Gene
KWMTBOMO10568
Pre Gene Modal
BGIBMGA014032
Annotation
reverse_transcriptase_[Danaus_plexippus]
Full name
L-dopachrome tautomerase yellow-f
+ More
L-dopachrome tautomerase yellow-f2
Major royal jelly protein 5
Major royal jelly protein 1
Major royal jelly protein 4
L-dopachrome tautomerase yellow-f2
Major royal jelly protein 5
Major royal jelly protein 1
Major royal jelly protein 4
Alternative Name
Bee-milk protein
56-kDa protein 4
Apalbumin 1
Apisin subunit MRJP1
Royalactin
Royal jelly protein RJP57-2
56-kDa protein 4
Apalbumin 1
Apisin subunit MRJP1
Royalactin
Royal jelly protein RJP57-2
Location in the cell
Nuclear Reliability : 2.139
Sequence
CDS
ATGAACGACTCGGATTACGAATACAAAGAAGGGACGTTTCATTTTCAGGACGTGGCCTTAGAGGAACATGAAAAGTTTCTAATAAGACAAAACTTGATTCCCTATGATTTTATTTATGATGTTCCTCAAACAACGATAAGCATCCCTAGAACTCGACCTGGAATACCATTTACTGTCAACTTTATTGATAACTTTCTTCATGAAAAAGAGCCAATGCTAAGACCATTTCCTAATTCAAAGGAAGGTAAAGAATTTACATCGGTTTTTAACATGTTTGAAGATGGTTGTGATAGGCTTTGGTTTGTTGATACAGGATACCTCGATATCCCAGGTGTACGAAAGCAAGTACAACCAGCATCATTGCTACTTTACAATAGTCTTCCAAAACCAAATTTTCAGTTCAGGAAAGATATCAACAGTGCTTTACTCCATAACGGTATCACTAGTGGACTCCGATCTTTATCAGTTGATTTTATATTACCGTGCGCCGAGTCTTACGTATACATTACTGACGACACTACCCGCGACCTCATTGTATTCTCGCTTCAGGACTTGCGTTTTACCAAAATCAGCCGCGCAAGTAATACGGCTGATTCTTGGAAATTTGTTGTACCACGATTTGAAATACAATTCAGGCTAGAAGTTGAAAAATATAGAAAAAGGCCAAACGAAACATACGAACACTATGTCGATTTTTTAAATTCTACAAATCAACTGTATGATCCAAAAAGTGATTCAAGACCTCGTGATACATTTAACAGCACCTACTATCCAAATTATGAAGGGATGATTTATACGAGAAATTTTGAAGGAAACATTTTGTTATTCACGAATTGGAATCGTAACAAGCTTTACTGTTGGAATATGGATACTCCGTATGAAGAAGAAAACGTTGATGTGCTCTCGAGAATCGGTGAGACTAAATATAGATTTTCAGCTTTAGATGCGGTTGGTAGCGTTTTGCACGGACTAATGCAAAGAACTTTAAAGAGCACGTCGTCAAAGTTCAATGAAGACGAAAACAATTTTTGGCTTTTCTCAACGAACCTTGATAAGCTGCTGGAAGGATCAAAATGCTCCAAAACTTATGATGCTAAACGTAACTTTACATATGAGCATGGTTGGAAACTGTTTAGTTACGATATTGATGGAGTAAAATACACGAATGACTCGGATTACGAAAACAACGAAGAGTCGTTGGGCTCTCAGGGCCTGGACTTAGAGGAACATGACAAGTTTCTAATAAGACAAAATTTGATACCCTATGATATTAAGGAAGATGTAGTGCGAACAACAATAAGTATCCCTAGAACTCGACCTGGAATTCCATATACAGTAAACTTTATTAGTAATCTGGATGATAAGGAGCTAATGCTAAGACCATTTCCTAATTCAAAGGAAGGTAAAGAATTAGTATCGGTTTTTAACATGTTTCAAGACAGCTGTTCTAGACTTTGGTTTGTTGATACAGGATACCTCGATATCCCAGGTGTACGAAAGCAAGTAAAACCAGCATCATTGTTACTTTACCTTAGTTTTTCAACAGCAGATCTGCAGTTTAGGAAAGATATTGACAGTGCTTTACTCCATAACGGTATCACTAGTGGACTCCGATCTCTATCGGTTGATTTTATATTCCCGTGCGCCGAGTCATACGTATACATTACTGACGACACTACCCGCGACCTCATTGTCTTCTCGCTTCAGGACATGCGTTTTACGAAAATCAGCCGCGCAAGTAATACGGCTGATTCTTGGAAATTTATTGTGCCACAGTTTGAAACACAATACAGGCTAGAAGTTGAAAAATATAGAAAAAGGCCGAATGAAACATACGAACACTATGTGGATTTTTTAAATTCTACAAATCAACTGTATGATCCAAGCAGTGATTCAAGACCTCGTGATACATTTAACAACACCTACTATCCAAATTATGAAGGGATGATCTATACGAGAACTTATGAAGGTAATATTTTGTTATTCACGAATTGGAATCGTAACAAGCTTTACTGTTGGAATATGGATACTCCATATGAAGAAGAAAATGTTGATTTGCTCACGACAATCGATGAGACTAAATATAGATTTTCAGCTTTAGATGCGTCGGGTAGCGTTTTACACGGACTAATACAAAGAACTTTAAATAATACGTCGTCAAAGTTCAATGAAGACGAAAACAATTTTTGGCTTTTCTCAAAGATCATTAAGGAGCTGCTGGAGGGATCAAAATGCTCAGAGAGCAACCAGTGCACGGATTACCTGACGCGGAGAACGGAGAGTCAATCATTATTATTTATCAAAAAAATATCACCGAAATACGTAACCGATACCGTCGTTAGAAAGTTTGAAAAAATATGGAAGAGGGTACCTCCCGCTCCGCGGGGGAGAATCCCTCCGTGCGGTCGAGCGATCGGCCGCACGCTGCCCCACCGTTTCTGGGGGGGCACACACTGTCACGCAGAAGGGGGCGACAGCACGGGTCGCGTAAGGGACAGGGTCCCCACCGTGCGCCTCGAGCGCTGCGAGAGCCTTATCTCGCTCTACTCGGCGCGGAGCTCCGCGAGGGGCGACGCGTCCAGTGGGCGGGAGACACCGGCGCTGTTCACCGACACTCGACAGCGGACTCGGCGGAAGCGGAAGTCGGCCCGACGGCCGGCGTCCTCCGCTCCGTCTGACTCGTCCGAGGGTGAGCCTGCCAGCGCCAAATATATGGCGTTGGCGGAAGGGCCGGCGGCTGCTGCGGCGCCGCCCGCCACAGATTGTGACGCAGTCTCTTCTCGCGGACTGGCTGCTGCCTCCTCGGCGCAGTCCAGGGCCGCCTGCTGTGAGGCAAGAGGAAAAGCGGAAACCGGAGAGGTCGCGCGTTTGGAGCGCTGCCTGGCCGGGGTGGGTCCCTCTGACCCCTTCCGAGCATTCGAGGTGGTTGGGAAATTGGTTTCCGCAGTCGTGGCAACATCCGGCGGTGGACTCAAGGGTGACTGCGTGCGGGCCTTAAAATCCGGAGCGGCCACCCTAGAAGAACGTCTGAGGGAAGTGGTAGACCGCACCACAACGACGGAGACGGCGGGCTTGCGGCAGGAAGTGGCCCTGCAGCACGCCCGCCTCGAGCAACTCTCGAACGAGAATGGCAAACTTCGGGCGGAGAATGGGCAGCTGCGAGTGGACATGGCCGAGTTGAGGACCATGGTTGCCGACCTCATCGAGCGGCAACGCAGCTCGGCCCCTGCCCCTCCTCCGCCCGAAGCGGAAGGCCTCAGTGAGGTGGACGAGTTGAGGCGGCAGCTCCTCATACAGGAGGCGCGCAGCTCCAAGGTGGAGCGCGCGAGACCGCCCCTCGCTCACGAGGCTAACGGAACCCCGGCCAACATGGACGAGGCCTGGACGACGGTGGTGCGGCGAGGGCCCAAAAAGGTTGCGGCGCCTGTCGCGCCGCGCCCCAAGCCCGCCCCTACGGCCGCCGCTCCCCGCCAAGAGGGTCGAGCGGAGCCTAGGGGCCGAACTGGACGAAGGAGGCCGCGCGCCCCGCGGTCGGCTGCAGTAGTCGTGGAGCTGCTGCCGGCCGCCAAAGAACGGGGCATCACGTACCACGACGTGATGACTCAGGCGCGCGGCGGCGTAAATGTGGACGCCCTCGGCGTGGAGGGTGGCCTGAAGGTCCGGCAGACGGCCAACGGGGCCCGCCTGGTAGAATGCCCCGGCGCGAATTCCAGCGCCGCGGCAGAAAAACTGGCGGTCCGTCTGCGGGAAATCTTGCCGGACCCCGAGGTGGTGCGCATCGCGCGGCCCGTAAAAATGGCGGAAGTGAAGATTACGGGCCTCGACGAGTGCGCCACGAAGGAGGAGGTCGCCGCGGCCATCGCGTCGCAGGGCAACTGCGCCCTCGCCGACGTCAAAGTCGGGGAGCTCCGGGCGACGTACTCCGGAACCCGGACGGCGTGGGCGCGTTGCCCGGTAGCAACGGCGAACCTCCTGGCCACCCCTCCACAGGGTCGGCCTTCGGACAGCCCAGGATGGCTGCGCGTGGGCTGGGTAGTGGCCCACGTGCAACTGCAGGAGAGCAGGCCGTGGCGTTGTCTTCGGTGCTTCGGCACCGGCCACGGCCTCGCCAAGTGCCCCTCGACAGTGGACCGCAGCGACCTGTGCTTCCGCTGCGGCCAACCGGGGCACAAGGCAGCCTCCTGCACCGCAGCCGCGCCGCACTGTGTCTTGTGCGACGCGGCTAAAAGGAAGGCCGACCACCGGGCCGGGGGCCCGGCGTGCAAGTCCGCCCCTCCTCTACAAAAACGAGGAGGGGCGGAAAGAAAAAGAAGCCGGCTGCAAAAAGGGCAGCCGGATCTCCTCGTCCACACCATGGCGGAGTGGTCAATCGATGTTGCTGTCGCCGCGGAGCCGTATTTCGTCCCCACCGACCAGGACTGCTGGATCGGGGACGTCGACGGCTCAGTGGCCATTATATTACGACAGTCCGCGGCGTTACCCCCCTTGGATATGGTGGCCAGGGGACCCGGGTACGTCGCGGCTAGGATCGACGGGACCGTCGTGATCGGGGCGTACTTTTCTCCGAATAGGAGCCTCGCCGAGTTCGAGCGGTTTCTGGGCGGGCTCGAGGCGCTTTTACACCGCCTCGGGTCCCGCCCTGTCATCGTCGCGGGGGACCTCAATGCCAAGTGTACGGCTTGGGGTTCCCCCCGCACGGATTCGCGAGGCGGGGCCCTTTCGGAGTGGGCGATCGCGACCGGCCTCTGTCTCCTAAACAGAGGCACGGTCGCGACTTGCGTGCGGTGGAACGGGGAATCTCACGTGGACGTGACGTTCGCGTCCCCGTCCGCCGTGCGCCGCACCCGCGGCTGGCGCGTACTCGAGGGGGCGGAGACGCTCTCGGACCACAGATACGTCCGATTCGAGCTCTCCGCCTCCTCCTTGTCGTCGTCGTCAGCCGTGGGCGCCCGCGGCGAGGAGGAGCTCCCGCAAGGTGCGCCCCGTTCGTTCCCCAGGTGGGCCTTGAAACGGATGAACAAGGAGTTGCTGATGGAGGCGGCCGCTGTTGCTGCGTGGGCGCCAAAACCCGCGCGACTCGCGGACGTGGATGCGGAGGTCGACTGGTTCCGGGGCACCATGGCAAACATTTGTGATGCCGCCATGCCCCGGGTCGGCCCCCGAGCACCACGTGGGGGTGCGTTCTGGTGGTCGCCCGAGATCGCAAGACTCCGCGAGGAGTGCGTGAGGGCGCGCCGCCGGAGCGCACGCCACCGCCGCCGCCGTCGTCGCGACGCTGCGTTCGCGGAGACGGCGGCCCAGCTGCACGCTGACTGTCGTCAAAAGCAGACGGCGCTGCAGCTGGCCATCGGCGAGGCCAAGAAGCAGAGCATGAAGACTCTCCTGGAGTCGCTCGACGAAGATCCCTGGGGGCGCCCATACAAGATGGTTCGCAGGAAACTGCAGCCGTGGGCGCTCCCGATGGACGCCACGTGGGGCACGCCTCCGCGTCGCCCCAGCGTTCCCGCTGCCGAGGAGCCCCCTCCCCCTATCACGGGGGCGGAGATCCATGCGGCCGTGTCCAGAATGAGAGCGAAGGACGCGGCCCCCGGCCCTGACGGCGTTCACGGCCGGGTCTGGAGCTTGGCCTTCGAGGCCCTAGGGGACCGGCTCGGGGGGCTTTTCGAAGCGTGCCTCGAGTCGGGACGGTTCCCGTCGAAATGGAAGACGGGCAGACTGGTCCTTCTGCGGAAGGACGGGCGCCCCGCGGACTCACCCGCGGGCTATCGCCCCATCGTGTTGCTGGACGAAGCGGGCAAGATGCTCGAGAGGATCGTCGCGGCCCGCATCGTCCGGCACCTGACCGAGACGGGTCCCGATCTTTCGGCGGAACAATACGGCTTCAGAGAGGGCCGCTCGACGATAGACGCAATTCTGCGCGTGCGTGCCCTCTCCGACGAAGCCGTATCCCGGGGCGGGGTGGCGATGGCGTTATCCTTAGATGTAAGGAACGCCTTCAACACCCTGCCCTGGTCGGTGATCGCGGGGGCGCTGGAGTATCACGGCGTCCCCGCATACCTCCGCCGACTGATCGGCTCCTACCTCGAGGGCAGGTCGATCCAGTGCATCGGACACGGTGGGGCGATGTACCGCTTCCCCGTCGAGCGCGGTGTTCCGCAGGGGTCTGTCCTGGGCCCCCTGCTGTGGAACATCGGCTACGACTGGGTCCTGCGGGGCGTCATTCGGGGTCCCCTCCCCGGGCTGAGCGTAATATGTTACGCCGACGACACGTTGGTCGTGGCTCCGGGGAGGGACTACCGGGAGTCTGCCCGTCTGGCGTGCGCAGGCGTGGCACACGTCGTCACAAGGATCCGACGGCTGGGACTCGAGGTGGCGCTCGACAAAACCCAGGCCCTGTTGTTTCACGGGCCGGGACGAGCGCCGCCTCTGGGTGCCCACCTCGTGATCGGAGGCGTCCGCGTCGGGGTCGGGGTGACCGGTCTTCGGTACCTCGGCCTTGAACTGGATGGTCGGTGGAACTTCCGCGCTCACTTTGCGAAGTTAGGCCCTCGACTGATGGCGACGGCCGGCTCTTTGAGCCGGCTGCTTCCAAACGTCGGGGGTCCCGATCAGGTGGCGCGCCGCCTCTACATGGGGGTGGTGCGGTCGATGGCACTATACGGCGCGCCCGTATGGTGCCACGCCCTGACCCGCCAGAACGTCGCCGCGCTGCGACGTCCGCAGCGCGCGATCGCGGTCAGGGCGATCCGAGGATACCGCACCGTCTCCTTCGAGGCGGCGTGCTTGCTCGCCGGGGCGCCACCCTGGGACCTGGAGGCGGAGGCGCTCGCTGCCGATTACCGGTGGCGTAGCGACCTCCGCTCTAGGGGGGAAGGGCGCCCCAGCGAAGGTGTAGTTCGAGCGCGGAGGCTCCACTCTCGGCGGTCCGTGCTGGAGGCGTGGTCTCGCCGCTTGGCGGATCCGTCGGCCGGCCTCCGAACCGTCGAGGCGGTCCGCCCGGTTCTCGCGGACTGGGTGGGCCGCGACCGCGGATGCCTCACCTTCCGGCTAACGCAGATGCTTACCGGCCATGGTTGTTTCGGCCGGTACTTGCACAAGATAGCCGGAAGGGAACCGACGGCGCAGTGCCACCACTGCGCGGACCGCGACGAGGAAGACACAGCGGAACACACATTGGCGCGTTGCTCTGGATTTGACGAGCAACGCGCCGCCCTCGTCGCGGTCATAGGAGAAGACCTCTCGCTGCCGCGCGTCGTGGCTACGATGCTCGGCAGCGACGCGTCCTGGAAGGCGATGCTCGACTTCTGCGAGTCCACCATCTCGCAGAAGGAGGCGGCGGAGCGAGAGAGGGAGAGCTCTTCCCTTTCCGCACCGATCCGTCGCCGTCGAGCCGGGGGCCGGAGGCGGGAATACGCCCCATTCTACAATGATAACGGACTCGCGCGGCAACGCGATCAAATTTTCGAATTCCTCCGCGACAATCTTGTAGATATTTTGTTAGTGCAGGCGACCTGCCTGAAGCCCTCGCGTCGTGACCCAAAAGTCGCGAATTACGTCATGGTTAGGAATGACAGACTCACCGCCTCCAAAGGCGGGACTGCTATTTACTATAGGCGGGCCCTGCACGTTGTCCCTCTCGATACTCCCTCGCTCTCACATATCAAGGCGTCAGTGTGCCGTATCTCGCTGACGGGACACCAGCCGATCGTCATCGCATCCGTATATCTCCCCCCGGACAAGCCCCTCCTGAGCAGTGACATCGAGTCACTGTTCGGCATGGGAAACTCTGTCATCCTGGCAGGCGATTTAAATTGCCACCACACTAGGTGGAACTGCCATCGTACAAATGTTAACGGTAGGCGTCTCGACGCGTTTATAGACGACCTCACCTTTGAAGTAGTCGGTCCCCCAACTTCAACATGTTATCCGTATAACATCGCGCTCCGTCCGAGCACTATAAACCTGGCACTGCTTAGGAACGTAACTCTGCGCTTGCGTTCCATCGAAGCACTGTCAGAGCTCGACTCAGACCACCGACCTGTCGTTATGCAGCTCGGTCGCCCTCACAACCCAGTCACTGTTACGAGGACCATGGTGGATTGGAATAAGCTAAGCACGTGCTTAGCCGAAGCCGCTCCACCAATCCTCCCTTACGGCCCGGATTCGAATCTATCCCCCGAGGACACCGTCGAGTCCATAAACATCATTACCGATCACATCTCTTCCGCGATCATTAGATCTTCAAAAGAAGTCAATGTGGAGGACAGCTTCCACCGCATCAGACTGTCCCCCGATCTTAGGAATCTCTTAAGAGTTAGGAACGCGGCAATCCGGGCCTACGATCGTCTTCCCACGCATTCAAACCGGATTTGGATGCGTCGTCTACAACGCGAAGTCCACTCCCGCCTAAGCGACGCGCGTAACGATAATTGGCATAGTTATTTAGAACAACTCGCGCCCTCCCACCAAGCATACTGGCGACTAGCTAGGACTCTCAAATCCGAAACTACCGCTACTATGCCTCCCCTCGTACGCCCTTCAGGCCAACCACCGGCATTCGATGACGATGACAAGGCTGAGCTGCTGGCCGATGTACTGCAAGAGCAGTGCACCACCAGCACTCAATACGCGGACCCCGAACACACCGAAAATTATTATCATATCGGCTGTGTTCTTCCTGCAAATAAGGATTGGACGCCGGACTCTGAATTTAAGTCTACATGGATATGTCTTAATTGTGCGACTAAATCACGTACTGTTAATGATGAAACTCCTGTCCGTGGCAATGTGAGGCCTCGAGCACCTGATACATCCAATGTTACGATGAGACCGTTGCGTGCTGGATCCAGGGAACGTGAGGGACCTGAATTACAGGTTGTCCCTTTAGAACAGGTCAGGAGTATAGTGCGCGCGGAAGTCCAGGAAGCTGTTGCTTGTTTCAGGGACACTATTCTTGAACTCAAGAGTGAAATCTCAACTCTTCGTGATAGTGTCTCCTTCATTAGTGACAAGTATGAAGCCATATCGAAAAGATTTCTTGAGTTTAACGACCATCTGAAAATTATTCCAACACTCAAAAACGAGCTCAGTATACTGGATTCAAGAATGCAATCCATTGATTCTCAATTCAACTTAAAAGAGCAGTGGAGCAGGAGATCTAATATAGAAATTCTGGGTATCCCCGAAAGGAAAGGCGAAAATCTAATAGAATTGGTCTCGAAAATTGCCGAGAGGGCGGGTTTTGCCTTGAATCCTCAGATAGACATCGATTTTGTTACAAGGGTTGCGCCGATGGACAGAAGCAGTAGCAGATCAAAGCCAGTTATTCTTAGATTTGTATCCCGGTATAGGAAGGATAACATGTTGGCTAAATTGCGGAGGTTGAAGGAATTGAAATCTTCTGATATTGGATTCCCACATGATTCATCTAGGCTTTATTTTAATGACCACCTCACGAAAAACAATAAACTTTTGTTAAAAAACGTAAAAAAATTAGCCAAGGAAAAATTTTACAAATACGTGTGGTTTGAAGATGAAGTTGGTTTTTTTGAGGATATTTCTGACACAATTATTACTAATCCGGGTGACGAATTTTTGTGCGTCAGCGATTTCAATATAAGGAATGCTTCTTGGGAGCTGATCGGTGTTGGTGGACCTTCTAGACTCTTGAATGGTGATCGAACCAAAAGATTCGTTTATCGTACCATCAAACGATACAATGAAGACTCTAGTGTAGATGACAGTTCAAGAAGTGGTCGCCCTCGGTCTGTTAGGACTCCAGCAGTGATAAAAGCTGTGAAGGCGCGAATTCAAAGAAATCCCAAACGTAAGCAGAAACTGTTGGCCCTTCAGATGGGGTTAAGCAGAACCACGGTGAATAGGGTGTTGAATGAAGACTTAGGGCTTCGGGCATATCGAAGAAAAACAGGACATCGTTTGAATGCTCGTCTAATGGACCTGAGACTGAAGAGATGCCGCGCTTTGTTGAAGCGCTCTAAGGAAGCTTCCCAATTAGTCGACAGAGTGCAACGTGGGCACTATCCGACTTCAGTGATAGTTTGGTGGGGTATTAGCTATGAAGAAGTGGCTGAGCCATACTTTTGTGTAAAAGGTATCAAAACATCGGCACAAGTGGATCAAGATACCATTCTTGAGAAGGTAATGAAGCCTCTCAACAACACCATGTTCAATAATCAAGAATGGTCCTTCCAGCAAGACTCGGCGCCAGGTCATAAAGCTCGGTCTACGCAGTCTTGGTTGGAAACGAACGTTTCGGACTTCATCAGAGCTGAAGACTGGCCGTCGTCTAGTCCCGATCTTAATCCGCTGGATTATGATTTATGGTCAGTTTTAGAGAGTACAGCTTGCTCTAAACACCATGATGATTTGGAGTCCCTAAAACAATCCGTACGATTGGCAGTGAAAAAATTTCCCATGGAAAGAGTGCGTGCTTCTATTGATAACTGGCCTCAACGTTTAAAGGACTGTATTGCAGCCAATGGAGACCACTTCGAATAA
Protein
MNDSDYEYKEGTFHFQDVALEEHEKFLIRQNLIPYDFIYDVPQTTISIPRTRPGIPFTVNFIDNFLHEKEPMLRPFPNSKEGKEFTSVFNMFEDGCDRLWFVDTGYLDIPGVRKQVQPASLLLYNSLPKPNFQFRKDINSALLHNGITSGLRSLSVDFILPCAESYVYITDDTTRDLIVFSLQDLRFTKISRASNTADSWKFVVPRFEIQFRLEVEKYRKRPNETYEHYVDFLNSTNQLYDPKSDSRPRDTFNSTYYPNYEGMIYTRNFEGNILLFTNWNRNKLYCWNMDTPYEEENVDVLSRIGETKYRFSALDAVGSVLHGLMQRTLKSTSSKFNEDENNFWLFSTNLDKLLEGSKCSKTYDAKRNFTYEHGWKLFSYDIDGVKYTNDSDYENNEESLGSQGLDLEEHDKFLIRQNLIPYDIKEDVVRTTISIPRTRPGIPYTVNFISNLDDKELMLRPFPNSKEGKELVSVFNMFQDSCSRLWFVDTGYLDIPGVRKQVKPASLLLYLSFSTADLQFRKDIDSALLHNGITSGLRSLSVDFIFPCAESYVYITDDTTRDLIVFSLQDMRFTKISRASNTADSWKFIVPQFETQYRLEVEKYRKRPNETYEHYVDFLNSTNQLYDPSSDSRPRDTFNNTYYPNYEGMIYTRTYEGNILLFTNWNRNKLYCWNMDTPYEEENVDLLTTIDETKYRFSALDASGSVLHGLIQRTLNNTSSKFNEDENNFWLFSKIIKELLEGSKCSESNQCTDYLTRRTESQSLLFIKKISPKYVTDTVVRKFEKIWKRVPPAPRGRIPPCGRAIGRTLPHRFWGGTHCHAEGGDSTGRVRDRVPTVRLERCESLISLYSARSSARGDASSGRETPALFTDTRQRTRRKRKSARRPASSAPSDSSEGEPASAKYMALAEGPAAAAAPPATDCDAVSSRGLAAASSAQSRAACCEARGKAETGEVARLERCLAGVGPSDPFRAFEVVGKLVSAVVATSGGGLKGDCVRALKSGAATLEERLREVVDRTTTTETAGLRQEVALQHARLEQLSNENGKLRAENGQLRVDMAELRTMVADLIERQRSSAPAPPPPEAEGLSEVDELRRQLLIQEARSSKVERARPPLAHEANGTPANMDEAWTTVVRRGPKKVAAPVAPRPKPAPTAAAPRQEGRAEPRGRTGRRRPRAPRSAAVVVELLPAAKERGITYHDVMTQARGGVNVDALGVEGGLKVRQTANGARLVECPGANSSAAAEKLAVRLREILPDPEVVRIARPVKMAEVKITGLDECATKEEVAAAIASQGNCALADVKVGELRATYSGTRTAWARCPVATANLLATPPQGRPSDSPGWLRVGWVVAHVQLQESRPWRCLRCFGTGHGLAKCPSTVDRSDLCFRCGQPGHKAASCTAAAPHCVLCDAAKRKADHRAGGPACKSAPPLQKRGGAERKRSRLQKGQPDLLVHTMAEWSIDVAVAAEPYFVPTDQDCWIGDVDGSVAIILRQSAALPPLDMVARGPGYVAARIDGTVVIGAYFSPNRSLAEFERFLGGLEALLHRLGSRPVIVAGDLNAKCTAWGSPRTDSRGGALSEWAIATGLCLLNRGTVATCVRWNGESHVDVTFASPSAVRRTRGWRVLEGAETLSDHRYVRFELSASSLSSSSAVGARGEEELPQGAPRSFPRWALKRMNKELLMEAAAVAAWAPKPARLADVDAEVDWFRGTMANICDAAMPRVGPRAPRGGAFWWSPEIARLREECVRARRRSARHRRRRRRDAAFAETAAQLHADCRQKQTALQLAIGEAKKQSMKTLLESLDEDPWGRPYKMVRRKLQPWALPMDATWGTPPRRPSVPAAEEPPPPITGAEIHAAVSRMRAKDAAPGPDGVHGRVWSLAFEALGDRLGGLFEACLESGRFPSKWKTGRLVLLRKDGRPADSPAGYRPIVLLDEAGKMLERIVAARIVRHLTETGPDLSAEQYGFREGRSTIDAILRVRALSDEAVSRGGVAMALSLDVRNAFNTLPWSVIAGALEYHGVPAYLRRLIGSYLEGRSIQCIGHGGAMYRFPVERGVPQGSVLGPLLWNIGYDWVLRGVIRGPLPGLSVICYADDTLVVAPGRDYRESARLACAGVAHVVTRIRRLGLEVALDKTQALLFHGPGRAPPLGAHLVIGGVRVGVGVTGLRYLGLELDGRWNFRAHFAKLGPRLMATAGSLSRLLPNVGGPDQVARRLYMGVVRSMALYGAPVWCHALTRQNVAALRRPQRAIAVRAIRGYRTVSFEAACLLAGAPPWDLEAEALAADYRWRSDLRSRGEGRPSEGVVRARRLHSRRSVLEAWSRRLADPSAGLRTVEAVRPVLADWVGRDRGCLTFRLTQMLTGHGCFGRYLHKIAGREPTAQCHHCADRDEEDTAEHTLARCSGFDEQRAALVAVIGEDLSLPRVVATMLGSDASWKAMLDFCESTISQKEAAERERESSSLSAPIRRRRAGGRRREYAPFYNDNGLARQRDQIFEFLRDNLVDILLVQATCLKPSRRDPKVANYVMVRNDRLTASKGGTAIYYRRALHVVPLDTPSLSHIKASVCRISLTGHQPIVIASVYLPPDKPLLSSDIESLFGMGNSVILAGDLNCHHTRWNCHRTNVNGRRLDAFIDDLTFEVVGPPTSTCYPYNIALRPSTINLALLRNVTLRLRSIEALSELDSDHRPVVMQLGRPHNPVTVTRTMVDWNKLSTCLAEAAPPILPYGPDSNLSPEDTVESINIITDHISSAIIRSSKEVNVEDSFHRIRLSPDLRNLLRVRNAAIRAYDRLPTHSNRIWMRRLQREVHSRLSDARNDNWHSYLEQLAPSHQAYWRLARTLKSETTATMPPLVRPSGQPPAFDDDDKAELLADVLQEQCTTSTQYADPEHTENYYHIGCVLPANKDWTPDSEFKSTWICLNCATKSRTVNDETPVRGNVRPRAPDTSNVTMRPLRAGSREREGPELQVVPLEQVRSIVRAEVQEAVACFRDTILELKSEISTLRDSVSFISDKYEAISKRFLEFNDHLKIIPTLKNELSILDSRMQSIDSQFNLKEQWSRRSNIEILGIPERKGENLIELVSKIAERAGFALNPQIDIDFVTRVAPMDRSSSRSKPVILRFVSRYRKDNMLAKLRRLKELKSSDIGFPHDSSRLYFNDHLTKNNKLLLKNVKKLAKEKFYKYVWFEDEVGFFEDISDTIITNPGDEFLCVSDFNIRNASWELIGVGGPSRLLNGDRTKRFVYRTIKRYNEDSSVDDSSRSGRPRSVRTPAVIKAVKARIQRNPKRKQKLLALQMGLSRTTVNRVLNEDLGLRAYRRKTGHRLNARLMDLRLKRCRALLKRSKEASQLVDRVQRGHYPTSVIVWWGISYEEVAEPYFCVKGIKTSAQVDQDTILEKVMKPLNNTMFNNQEWSFQQDSAPGHKARSTQSWLETNVSDFIRAEDWPSSSPDLNPLDYDLWSVLESTACSKHHDDLESLKQSVRLAVKKFPMERVRASIDNWPQRLKDCIAANGDHFE
Summary
Description
Tautomerization of L-dopachrome with decarboxylation to give 5,6-dihydroxyindole (DHI). Also catalyzes the tautomerization of the methyl ester of L-dopachrome and dopamine chrome. May play a role in melanization reactions during late pupal and adult stages. May play a role in melanization reactions during larval and early pupal stages.
Tautomerization of L-dopachrome with decarboxylation to give 5,6-dihydroxyindole (DHI). Also catalyzes the tautomerization of the methyl ester of L-dopachrome and dopamine chrome. May play a role in melanization reactions during late pupal and adult stages.
Major royal jelly protein 1: induces the differentiation of honeybee larvae into queens through an Egfr-mediated signaling pathway. Promotes body size increase by activating p70 S6 kinase, stimulates ovary development by augmenting the titer of vitellogenin (Vg) and juvenile hormone, and reduces developmental time by increasing the activity of mitogen-activated protein kinase and inducing the 20-hydroxyecdysone protein (20E). Most abundant protein found in the royal jelly which is the food of the queen honey bee larva. The royal jelly determines the development of the young larvae and is responsible for the high reproductive ability of the honeybee queen.
Jellein-1: has antibacterial activity against the Gram-positive bacteria S.aureus ATCC 6535, S.saprophyticus and B.subtilis CCT2471, and the Gram-negative bacteria E.coli CCT1371, E.cloacae ATCC 23355, K.pneumoniae ATCC 13883 and P.aeruginosa ATCC 27853, and antifungal activity against C.albicans. Lack cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Jellein-2: has antibacterial activity against the Gram-positive bacteria S.aureus ATCC 6535, S.saprophyticus and B.subtilis CCT2471, and the Gram-negative bacteria E.coli CCT1371, E.cloacae ATCC 23355, K.pneumoniae ATCC 13883 and P.aeruginosa ATCC 27853, and antifungal activity against C.albicans. Lack cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Jellein-4: lacks antibacterial and antifungal activity. Lacks cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Tautomerization of L-dopachrome with decarboxylation to give 5,6-dihydroxyindole (DHI). Also catalyzes the tautomerization of the methyl ester of L-dopachrome and dopamine chrome. May play a role in melanization reactions during late pupal and adult stages.
Major royal jelly protein 1: induces the differentiation of honeybee larvae into queens through an Egfr-mediated signaling pathway. Promotes body size increase by activating p70 S6 kinase, stimulates ovary development by augmenting the titer of vitellogenin (Vg) and juvenile hormone, and reduces developmental time by increasing the activity of mitogen-activated protein kinase and inducing the 20-hydroxyecdysone protein (20E). Most abundant protein found in the royal jelly which is the food of the queen honey bee larva. The royal jelly determines the development of the young larvae and is responsible for the high reproductive ability of the honeybee queen.
Jellein-1: has antibacterial activity against the Gram-positive bacteria S.aureus ATCC 6535, S.saprophyticus and B.subtilis CCT2471, and the Gram-negative bacteria E.coli CCT1371, E.cloacae ATCC 23355, K.pneumoniae ATCC 13883 and P.aeruginosa ATCC 27853, and antifungal activity against C.albicans. Lack cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Jellein-2: has antibacterial activity against the Gram-positive bacteria S.aureus ATCC 6535, S.saprophyticus and B.subtilis CCT2471, and the Gram-negative bacteria E.coli CCT1371, E.cloacae ATCC 23355, K.pneumoniae ATCC 13883 and P.aeruginosa ATCC 27853, and antifungal activity against C.albicans. Lack cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Jellein-4: lacks antibacterial and antifungal activity. Lacks cytolytic activity and does not induce rat peritoneal mast cell degranulation.
Catalytic Activity
L-dopachrome = 5,6-dihydroxyindole-2-carboxylate
Biophysicochemical Properties
0.33 mM for L-dopachrome
0.29 mM for dopamine chrome
0.11 mM for L-dopachrome
0.31 mM for dopamine chrome
0.29 mM for dopamine chrome
0.11 mM for L-dopachrome
0.31 mM for dopamine chrome
Subunit
Is present in royal jelly in different forms: monomer (55 kDa), oligomeric subunit (ca. 420 kDa), and water-insoluble aggregates in sediment after interaction with fatty acids (Ref.7). Interacts with apisimin to form the heterooligomer apisin (350 kDa) (PubMed:27721892).
Miscellaneous
Exhibits a growth factor-like action on primary-cultured rat hepatocytes by stimulating DNA synthesis and protecting cells from apoptosis induced by serum deprivation. Also activates mitogen-activated protein kinase, as well as protein kinase B, a key regulator of cell survival (PubMed:16290177).
Degraded proportionally to the period of storage, and is completely lost during storage at 40 degrees Celsius for 30 days.
Degraded proportionally to the period of storage, and is completely lost during storage at 40 degrees Celsius for 30 days.
Similarity
Belongs to the major royal jelly protein family.
Keywords
Alternative initiation
Complete proteome
Glycoprotein
Isomerase
Melanin biosynthesis
Reference proteome
Secreted
Signal
Repeat
3D-structure
Amidation
Antibiotic
Antimicrobial
Developmental protein
Direct protein sequencing
Fungicide
Feature
chain L-dopachrome tautomerase yellow-f
splice variant In isoform 2.
peptide Jellein-2
splice variant In isoform 2.
peptide Jellein-2
EC Number
5.3.3.12
Pubmed
EMBL
Proteomes
Pfam
PF03022 MRJP
Gene 3D
PDB
5YYL
E-value=1.34725e-13,
Score=194
Ontologies
PATHWAY
GO
PANTHER
Topology
Subcellular location
Secreted
Length:
3505
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.0665299999999998
Exp number, first 60 AAs:
0.00051
Total prob of N-in:
0.00024
outside
1 - 3505
Population Genetic Test Statistics
Pi
18.824283
Theta
177.280433
Tajima's D
-1.630911
CLR
1.318635
CSRT
0.0456977151142443
Interpretation
Uncertain
