISLSALHPRVLFNCGVAILDHIEPAHLVLEVFEW
FNDCELPRAKAYIHTRGYDSVEVKLQPGRHFCRVWVHSRMNWHAMLLSESSLLLGTRDVI
QSAAVRDCPWAARFLCNLGNAFQNWIKATRSAVNLSLNDKEFYGSYQPDLQWDANIVGYD
KAFLHWMFRQALQSLLSKKLVRSDYNSVCLVLRKHFLDPDFGFPPKPRPPLKPVRYVAEV
DPCDCVMPEVEEQEVVEEETEEQQLLEEIPLVNQETMDRLLTLPKPPLTSQVCELATEEL
PCGVLKNEREKTIQRHEAATTLQAYWRGTWVRQCLTRMVSLTPEILKLIMDNAFGNMEAL
SSLMNEFFKMYPGTKKSYSVASALSGVYGLQQHSGSSPISPKCKWVPYFQSVFTCHAPVK
VHLDVQSSLQHSTLAVYNNDTGEQMPQAYNSHITFIFQPNDHGYTVMGHGTLNQPSGVNS
EVHWQLTVLSSIADVFHVCDNEIDSCKELPLSPASKLHIDEIFIPNRKNILGGIQILVTK
HDAVCFRAAATSPELEMEAILRTVNPDGSVEELGRCSGTGELQWPYIRLEPTLLIANNQF
KKASTSQANLASTAKENITSARSLRSKQKAPSAKNKSATRVKDIKLNLEPKQYSIEVVAP
KGWPLTLAQWNRVDQVRNSQESNKVEAAPVKKPVKDKGVLKDKIQSPTLYQPQIGDAYVE
LECSLAIGGGSVARLDDERDIQFATAKRNWDLLEPGRNARGAQIRKEFRADFLESVPPPQ
SLSEQSLGEEILGEDLFGEEKKETPPAAQQGPTPATESGSLEVSEESEEETKYLTMPEIL
KDKFLPLYFIPLCTKEYNEDECVVVTPEMAEVAKNDRQNRIDAALKRMRELQAYNEQYVI
YRQRQRCHLLEKLFVDSQWNEELNAVLEERDDAIAREALIRSLSATKKKQEAKKK