Silkworm Genome Informatics Database

Gene

KWMTBOMO00386

Pre Gene Modal

BGIBMGA000508

Annotation

PREDICTED:_LOW_QUALITY_PROTEIN:_uncharacterized_protein_LOC101747134_[Bombyx_mori]

Location

Bomo_Chr1(-):11403510-11410178 View in EpiBrowser

Location in the cell

Nuclear Reliability : 4.06

CDS

ATGGCACCTAAAAAATCGAAAGACGTTGCTGATGAAAACTATTGGCGTAGAAATATTGAGGACGCCAAATTAGATGAAGAAAACTGGAAAGTAAAAGTTACTATCCTTGAAGCTGCTGACAGTGATAACGCCAGAAACTATCTTAACAAGTTCGAAATTTTCGCTACGGAAGAAAAACGATTTGTAATAAAGAGCATATCCAAGACTGAAACAACATTTATGGTCAATCAACTTGGAGGTGAGAAAAAGAATAAAGAAGATGATAGTTGTCGTGTTTTTGAAGAAGGTCAACTTTACTTAAAAGAAAAGAAAGAGATGCCGGCTCACGTTCAAGCTCTTATCATAAAGCATCTTATTTTAAAAATGAAGGAAGAATATCTTCTTATAAAAAGAAGGAGACTAGAAGTAAAAGAAGGTATGCGCAGAGAATCTATTACGATGGTTGACCGAAGCGAGATAAGAGGAATCGTATCAGTCAAACCCCAAGAGCTACCTCCATCACCCCCGCCCGTCAAAAAAGGGAAAAAAAATGATGTCGATGCATCATTTTTGTTACCCGAACCGGCTGAAGACAAAAAATACAATACACAACTCAGGGTCAGAGGTGAGGAATGGCGTGACAAAGTATATGTTGACGATTTTCCAACGGATGGTCCTAATCTTTATGTAGCGATAACAGGTTTTGTTGAACCACTTTTGCCAGGTTGCCTTATTTCAATCGGCGTACCTATTACAGCGATAGTTCAAATAAGAATTAATCCAAGTCCAACAGCCGAAACTTCAGGACAATTTAAAGCTGCTAAAAGAGGTCAAAGTCAAACAGAACTACTTAAAGAAAAATCTTTTAAATTTTGGGACGATTTACAAAATTTACGGGTGCAAAAAGACACTGCGGATGTTTTTACTGATACCGCTTTTGTAGTTTTCTCTCCTCCGTATTGGGATAACGAAAAAATGTCCGGATCCCCTGATAAAATATATGACGAGGTTTGTTTTCTTCTTTATGATATTCAAGATTTAACTAGGCAACACGATCATTACCTAGATAGCATGGAAATTATAAATATTCCGTCTTATACAAATTATGAGAAGTACAAAAGAGAATACAATCAATTAATGAATGATTATCCAATGGAATGTATTACTTTATACACTTTATTAGATAACGTCCTTCAAATTGTGTGTAATCATGAAGAATTAGACAGCAAGAGTAGTAGATCTTCATTATCAACAGCTTTAACTATAATTCAATCGCCAAATAAAAATGAGAGCGACAAATTACAACGAGCAGAAAATTTAGTGAAAGATGTATTCAAATCTTTATGTAAAACTGAAGATACAAAAAAAACGTACCGGACTACACAAGGATATGAATATGAACATCAGAAAGATGCGATTATAATTAACTATGGCGATATTGCTCAGTACAGTACTTTCCAATTAGGAAATATAAATTTGGACAATATCGTTCGATCATCTTTACTTGGAATGCCCATTAACAGATTGTGGCATAATGTAAAAATACCCAATAATGAAATGGAAGCCAAAGCTAATTTTCATAAAAATGTTTTGCTGTCATGCTTTGAGAGAGATGATGTAGAGACATCGGAGTTACATAGATTGATCCATATATTAGCTTTCCGAAAGCTATACAATAATAGAAGTTCTTTAAAAAAAAGTGATGTAGTTTCAAAAACGATTTTTGACTTTAAAAAGAAGTATTTAAAGCGTAGCATACTCGCGGAACCTTTGTCAAATTCACCATCTTTAAAAAACTACAATTTTTCGGCACATTCTTTTCCTTCTATAAACAAAAGTGAAAATGGATCTGAGATGTCCTACAGCGGTGGATCAGAATCGAGAAGTATAAAATTTGTATTTGACTGTCCTGATATAAGTGAATTGGTCTCTGAAACTGAAATCGTTAACGAAAAACCATCTAGTCATTTAATCGATGATTTTGATTATTTTGAAGACTTCACTGGTATAAGTGCCTTCCAGATCATTCTAGAAGCGTTTAATACATTCAATTGCGTTGATTATAAATATTGCGAAGTCACAGATACATTTGTACTTATGTTTTTCAATAGTCATAACAAAGATGGTATAGCGTGTGAAGAATGGAGAAGCCATATACCAACACCATTATGCTTGCAAGACTTCTTTGATTATACTCTAGAAGAACACTACGAGTGGATACAAAAAGAAGAAAAAGCATATGATGAACATGTTATATTTAAAGTTCAATCACAGTTCACTGATCTGAATCAATATGATCCAAATTCATGCTTAGATAATGTAATTGGCGATGAACTACTGATTGAAGGTTCTCTTAAACATCGAGAAATTAAACAGAATGAAGTAATCAGTCCAGAGATAACAGAAGTGAAAACCAATTCTAAAAAAACGATAACATCGCCAACAACTGATACTGATTCCAAAACCACTAAAAAAACAAAATCCTCGACACCTAACACGCCAAAAAAGGTAAGAAGATCATTTATATTACCAGGAAACGATTCTGAGATTGTCATTATAAAAAAACCTTTTTTGGGATATGACTTAGGAAATAGACGGGTCGAAGTATTCGGGAGGGATGCTTCATTCTTTTCAAAGGATGGGACGAAATTGAAAAGTACATACACATTGTTTCTACCCACAAATTTAGAATATTTGACACTAAGTGTTACACCAGGAAACAGAGAAAATGTCTTCTGGTTTCATAGAGCACTGAGTGAGATGGTTTCAAATGATATATCGGATGTGTGCAATTCATTCAGAATTTCAACCAAAGATCAAGTGATGATAAATATAAAATGTCAATCACAACCAGGAGCAATACCTATTGCAATGTTTGGTTGCAATGAAGAGTCGAACTATAAGGAAGATAATTTAAAAACGAACATTCCAATAAGCTCTAGCACTCCTGTAGAACAAATGCTACTTTGCTTTTCCCTATATGTTACTTGGCCTAATGGACTTGTTACAGAAACAGTGCACGAAAAAGATTCCTCAAAAATATCTTATATTAAGCAATACTATGTTTGCTCTCTGAATACTGACGAAAGATTGCGCTGCGTAAACGTAAACGGTGAAGTTATCATATTTAAAAAATCTGGTCAAGTCGAAACGTTACGCCCTGATGGTTCTATTATAAAAATAATAAATTGTCAAAAAAGAAGTTATATCCATTTACCAGACGATTCCATAAGTGAAAATAGTTCTGAAAAAAGTAAAAAGGGTAAAGGAAAAGATAAAAGTAAAGACGCCAAAGATAAATCCAACAAAACCTCAGCAAAATCTTCTAAAAATTTGATATTAGAAGACGAGAACATTACAAACCCACAACAAATGGAACCAGAGTTAGTTATAGAAGAGTTTGATACGATTGATACAAATGGACTTCACGAAAAATATATTAAAGGCAATGTTTACAAAATGAAAAATATACTTATCCGAACAGCTACTGATTTTTGTCTAGGTGAGATTTTTTCTAGACGAACTGATGGAACTAACATATTGCTGAACAAAGATGGAGTACAAGTCGTAAGTTTTCCTGATGGCACCAGAATAATCACAAAATACGTTGAGGAAGCGGAAGAAATTTATCCTGAATGGTCCGAAGAAGAAATTATCTATTATGGATTATTTAATTCCAATAATATTGATTCAGAATCAACGAAATCTAAGGTATCCGCGTCTCAAAAAAGCGGCAGAAGCTCTTACCTTGAAACTAACAACACAGTTGATACTCTAAATATCTCTTACATTAAAAACAATGAGGAAATAGAAACGGACATAGAAAGAAATGATGGATACGTTTCCGTTAAAAACATATATACAATTGAACATAAAAATTTCACCACCATCACTGTTAATACCTTAAATGAAACGGTCTCTGTTGAATCACCAAATAAAACTAAAATTACTCTTGACAAATATAATCATTTTGAATTTGATCTAGACTCTGTGACTAAAGCTAGTTTTAATGGGGACACAGTCAACATAGATTATACTGCTTGTGTCGATTGCGAATCGAAAACTAAATGTGAAATTGAAATTAGAGCCGAAAAAGAGAAAATCGATCCAAAATCCCTACAAAATTGGTTAAAAATGAGGGATTCTTTTAATAAAAAAATTGTTGTTAATGAAGAAGGTGCTATCAATATAGAAGACCATCATTGTTCTTCAGAAAATATCAATTCTGGTATTTCTAAAAATGATATCGGAGCGGATGTTGTAAGCGACTATAACTTAGAAGGAGTTGAAGATGAAAAGTTTGAGGGCCCTAGTTTATCTCACGGAAAGTGCAGGGATGTTTATTTAGCAAAGACACTGCGTTTCTTTGTTTTAAAAAGAACGTTAACCTGTTCGGAATTGGTGCATCGGGATTTGTTGGAGCAATACAAAGAAGCTTGTCGTTGGCAGCCATGGTGCTCAATCAACACATACGACGTATTTGGAGATCGGCGAACTCTACTCTCAATACTCACTCCAGTGCACCTCACAGAATCTGAGAAATGGCTCATGGATTCTACGTTAGCGGACAAACCTAAGTATCTCACGTACAAAGATTTAAAGAAAGACAGCGGTAAAGGTTTCTACCACTGGATGCGACCTTACAATCGTTTTACTCCGAGACCGGCCAAACCTGAGAATGTTCTGCCACCCAGATTACCTAGAGCCTATATCTTGAGGACATTAGAACAACAATGGTCCGATAAGGAACGTGAAACACTAAAAGGTGCTAAGGAGCTTTTGTTTGCTGTCCTTCGATATCGACAAGTGTTGGAAGATGACAGGCAAAGACTACTTGATATGTCCGTCCTCGATCAGAGAGCTGAGGACGAACGCCACATTGACGACATCATACAAGCTCTTGGATACAGGTTACAATGA

Protein

MAPKKSKDVADENYWRRNIEDAKLDEENWKVKVTILEAADSDNARNYLNKFEIFATEEKRFVIKSISKTETTFMVNQLGGEKKNKEDDSCRVFEEGQLYLKEKKEMPAHVQALIIKHLILKMKEEYLLIKRRRLEVKEGMRRESITMVDRSEIRGIVSVKPQELPPSPPPVKKGKKNDVDASFLLPEPAEDKKYNTQLRVRGEEWRDKVYVDDFPTDGPNLYVAITGFVEPLLPGCLISIGVPITAIVQIRINPSPTAETSGQFKAAKRGQSQTELLKEKSFKFWDDLQNLRVQKDTADVFTDTAFVVFSPPYWDNEKMSGSPDKIYDEVCFLLYDIQDLTRQHDHYLDSMEIINIPSYTNYEKYKREYNQLMNDYPMECITLYTLLDNVLQIVCNHEELDSKSSRSSLSTALTIIQSPNKNESDKLQRAENLVKDVFKSLCKTEDTKKTYRTTQGYEYEHQKDAIIINYGDIAQYSTFQLGNINLDNIVRSSLLGMPINRLWHNVKIPNNEMEAKANFHKNVLLSCFERDDVETSELHRLIHILAFRKLYNNRSSLKKSDVVSKTIFDFKKKYLKRSILAEPLSNSPSLKNYNFSAHSFPSINKSENGSEMSYSGGSESRSIKFVFDCPDISELVSETEIVNEKPSSHLIDDFDYFEDFTGISAFQIILEAFNTFNCVDYKYCEVTDTFVLMFFNSHNKDGIACEEWRSHIPTPLCLQDFFDYTLEEHYEWIQKEEKAYDEHVIFKVQSQFTDLNQYDPNSCLDNVIGDELLIEGSLKHREIKQNEVISPEITEVKTNSKKTITSPTTDTDSKTTKKTKSSTPNTPKKVRRSFILPGNDSEIVIIKKPFLGYDLGNRRVEVFGRDASFFSKDGTKLKSTYTLFLPTNLEYLTLSVTPGNRENVFWFHRALSEMVSNDISDVCNSFRISTKDQVMINIKCQSQPGAIPIAMFGCNEESNYKEDNLKTNIPISSSTPVEQMLLCFSLYVTWPNGLVTETVHEKDSSKISYIKQYYVCSLNTDERLRCVNVNGEVIIFKKSGQVETLRPDGSIIKIINCQKRSYIHLPDDSISENSSEKSKKGKGKDKSKDAKDKSNKTSAKSSKNLILEDENITNPQQMEPELVIEEFDTIDTNGLHEKYIKGNVYKMKNILIRTATDFCLGEIFSRRTDGTNILLNKDGVQVVSFPDGTRIITKYVEEAEEIYPEWSEEEIIYYGLFNSNNIDSESTKSKVSASQKSGRSSYLETNNTVDTLNISYIKNNEEIETDIERNDGYVSVKNIYTIEHKNFTTITVNTLNETVSVESPNKTKITLDKYNHFEFDLDSVTKASFNGDTVNIDYTACVDCESKTKCEIEIRAEKEKIDPKSLQNWLKMRDSFNKKIVVNEEGAINIEDHHCSSENINSGISKNDIGADVVSDYNLEGVEDEKFEGPSLSHGKCRDVYLAKTLRFFVLKRTLTCSELVHRDLLEQYKEACRWQPWCSINTYDVFGDRRTLLSILTPVHLTESEKWLMDSTLADKPKYLTYKDLKKDSGKGFYHWMRPYNRFTPRPAKPENVLPPRLPRAYILRTLEQQWSDKERETLKGAKELLFAVLRYRQVLEDDRQRLLDMSVLDQRAEDERHIDDIIQALGYRLQ

Uniprot

A0A212EGL1 A0A2H1VQ69 A0A2A4J0R3 A0A2A4IT69 A0A194QMZ2 A0A194PG00 + More
A0A0J7L1S3

Pubmed

22118469 26354079

EMBL

AGBW02015069 OWR40610.1 ODYU01003781 SOQ42969.1 NWSH01004012 PCG65571.1 + More
NWSH01006951 PCG63177.1 KQ461196 KPJ06340.1 KQ459605 KPI91958.1 LBMM01001371 KMQ96429.1

Proteomes

UP000007151 UP000218220 UP000053240 UP000053268 UP000036403

Interpro

IPR026173 SPAG17

ProteinModelPortal

A0A212EGL1 A0A2H1VQ69 A0A2A4J0R3 A0A2A4IT69 A0A194QMZ2 A0A194PG00 + More
A0A0J7L1S3

KEGG

101747134 no KO assigned | (RefSeq) uncharacterized LOC101747134

GO

PANTHER

PTHR21963

Length:

1632

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.41488

Exp number, first 60 AAs:

0

Total prob of N-in:

0.01822

outside

1 - 1632

Pi

3.342706

Theta

5.860179

Tajima's D

-1.510047

CLR

1.017185

CSRT

0.0554472276386181

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics