Silkworm Genome Informatics Database

Gene

KWMTBOMO12491 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA001470

Annotation

PREDICTED:_uncharacterized_protein_LOC101737406_isoform_X1_[Bombyx_mori]

Location

Bomo_Chr21(-):4956487-4965444 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.755

CDS

ATGAGTGAACAGAGTGAAGTTAAATATTTAGATGGAGAGATAGTTTGGGTGAAATTGGGCTCATGCTGGTGGCCCAGTGAAGTAGTGGCCCCAGAGAAGCTTCCATCCGACTTGTTGTCTTCTTTTCGGAAGCCTCCTATAGCTATCGTGAAATTCTTCCAGGAGGACGCATATGAATATGTGAAGAACGAGAATTCTATCTCCAAATATGAATGTAGCCGGAAAATTGATTTTATCAAAAAAGGACTTTATATGTATAGAACTAAACATGGTCTAATGGAAAAATTCCCTGATGATGTAATTCATGCTGAAACATCTGTGGGAGGTGACCCAGACATCCTCTCCAGGGAAGAATTTCAAGAACCGAAAAGGCAAAGCTATGCTGGGCTCTTTGGCGATCCTAGGAAGACACCTAGCTCTGTGAAGAAAGGTAAGAGCGGAAAAAGCAGACAAAATGAATCTCTGCAAAACTTCACACCTACAAGAAAGATGAAAGAAAAAACAGATTACAAAGTACACATTTTAGTACAAGGTTCAAAAACACCTTGTACTGAGACCACTCAGGATATTTCATCAACGCCTTCTACAAGTGGAATTAATGCTGAGAATAACACATTAGAAGCTAAAACTGAACATGAAAATGAGGAAACTCAGAATGTTGAGAAACCAGTTTCTTCGAACTTTTCCACGCCGCTACCGTCTAGTTCCGGAATATATGCATGTCATGCTTGTCCATTTACAACAACGCGTTTGAATGTATTAATTCTACACAACAAAACTCATAGTCTTTCTTTTATGCCATATACACCATCACCTGTTCGTAAAAAGACCCTGACAAAAAAACCAAAATCATCTGTCAAGAACTCCGAAACCCGCAAGTCACGAATTCTGAAGGCCGATAAAGCAGTCAAGAAAGTATCAGAAGTAAAAAAACGACCAGCCGATGAAGTTTCTGTGACTATTGAAGAAATTAAAAAGACGAAAACTGATGAAGAAATCAAGAGCAGCTTATTAGCAGATTGGGATGATATTGATGAAGACTCAAATGATGAGTCCTCAACAATAGTGATGACAGGATCACCTGAAGTTGGAGTGGCAGTCGAGTCTCCTGCAGTTCCTACGCCAGCAGAAGTACCGAGTGCTCAGGTCCCTGCCGATGTAGTCGTGATTGTCGAAAAGAAATCCGATGACTCCCCTATAACTGAAAAAGCTGAGAGTTCAAGTGACTCAAAATACGAATTTTGTGAAGATGAAGACTGGACAATTGAAACAGATGCTGGTAGGAAAATACCAAGAGTAAAAAATCCGAAACGGAAAGATGAGGCAAAAAGCTTGGACGAAGATGAGGTTGCTAGAGAAGTAGCTGATATACTAAGTAAGACCAACGTCCCAGAGCTACCGTCCGTTCCGGAACCTTTAAAAGCGGAGGAAAATTTTCCTGAACCTCCAGTTGTTAAGTCACCAGATAAAAGTCGTGACAATTTCCCAGAGAAACCAGCTGAGAATCCTGTGATTGATCCTATACCAACTAAAGCTATTTTCAAAACGAAAACATTTTTTCGTAGTCGACACTCTAGAAGCCAAGACGCCATCGGGAAATATGTAGCAGAGCAGTTAAATGCAGTTGAAAGGATGGACATATCTGAAAGTGAAATTAATGGATCTGATGCCGTTTCCTCTCCGGAAGCAAGGGATTCACCACCTATAGAACCGGTGAAAGTAGCACGCTTAGCACCGAAAATACAACTAAAGAAAATGAAGGCAGAGGCGGCGCAATTACGCGAAAAAGAAAAGAATGCAGAAATCTCTGAGTGTTTTACAGACGACAACCAATTTGGCGATTACATGTCAAAAGCAACAGAATCTATGGACATTGATAAAACCGCAGGAGTGACCCTACCTAAAAATGTTTCCGTAAAAACAACAACAATGGATGTGTTGTATCCAACACAAGAAATCAAACCAATAAATGCTGATACACCTGATATAAGATCTCCCATAAAGATAAATAAAGTTGAGCGACACCCTGAAATAACAACTGAACCCAGAAAGACGGATAATAATTCTGTAGAAAACCAAGTGCTGAATCAGGAAAAAGCTGAAATTTCCATTTCTAAACCTCGCCCAGAAATTATTGAAAAAATAGTCACACCTAAAAAAATATATGAGCCACGATACATGAATGAGTCGACGGCTTCAGCAGTAGATGCTTTATTGAGCGTATCACGAGAGGCGGATCGTGTGACGCGCGTCATCAGTAACGATCCACCCGAAGATTTATTCGAAGATGATAATAAAGATAGCTTAAACATCAACGGTAATTATTTACAAAATATGGAATACGATAATGGTAATAGTGACCGAGTAAACGAGCCCATAACAACTATTGAAAAAGATAAAGCAGAACTGGAAAAAATCATCGATAATAATATCATTCAGACACGTATCTGTAGCGACGAATCGACACAGCCTAGTACTTTGAGTAAAATGCAAATTGACGACACTAATCAAGATATTGAAAGCAACGATGGATCGGTAAAAGAGGTTGATGTACCAATGAACCATACTGTCATGCCAATAGAGACGGTGCCATCAGAATCTGATCTGCAAATTGCCGAGACTCTTATCAATCTCCCGTCAACAGCAATTCAGTCAAAACCCAACGAACACCACGAGAATCTTACAATGCAACTCGCAATCGAAACTGAAAAGGATCATCAAATAATATTAAAATCAAACGAAAATGTACCTTCTGAGCAGGTCTCGCCTAGTTTAGGGGCGAAAAGTTTTTCAACAGAAATTGTGCCCATGAAAGACTCTATAACTGCAACTGGTAATGGCAATGTTAACTATCGTTACGAAACTGAGCAAGAAAAAAGCGAAAACTTGAATGCTGCCAAATCATTAGTACAGATGTCAGAAACTATAGATCATCAAATAAATATTATTGAATCGAATCAAAATAGTGATAAGAAAATGTCTAACACAAAAGCATTCAAAATTGAAGACCAAAGTTTTGATAGTGTCATAGAACAAAAAGTGTCGTTATTGTCAAACAGTGACAACAACAATGAACCAAACATCAGTATGAATGCTAAAATAGAAACAGCGACGCCTAAATTGTTGAAAATTTTAGAAAAACCATGCCTACCAAAAGTGTCTCCATCCAGTTCAAAGCAAATAATACTACCGAGGAAAGAAAATATCCTTAATTTTGATGTTGCCAAATCGGCATTAAAAGGAAAGGCACAATCTACAAAACAAAAAATTATAATCCGACGAACCACTCCGAACAAAAACGTTATTAACAATATGACTTCTGAAATTTCTACATCGTCGGACAAGATTATACTATCCAGAACTAACAATCCTGCGCAAGACCCTTCGTCGGTACAGACGTACACTATTAAAACATCACCAGAGGTTTCGTCGGACGCTAACACGATAATAATACAGCAAAAAATTAGAAAAGTAGCCAAGCCACCTGCGAAACTTCAGAAAATAAGACCTCAGAATTCTTTGATAGTGCCTATGAATGAGAAGAAGACCCTGAATAACTCAACACCAACCGACGATACTATGTTCGATATTAATTCGATGCCTATCGTTTTGTCTGAAGATTTGTTAACGGCAGAGAATATCGAAAAAATGCCCGTAGTCATGTCCGGCAACAGTACAGTTTCGAATCCATCCAAATTGATTAAAACGAAAATTACATCCGAGGCAAATGATAAAGTGCCGATTAGTGCGACACCTACTAAACCTGAAGTAAAAACTTTACTTATGAACCCCGTCAGTGAAGTTAATAAAGTTACAACTCCTAACATCCTTTCTAAATCATCTAAATTGCGAGGTGCTAAACCTATGCTGGTAATAGATAAAACCACTGGGAAACAAAAGATTATAATGACAAAACCTGAAACTACTGTCAAAGAAACAAAGCAGGCTCCTACGGTGGTCCAATCTGCTCAGGGTGGAAAAACTGAAAAATTCATTATTCTACCAACACCGAATTCTCCGCGGCCGAGTCGGACCCAAAAAATTGTAATCGATCCCCAAACTGGGAAGACTCACGTGCTTGTTTCGAAGGGACCAGAAACAACTGGCAATCCTGTCGATAATAAGCCGGTTTCTGCTAAATTGTTGCCGTCATCAACCGATGCCACTACACCGGGCAATACCGTTATGATCATCACCAATGCTCAGGGAGCACAATCTAGAATACTACTGACACCAGAACATGAAAAAATTTTATTCCCAAATAAACAACAACCAAACGTTTCCCAATTAAAAAGTATAGCTCATCGCCTAACATCTAATACGAATACGCAGAAAACTGTAACCACGATTGCTACCACAGTAAAAGCTCAACCTCAATCTGCTGCAGTTCAAAAAACTCAAACTAGGATCGTGCCAAAACAGAAAAGTACGATCATAACTTCTAAAGGTCAACTCATCGTTGGGGGTCGAGTTTCTACTACTGCACACAATATAGCTCCCATGCCTGAAATACGACCTGCCCCGAAACGAATAGTCACATCCGAACCAAAAAAAATAGTTCAGACAATACATAAAACTACCACTGAACCCCTAATATTTCTGCAACAAAAATCCGGTACAATGATGCAATTAACCGCAGCGCAATTCGAACATCTACAAAAAACGGGTCAAATAGTGCAGAAGCCTGCCACGCCGGCCCAAGAAAAGAAAATTTTAATTCAAAAGTCAATTACAATACCACAAAACGAAACTGCAGTCACTCAAATTCAAAAATCAAGAGCTAGGAAACAAATTACCGAGTCTCCAGCGCCGTTAAAGAAAATTAAACAGGAGATAGCGATCGCACCGGCTCCCTCGCCGAACTCGGTGCCGATGCCGGTTCTGGCTCCCCTTTCGTCTGGCCCTTCAGTGGCTTCGACCACAGCAAATGCTTTTCCGCAAACCACTTCAACGTATACCGAATATGAAAATTTCGAGGAACTCTTACCTTCTACCGCAATAGCAAAGCAAGTCGAGAGTGTGGTATCGCAACCAGAACAGGCCACTGCGCCGCTACCGGCTCCCCTCGCCGACAGTCACCTGTTGGCGGTGCCCGGAGAACCATTCGGAGGACCGCCTGGTTCTTTTTACTTATGCGTTGAAGATAATGGCACTCTTACGCCTATCGACAATCGGCCATTGATTTTAGAAAACAATCAGCTTGTCCCCATGGCGGTGGAGCCTTTACAAGTAATCGCTCCTCAACCTGAGCGCAGAGATATCTTGGAAGCGGCCCTGGCGAATAGTGACGTGTTTCACGCAGACACACCTCGGGACGACGCGCCCGATTTTAGGGACTTGAATGCTAACGTTTCGGTTCATTGTCGCGTATCAGAGACTAGTAGCACCTTAAATCAACCAATAATGACGCCGGTCGAGATGCCAACAAAGGCAGACAGCGAGCCGACCGTACCGTCGAATTTAGAAGACGGCTTAGCGGTCATCGGCGTGACCCCGCACACAGTGCCTACCTCCTTAGAACTACCGATAACGGTCACCGATCCCAGAATAGCCCCCAAGATGACGGATCCGTTAAGCAGCAATAATTACGGAACAACACTCTTAACGTCGCCCAACACAGAAATGACGTTCGTATCTACAGAGGAATCCACGACTCCAATGACCGCTACTATGTCAATGCCTTTATTAAACGAAGACGATTCCGTCGGGAAATCGATGCCGATTTTAACCGATGACATCGCGGAGAAAACTATTTCGTCAGTAGAATCGAACGCTGCATCTCCGTCGTCGGGGGGAGGCCGCGAGGCGGAGAGTGAGGACAGCGCGCAATGGACACGACGCCTATTCACGCCTGGCTCCGATATCTCAGAGACGTCTGCTGAAATACCATTACAACCCTCACTTCAGTTGTCTGTTAACGAGGCGTCCCGCCAATGCTAA

Protein

MSEQSEVKYLDGEIVWVKLGSCWWPSEVVAPEKLPSDLLSSFRKPPIAIVKFFQEDAYEYVKNENSISKYECSRKIDFIKKGLYMYRTKHGLMEKFPDDVIHAETSVGGDPDILSREEFQEPKRQSYAGLFGDPRKTPSSVKKGKSGKSRQNESLQNFTPTRKMKEKTDYKVHILVQGSKTPCTETTQDISSTPSTSGINAENNTLEAKTEHENEETQNVEKPVSSNFSTPLPSSSGIYACHACPFTTTRLNVLILHNKTHSLSFMPYTPSPVRKKTLTKKPKSSVKNSETRKSRILKADKAVKKVSEVKKRPADEVSVTIEEIKKTKTDEEIKSSLLADWDDIDEDSNDESSTIVMTGSPEVGVAVESPAVPTPAEVPSAQVPADVVVIVEKKSDDSPITEKAESSSDSKYEFCEDEDWTIETDAGRKIPRVKNPKRKDEAKSLDEDEVAREVADILSKTNVPELPSVPEPLKAEENFPEPPVVKSPDKSRDNFPEKPAENPVIDPIPTKAIFKTKTFFRSRHSRSQDAIGKYVAEQLNAVERMDISESEINGSDAVSSPEARDSPPIEPVKVARLAPKIQLKKMKAEAAQLREKEKNAEISECFTDDNQFGDYMSKATESMDIDKTAGVTLPKNVSVKTTTMDVLYPTQEIKPINADTPDIRSPIKINKVERHPEITTEPRKTDNNSVENQVLNQEKAEISISKPRPEIIEKIVTPKKIYEPRYMNESTASAVDALLSVSREADRVTRVISNDPPEDLFEDDNKDSLNINGNYLQNMEYDNGNSDRVNEPITTIEKDKAELEKIIDNNIIQTRICSDESTQPSTLSKMQIDDTNQDIESNDGSVKEVDVPMNHTVMPIETVPSESDLQIAETLINLPSTAIQSKPNEHHENLTMQLAIETEKDHQIILKSNENVPSEQVSPSLGAKSFSTEIVPMKDSITATGNGNVNYRYETEQEKSENLNAAKSLVQMSETIDHQINIIESNQNSDKKMSNTKAFKIEDQSFDSVIEQKVSLLSNSDNNNEPNISMNAKIETATPKLLKILEKPCLPKVSPSSSKQIILPRKENILNFDVAKSALKGKAQSTKQKIIIRRTTPNKNVINNMTSEISTSSDKIILSRTNNPAQDPSSVQTYTIKTSPEVSSDANTIIIQQKIRKVAKPPAKLQKIRPQNSLIVPMNEKKTLNNSTPTDDTMFDINSMPIVLSEDLLTAENIEKMPVVMSGNSTVSNPSKLIKTKITSEANDKVPISATPTKPEVKTLLMNPVSEVNKVTTPNILSKSSKLRGAKPMLVIDKTTGKQKIIMTKPETTVKETKQAPTVVQSAQGGKTEKFIILPTPNSPRPSRTQKIVIDPQTGKTHVLVSKGPETTGNPVDNKPVSAKLLPSSTDATTPGNTVMIITNAQGAQSRILLTPEHEKILFPNKQQPNVSQLKSIAHRLTSNTNTQKTVTTIATTVKAQPQSAAVQKTQTRIVPKQKSTIITSKGQLIVGGRVSTTAHNIAPMPEIRPAPKRIVTSEPKKIVQTIHKTTTEPLIFLQQKSGTMMQLTAAQFEHLQKTGQIVQKPATPAQEKKILIQKSITIPQNETAVTQIQKSRARKQITESPAPLKKIKQEIAIAPAPSPNSVPMPVLAPLSSGPSVASTTANAFPQTTSTYTEYENFEELLPSTAIAKQVESVVSQPEQATAPLPAPLADSHLLAVPGEPFGGPPGSFYLCVEDNGTLTPIDNRPLILENNQLVPMAVEPLQVIAPQPERRDILEAALANSDVFHADTPRDDAPDFRDLNANVSVHCRVSETSSTLNQPIMTPVEMPTKADSEPTVPSNLEDGLAVIGVTPHTVPTSLELPITVTDPRIAPKMTDPLSSNNYGTTLLTSPNTEMTFVSTEESTTPMTATMSMPLLNEDDSVGKSMPILTDDIAEKTISSVESNAASPSSGGGREAESEDSAQWTRRLFTPGSDISETSAEIPLQPSLQLSVNEASRQC

Uniprot

H9IW39 A0A3S2LS07 A0A212ESG4 A0A0N0PBB5 A0A194PYM7

Pubmed

19121390 22118469 26354079

EMBL

BABH01005930 BABH01005931 RSAL01000020 RVE52606.1 AGBW02012834 OWR44381.1 + More
KQ461068 KPJ09886.1 KQ459585 KPI98436.1

Proteomes

UP000005204 UP000283053 UP000007151 UP000053240 UP000053268

PRIDE

H9IW39

Pfam

PF00855 PWWP

Interpro

IPR000313 PWWP_dom

ProteinModelPortal

H9IW39 A0A3S2LS07 A0A212ESG4 A0A0N0PBB5 A0A194PYM7

KEGG

101737406 no KO assigned | (RefSeq) uncharacterized LOC101737406

GO

Length:

1979

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.000990000000000001

Exp number, first 60 AAs:

0.00059

Total prob of N-in:

0.00004

outside

1 - 1979

Pi

254.275753

Theta

228.324503

Tajima's D

0.03358

CLR

0.018289

CSRT

0.382430878456077

Interpretation

Uncertain

Source	Sequence	Identity	Evalue
27530593	RTHSGASGSNSPLTISFRN	100.00	6e-05
26280517	TMIQIPDIEVQYPAFK	100.00	2e-04
26280517	TSNSITGDPSIKGAPTDFTIK	100.00	0.001

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics