Silkworm Genome Informatics Database

Gene

KWMTBOMO14191

Pre Gene Modal

BGIBMGA011137

Annotation

PREDICTED:_uncharacterized_protein_LOC101746620_[Bombyx_mori]

Location

Bomo_Chr23(+):20124862-20170359 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.955

CDS

ATGTTAGCAATATAATGCACTGTCGTTCTGTACAACGTGAGAAAGAACCGACAGTCGCACGTTTTGAATTCGTCCCGGAAGAGCGTCACCTGCGTCTCGTTCTCCCCGGACGGGCGGTACCTCGCCACCGGGGAATGCGGACACGCGCCCGCCGTCCGGGTATGGGACCTCCAGGATCCTACAGCGTCCGGCGCTGTACAGATCGCGGAGTTCCCAGGACATACGCACGGAGTCAGCTGCGTGGCATTCTCCACGTCGTCGAAATACCTAGTATCCGTTGGCTCTCAACACGACATGATCGTGAACGTTTGGGACTGGAGAGCGAACCTCAAGCTGGCCAGCAATAAGGTGTCGTCTCGCGTGAAGGCCGTCAGCTTCGCGGAGAACGGCAACTACTTCGTCACGGTCGGCTTCAGGCACGTCAAGTTCTGGTACCTGGAATATTCGAGAAACGCTAAATTCAAAGAGCCGGTTCCGTTGATGGGCAGATCAGCGATACTGGGCGAGCAGAAGGACAATGAGTTCTGCGACGTGGTCTGCGGCCGGGGCGAGTCCGCGGACAGCACCTACGCGATCACGAGGGGCGGCCTGCTCTGCGAGTTCAACAGCAGACGGTTGCTGGACAAGTGGGTCGAGCTCAGGACGCAGTCCGCCAACTGTATGGCGGTGGGCGCTAATTTCATATTCGTCGGCTGCGCCGAGGGCATAGTTCGGTGCTTCGCCCCCGACACGCTCCAGTACATCACGACGCTGCCGAGGACGCACTACCTCGGCGTCGACGTGGCGCAGGGCACCAACATCAGCCACATGTTCTCGCAGCCGCCGCGCGCGCGGTACCCGGACGCGACGGCGCTGGCGTACGACGAGCGCGCCCACCGGCTCACGTGCGTCTACAACGACCACAGTCTGTACGTGTGGGACGTGCGCGACATCCGCCGGGTGGGCAAGTCGCACTCGGCGCTGTACCACTCGGCGTGCATCTGGGGCGTGGAGGTGTCCGGGGACGGCACGCTGCTGACCTGCTCCAGCGACGACACCGTGCGCATGTGGGGCCTGGAGCCGCGCGCGAGGAACATCTACAGCAATGAGCTGAATAAAATAGTGTACATAGACCCGGAGCTGAAGTTCCTGAAGGACGTGGACCTGACCGCCTCCAGCGAGAAGGACAAGTCCAAGTCGTACGACGACAAGACCGGCGTCAGGTGCGTGGCGGCGTCCGGGGACGGCGCGCACGTGGCGTGCGGGGACCGCGCCGGCAACGTGTGGGTGGTGTCGGCGGGCGGCGCGCTGCTGCACACGCTGGAGGCGCACGACGCGGAGGTGCTGGCGCTGCAGTACGCCGCGCGCCCGCGCCTGCTCGCCTCCGCCTCGCGGGACCGACTCGTGCACGTCTTCGACGTCGACAAGGGCTACCAGATCCTGCAGACGCTGGACGAGCACTCGTCCTCCATCACGGCGGTGCGCTTCATCGCGTCCGGCTCCGGCCTGCAGATGGTCTCCTGCGGCGCCGACAAGACCATCCTCTTCAGGCAGCTGAAGACCGACGGCAGCCGGCAGTTCGCGCGCGGACAGAACGTGTCCGGCCGCACCACGCTCTACGACATGGAGGTGGACGCCGGCGGGCGACACGTGCTCACCGCATGCCAGGACCGCAACGTGCGCGTGTACAGCACGGCCAACGGGCGTCACACCAAGACCTTCCGGGGGACCACGGCGGAGGACGGGACCCTCATCAAGGTGGCTCTGGACAGCAGCGGGATATATCTGGCGACGTCGAGCACGGACAAGATCTTGAGCGTGTACGACTACTACTCCGGGGAGTGCATGGCGACCATGTACGGGCACTCCGAGATAGTCACCGGCCTCAAGTTCACTCCGGACTGCCAGCACCTGGTGTCGGGGTCCGGGGACGGCTGCATCTTCGTGTGGAGGGTCCCGCACGACATGGTGGTGACGATGCGGGCGCGACTGGCGCAGCAGGCCATACGACAGGGGAAGAAAGTAGGTACGGTCAGCAACGGCACGTCGGGGCTGGAGAGCGAGGGGGAGTCGCAGTGGGGCTCGCCGCCGCGGGAACACTTCGCGCCGCCCCGCGTGCCCGACTACACTCTCCGCATAGGGCGGCTCCCGTCGTGGGCCAAGAAGAGCTTAGGGGACGACTTGGCGGCCCCCGAGAGCCCGGCGCCGGAGCCCCCCGCGCGGGGCAAGTGGGCCACCAGGATACACCCGGCAGAGAAACGTGTTGATTCAGACGGGTCCAAGGACAGCTCCCTCGACAGTGGTACCGACACAAGGTTCATTGAGAAGAGAAAAGAGAACCAATCGAAACAGGTTACGATTAACATTTCGAAGACCAGTGCACAGGATGGTCGTGTGAGGCATCACACGGACGACTCTTCCCTTGGCAGTTTTAAATACGAGGATCAAGAGTCGACGGAGCACGACGGTGACGTGGAGGACATCTCGGACGGCGAGAGGACCTCGTCTTCGGAGAGGGCGTCCCGGCCTACTTACTACCCCGGCAATAACGACGACGACACCCCGGGCGAGTTCATGGTGAACGCCATGGACGCTGAAGAGTTGAGGCAGTCGATTCGTCGCTCGAAGCGCTGGAAGACCGACTCCCCCCGGCTGGAGATACCACCCACCACCACCTCGCTCAGCGGCTCCGGCCACGACTCCGACGATGACGAGGTGTCCACCCCGTCCGGCGACAACGCGGACCGGAACCCTCTGTCGGCGTCCTGCGAGTCGCTGCCCCGCGCCGCCCTGCGCGAGACCTACGTGCGCGCCGCCTTCGACAGCCTGGGGGGGACCGACGCCGCGCCCGGCGCAGGACACAACTCACTGTCGTCGCAGCACCGCGCGCCCACGGTGTCTCGCAACAAGCTCCTGGACCCGGAGGCTGCGAGGAAACGAGAGGAACTCAACAGAAGGATACTGGAGACCAGGAGGCAGCTGGAGAATGTCGCGTTCAGATCGAACCTGAAGTCCAGCCAGTCCACGACGGACCTCTCCTACATCCCCGAGAAGGACAACGCGCGCAGGTCGCGACCCATGTCCATGGCCGTGCCAAGCAACACTCGACCTTACGGACTCGCCAATGCATTCCCGGAGGAAACTTTCGATAGTTTAAACTCGAATTACTTTGACAGCCTTAATCCTTGTCAGAATCCTATTCAGGATTACAGAAATAAGAATCTTTACGCCATACCGGCGAATCTGAACCACAGACTCCCGGAGTATAACGAAACTCCCCCATATGTACCACCACATTCGAACATCCACCCGATATCGAGCGATAAAAGACATTTGAACTTCATTCCCTATTCGAAACCGGTTTTCAAAGAGCAAACCCAACAGAAGCCTTCAGCGTTCACGGTGGACACGAAACCGGTTCAATCGAGGGTTTTCAACCGACTCTTCCCGGATAAAGAACCGCCTAAGGTTCCGCCTAGGAATTTCCACCTGAACCTAACGAAACCGGAGGAGAAACCTCCGCAGAAGTCACTAAAGCCAAACGCCAGGAGCATCTTCAAGAACTACAAGTCTTGTCCGGTCTCGCCAGTCTCTGAGGAGTGCAAATGGGCTGATAAAGTCGCCCAAAACGCCAAATGCGAAGGAAAAACTCACGAGACTAACTCTTTAGATCCGAAAAAGAGGAATTCTTTAAGCTTCTTCATCGGCATGGAAGTTAACAGCGGGAAAAGTGTCGTTGATACAATTAAAACCAACACAGAGAAAATGATAGCAGAAATTACGGAAAAATACGGAGATCTAGATGAGTTCACTCCCGGCGATAGGAGTGATCTGGATTTGAAACCGACTAGAGGAGAAAGAGACGACGGAAACTTCTCCTCGGACTCGCTGGAAGACTGCAGCTTGAGCCAAGACGCGAGCTGCAAGAACAAATTGTTTTCGAAGAAAGTCTGTAAAAAACACAATAAGAATCAACCCAGACGGGCCGTGTCCGATTATGAGATATACGGGGCATACGAGAAACCAGCCGTGCCCGCGAAACCCGCGAATATCGGGCAAAAAAGCTCGACTTTGCCAAGAAATATGCCGTCAAACCTCGACGAAGCCGAGGAGAACAATGCTGAATACATTTATAGATGCCAGAGCGTCTTAACGAAACGCTGCGTGACTAGATCCAATGAGTCGGTTTTGAGCGATAACTCCAATTGCTCGAGTGTCTCAAATGAGGTCTTTCTCAAATACGGAAACGAGGTTGCGTTCCAGCAAGCCAAATATGACAGCAGATACAATCTGGACGGCTCACAGAATTGTTCCTACGAAAATGTCAACGATGAGTATTTGGATCGACACAGACACAGCAGCGCCAGTTTCTTCTTAAACCAGAAGAAGTACATGAAATCCAGCTGCAGTCAGGAGTCTATATTGTCGGACGAAATGTATTTGGACAATGACAATCAACTGTCAAGGACGAATTGTAATTCGCTTGAAAGTGTCCTGTCTGACGACTCTGATTGTACCAAGAGCGCTCCACTGGAGATGCTGTTCGAAGGTGCCAGACCTAAGAGGCCAATGAAGGGCCAAGCCATACCCCGCAACAGTAAAAGCTGTTACGAATTCGACCACGCTTCGAAGAGCTACGGTTGCAGCCCGAATAATGCGCCCCAATTCGGCAGCTACATGATCAATAACTACATGGAAGTCAGTCCCAATTACCAAACCCCGAAGAGTCCAATAGGAAACATTAGCGTGCCGACCAATAAAGTTTATGGATTCAATGTGGACGCCGAGATATCAGGGCACAAGACGATAACTAGGTCTAAGAGTCTGTACGATTCGGGCAGTAAACAACCGCCGGTAGCTAAAAACATCGCTTACTATTTCGATGGTAGTAATGTCCAGCAGTACACGAAAGAAAAGAAGCCGCCCGATGAGATACCGAGGTTGAACAAGTCTGAATATATGTCAAATAAAACGAAATCCCTGCAGCCGAATTTCGCTGAAAAACAAAAATACAAAAGCGATTTATCCGCTTGCGAACAGAATACTATGATCAAATCGAAGAGTTGCAGCTTCGAAGTGGTTTTAGAGCCGGCTTCCAAACCTAATCCCCTGAAGAGCTTAATGGAGAAACGCAATTCGCACGTTCAGAAGAATCTGGAGAAATTCGAGGAGCAGATTCGCAAAAATACACAGAGCAAAACGACGAAGAACCAAATGAACAAAGACAAAGCGAACGGCTCAAAAAATAACAACGCCACCAAAAGCTTGGAGCGGGGTTCTGGACAGAAAAACAACAGTAAAATCACTATGGAATTCGTGCCCCACAAGCCGCCGAAACCGATCAAAAGAACCTCGTCAGTTAAAATGAATAACAGATTGAAGGCAGGGCTGGATAAACAGGGACTAGTCTCTTCCATATCGTCGCAGTACAAAGCAAAGTTAGATGGCCTTCATAACAAGAACTACATGGCCCACAAAAGGCAGGAAGACAAGAACTCCAACAACAACATAGACTCGAGTGAGAACCCCGAGAAAACCATAGAGGTTTTTGTTAAAGAGAAAGACGTCAATGAGAATAAATCAGAGATTCAGATGGACAGTCTAGAAGTTTACAGCCTGCAAAGAATGAAAGAAGTTAGCATGGATTCGCTAGACGTTTTAGAAGAATTCACAAAAGATTCATTAGACTATTACGCGGAGCAAGACAGTAAATTTTCCTTCGGAAAATCTATAAAAGACCAGATAAATTTGAAAATAGCTAGGAGTGATCGTGAAGCGCCATGTCACAGTCGACAGGCGGACGCCAAAGAAAACATAGCGCCGCCAGACGACGAAATAAAAAAATACAAGTACATCGAAAGAAAACTCGAGATAATCAACAAACTAGTTGAAATGGAAGAGCGGAAGATACTGCAGGAGAAAATATTGAAAGAATGGCGCATGAGACCACTGAAAGCTAACATAAACGACGGTACAGGTGTCGTTAAAGTGTTATCCAGAAAATTCGAGAAGTTAGCTACAAAACAATCAGCTAATTTCGCTTCGTTAACATTAGAAGAAGCGGACACGGATACAGAGAACAGCGAGAACAAGGAAATTAAACGTAATCTGAGCTTGCCCGATATTTTGGATACGGACCACATAAGCTTGGTTACCGCGGAAGGCGTAGACTCCGGTAAAGACAACGATTCGATGAACTTCCCTTACGAACAACCATTAAACAACACAGTACGAACAGATGCTCCGAAATCCTTGAAGCAACGGGTTTACAACGAAACGATAATACCGAAAACTGACGTTCATATAGACAGCGAAAACTATGAATCATCCACGACAAGCTCGAGCTGCACCAACTCCCCAAAAAGACTGTCTTTCTATGCTGGTCGCAACTATTTGTCGGCATCGGACCGCGAGGAGGAGGGGACCGGTATGAGGAGGGCGATATCTCTGTCGGACCTCGCCGCCAAGCCGATGCCGGCTCCCAGGACGCCGCAAGGTCAGACTAAGCCGGTCGCTCAGCAGCCTAGCAGTCAAAGCAAGTCCAGCTTCGTCCGCCCCCCACCGAGGTACAGCAACAAATCGAACATGACGAGGAGTTCCAGTGTCGGAGTACTGAACCAGAGTGACTCAGAATCGGATCCTCAGCCGTCCAGACCACAGTCGAGCCGTGCTCAAGGATTGATGCGACCAACGATTAGCTCCATGAATAAGGCGGCAGCCAACACGGCCAGGAGACGTGGCCTGTCGAACGCCTACAGCGCCGTGAGTCTCGCAACGGGAGGGCAAGAGGAGTCCAGTTCTGAAGCGGATGAGAGGAGGGGAGACGAGAAACCCTCGGCGCCGAGGCCCAGGTCCGGCTCCGTGGATGCCCAGAGGAGGATCGCGTCGTCGTCCCAGCTGTGCGCGGCGCTGACGGAGCAGCTGACCCGCACGGCCGGCAAGGTGGCGCAGCTGTACGCCAGCCTGCGCCGCGCGCCCGCCGCCGCCGCCGACCTCAGCGGTTTGGAAGCCGCGATACTGGAGACGCAGAAGGTCCTGCGCAGCGCCGTGTCGGGGGGCGAGCCGGGGGGCGCAGGGGGGCTGGGGGACGCGGGACCCCACAGCCTGACCCCCGCCGAGGGAGACGCGGGAGTACTCGATGTGGACTCCACAAGAGAGAAACTTGAAAATTTAGTTGCTAAAGAGGTCAACGCAACGAATCCAGCCATGTCTCTGATCGAGCAGTACTCCGACCTCCTCCTCAATATGATGCAGAACAAAATGGTGAACCAGTTCTCGTCCAGTCCGCAGAGTCTGCCGCCCAGCGCGTCCCGGGGGGCCGGCCGGGAGAGTTAG

Protein

MLAIXCTVVLYNVRKNRQSHVLNSSRKSVTCVSFSPDGRYLATGECGHAPAVRVWDLQDPTASGAVQIAEFPGHTHGVSCVAFSTSSKYLVSVGSQHDMIVNVWDWRANLKLASNKVSSRVKAVSFAENGNYFVTVGFRHVKFWYLEYSRNAKFKEPVPLMGRSAILGEQKDNEFCDVVCGRGESADSTYAITRGGLLCEFNSRRLLDKWVELRTQSANCMAVGANFIFVGCAEGIVRCFAPDTLQYITTLPRTHYLGVDVAQGTNISHMFSQPPRARYPDATALAYDERAHRLTCVYNDHSLYVWDVRDIRRVGKSHSALYHSACIWGVEVSGDGTLLTCSSDDTVRMWGLEPRARNIYSNELNKIVYIDPELKFLKDVDLTASSEKDKSKSYDDKTGVRCVAASGDGAHVACGDRAGNVWVVSAGGALLHTLEAHDAEVLALQYAARPRLLASASRDRLVHVFDVDKGYQILQTLDEHSSSITAVRFIASGSGLQMVSCGADKTILFRQLKTDGSRQFARGQNVSGRTTLYDMEVDAGGRHVLTACQDRNVRVYSTANGRHTKTFRGTTAEDGTLIKVALDSSGIYLATSSTDKILSVYDYYSGECMATMYGHSEIVTGLKFTPDCQHLVSGSGDGCIFVWRVPHDMVVTMRARLAQQAIRQGKKVGTVSNGTSGLESEGESQWGSPPREHFAPPRVPDYTLRIGRLPSWAKKSLGDDLAAPESPAPEPPARGKWATRIHPAEKRVDSDGSKDSSLDSGTDTRFIEKRKENQSKQVTINISKTSAQDGRVRHHTDDSSLGSFKYEDQESTEHDGDVEDISDGERTSSSERASRPTYYPGNNDDDTPGEFMVNAMDAEELRQSIRRSKRWKTDSPRLEIPPTTTSLSGSGHDSDDDEVSTPSGDNADRNPLSASCESLPRAALRETYVRAAFDSLGGTDAAPGAGHNSLSSQHRAPTVSRNKLLDPEAARKREELNRRILETRRQLENVAFRSNLKSSQSTTDLSYIPEKDNARRSRPMSMAVPSNTRPYGLANAFPEETFDSLNSNYFDSLNPCQNPIQDYRNKNLYAIPANLNHRLPEYNETPPYVPPHSNIHPISSDKRHLNFIPYSKPVFKEQTQQKPSAFTVDTKPVQSRVFNRLFPDKEPPKVPPRNFHLNLTKPEEKPPQKSLKPNARSIFKNYKSCPVSPVSEECKWADKVAQNAKCEGKTHETNSLDPKKRNSLSFFIGMEVNSGKSVVDTIKTNTEKMIAEITEKYGDLDEFTPGDRSDLDLKPTRGERDDGNFSSDSLEDCSLSQDASCKNKLFSKKVCKKHNKNQPRRAVSDYEIYGAYEKPAVPAKPANIGQKSSTLPRNMPSNLDEAEENNAEYIYRCQSVLTKRCVTRSNESVLSDNSNCSSVSNEVFLKYGNEVAFQQAKYDSRYNLDGSQNCSYENVNDEYLDRHRHSSASFFLNQKKYMKSSCSQESILSDEMYLDNDNQLSRTNCNSLESVLSDDSDCTKSAPLEMLFEGARPKRPMKGQAIPRNSKSCYEFDHASKSYGCSPNNAPQFGSYMINNYMEVSPNYQTPKSPIGNISVPTNKVYGFNVDAEISGHKTITRSKSLYDSGSKQPPVAKNIAYYFDGSNVQQYTKEKKPPDEIPRLNKSEYMSNKTKSLQPNFAEKQKYKSDLSACEQNTMIKSKSCSFEVVLEPASKPNPLKSLMEKRNSHVQKNLEKFEEQIRKNTQSKTTKNQMNKDKANGSKNNNATKSLERGSGQKNNSKITMEFVPHKPPKPIKRTSSVKMNNRLKAGLDKQGLVSSISSQYKAKLDGLHNKNYMAHKRQEDKNSNNNIDSSENPEKTIEVFVKEKDVNENKSEIQMDSLEVYSLQRMKEVSMDSLDVLEEFTKDSLDYYAEQDSKFSFGKSIKDQINLKIARSDREAPCHSRQADAKENIAPPDDEIKKYKYIERKLEIINKLVEMEERKILQEKILKEWRMRPLKANINDGTGVVKVLSRKFEKLATKQSANFASLTLEEADTDTENSENKEIKRNLSLPDILDTDHISLVTAEGVDSGKDNDSMNFPYEQPLNNTVRTDAPKSLKQRVYNETIIPKTDVHIDSENYESSTTSSSCTNSPKRLSFYAGRNYLSASDREEEGTGMRRAISLSDLAAKPMPAPRTPQGQTKPVAQQPSSQSKSSFVRPPPRYSNKSNMTRSSSVGVLNQSDSESDPQPSRPQSSRAQGLMRPTISSMNKAAANTARRRGLSNAYSAVSLATGGQEESSSEADERRGDEKPSAPRPRSGSVDAQRRIASSSQLCAALTEQLTRTAGKVAQLYASLRRAPAAAADLSGLEAAILETQKVLRSAVSGGEPGGAGGLGDAGPHSLTPAEGDAGVLDVDSTREKLENLVAKEVNATNPAMSLIEQYSDLLLNMMQNKMVNQFSSSPQSLPPSASRGAGRES

Uniprot

A0A2W1BMV8 A0A2A4K135 A0A2A4K1G7 A0A2A4K013 A0A194PZ07 A0A194RIF0 + More
A0A212F738

Pubmed

28756777 26354079 22118469

EMBL

KZ149959 PZC76402.1 NWSH01000303 PCG77604.1 PCG77603.1 PCG77605.1 + More
KQ459593 KPI96390.1 KQ460152 KPJ17337.1 AGBW02009929 OWR49555.1

Proteomes

UP000218220 UP000053268 UP000053240 UP000007151

Pfam

PF00400 WD40

Interpro

IPR036322   WD40_repeat_dom_sf        + More
IPR015943   WD40/YVTN_repeat-like_dom_sf
IPR001680   WD40_repeat
IPR017986   WD40_repeat_dom

SUPFAM

SSF50978 SSF50978

Gene 3D

2.130.10.10

ProteinModelPortal

A0A2W1BMV8 A0A2A4K135 A0A2A4K1G7 A0A2A4K013 A0A194PZ07 A0A194RIF0 + More
A0A212F738

PDB

2YMU E-value=5.17675e-17, Score=222

KEGG

101746620 K21763 mitogen-activated protein kinase binding protein 1 | (RefSeq) uncharacterized LOC101746620

GO

GO:0016301 GO:0005515 GO:0016891 GO:0051287 GO:0005488 GO:0005507 GO:0004713 GO:0016491 GO:0015930

Length:

2437

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.0364500000000001

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00173

outside

1 - 2437

Pi

17.6773

Theta

18.267071

Tajima's D

-0.872791

CLR

1.266928

CSRT

0.157542122893855

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics