Silkworm Genome Informatics Database

Gene

KWMTBOMO13319 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA004675

Annotation

PREDICTED:_uncharacterized_protein_LOC101744556_[Bombyx_mori]

Location

Bomo_Chr22(+):13547573-13559436 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.736

CDS

ATGGAATACAAAGTGAATTTAATATTCCTTGTGGTATTTAGCTCTAAAATTGTTGTATCTATTCCTTATAATGAGGAAAATGTGAGACAAAGAGCATACCCTGCTATCAATTGGCCATCAAACCTTCAAGCAAGGGAAAATCCAAATTTTGCACCACCTCAAAATTTTCATGCTGCAGTATATCAAAAACCTTATTATCAAGAAATGGCGCAACGTAGAATAAATTCTCCCAATGAAGAATTCCGTGCACCACCACTTGCCGCATTGCCGAAAGCGTTTGAAACTCCAACGGGATATAGAGTTACTGGTACGAGAAATGATCAGAATTATTATCAAAACAACGGACAAAATGGATTGAGGCAATTCCAACAAATCAATGTACCCCCAGTCCGACAAAATCCTGTTATTGAGCAGACTTATTTTCAACCGATTCGGGAACCTTTAACTTCAGTTTCACAAAATGGAAATCCACAGGGGCAATACCCTAGATCGGTCCTTCCCAATTACTATAACCAACAACCCCTACCTCGACTACAAGCGTCACAATTTAGATCAAATTACATGAATGTTCCTAATGCAGAAGTACAGCGACCGTGGGTACAAAACATGCGCGGGGCTTATGACAATAAAACCCAATATCTAAGTAATGAACCTTCAGTAAATCCTAAAGAAATAGCCAGGAGCGCTATTGAGTTACAAAATAAATATCAATCCCCAATGGAACACCTACCTCGAATTGTAAACAGAAATCTAGCAACAAACTCACAGATGAATTCTGGATATATACCTGGAGATAATAGACGCCCAGAAATGCGGAATATACTGGCGGCTGGAACAAATACTAATTTGGATAAAAACCATAAAACGTTTATGATAGATGACCCTAGAGGAAATGTAGAACTGGTAGGGAACTTGAGACCACATGAAAATAAGAACGATGTTTTGGTAAATGCGAAAGACATCCTGGGAAAGACAAATGAAGGCCAATCACATCCAACTTTCAGGCCTCAAGTGATAAACCAGCCTCAAGTGATATCATCAACTACTGGCACAGATATTTTTCTGCATAATGATGTGCAAGACACCGTTGCCAATACTGTACTTAACGCGAAATCAGTACCATACAATAAACCTTTATTACAAGAAAATGCGGTTCAAAATCCTGCTGTTTTAGATTCAATTTCAAGTTACAGAAGCCAACCACGGGTGAAGTCATCAAATACAAAATTTTTGCTACGTGATGATTTACAAGACACTGTTCCCAATACTGCGCTTAATACTGCGCTTAATACTGCTTATACGAAATCAGTACCAGATAGTAAGCCTTTGGTGCAAGAACAAGGGATTTCGAATTTTGCCGCTCTAGATTTGAATCCAAGATATAGACCCTCGGGACAAAATGTAGACCACCCTCGGGTGACGTCATTAAGTACTGATACAAAGATTTTGCAACGTCAAAATTTTCAAGATACAGGTTCTAATACTACATTTAATATCAAATCAGTACCAGACAATAGACCTTTAGTACAAGAAACTGTGGTTCTGAATCCTGCTGCTGTGGATACGATTCCAAGTCACAAAGAGCAGCCCCAAGTAATATCAACTATTCAAACAGAATTTTCACGGGGCGATCGTCTAGAAGATACGGCTCCCAATACTGCATTTAATACGAAATCAGTACCATACAATAAGCCTTTGGTACAAGAAGAGGCAATTCCAAGTTTTTCTGCTCTAGATTCGGACCCAAGTCATAGAAATCAGCCTCGGGTAACGTCATCAACTGCCGACACAAAAAACTTGCTACGCCATGAGTTACAAGATAAGGGTCCCAATACTGCATTTAATATAAAATCAGTACCATACAATAAGCCTTTGGTACAAGAAGAGGCAATTCCAAGTTTTTTTGCTCTAGATTCGGATCCAAGTCATAGAAATCAGCCTCGGGTGACGTCATCAATTGACGACACAAAAAACTTGCTACGTCATGAGTTACAAGATGAGGCTCCCAATACTGCATTTAATATAAAATCAGTACCAGATAATAGACCTTTAGTACAAGAAACTGTGGTTCTGAATCCTGCTGCTGTAGATATCATTCCAAGACACAAAGAGCAGTCTCAAATAATACCAACTATTGAAACAGAAATTTCACGGGGCGTTCGTCTAGAAGATACGGCTCCAAATACTGCATTTAATATGAAATCAATACCATACAATAAGCCGTTAGTACAAGAAGAGGCAATTTCAAGTTTTTCTGCTCTAGATTCGGATCCAAGTCATAGAAATCAGCCTCGGGTGACGTCATCAATTGCCGACACAAAAAACTTGCTACGTCATGAGTTACAAGATGAGGCTCCCAATACTGCATTTAATATAGAATCAGTACCAGATAATAGACCTTTAGTACAAGAAACTGTGGTTCTGAATCCTGCTGCTGTAGATATCATTCCAAGACACAAAGAGCAGTCTCAAATAATACCAACTATTGAAACAGAAATTTCACAGGGCGTTCGTCTAGAAGATACGGCTCCAAATACTGCATTTAATACGAAATCAGTACCATACAATAGGCCGTTGGTACAAGAAGAGGCAATTCCAAGTTTTTCTGCTCTAGATTCGGATCCAAGTCATAGAAATCAGCCTCGTGTGACGTCATCAATTGCCGACACAAAAAACTTGCTACACCATGAGTTACAAGATGAGGCTCCCAATACTGCTTTTAATATAAAATCAGTACCAGATAATAGACCTTTAGTACAAGAAACTGTGGTTCTGAATCCTGCTGCTGTAGATATCATTCCAAGACACAAAGAGCAGTCTCAAATAATACCAACTATTGAAACAGAAATTTCACGGGGCGTTCGTCTAGAAGATACGGCTCCAAATACTGCATTTAATATGAAATCAGTACCACACAATAAGCCGTTAGTACAAGAAGAGGCAATTTCAAGTTTTTCTGCTCTAGATTCGGATCCAAGTTATAGAAATCAGCCTCGGGTGACGTCATCAATTGCCGACACAAAAAACTTGCTACGTCATGAGTTACAAGATGAGGCTCCCAATACTGCATTTAATATAAAATCAGTACCAGATAATAGACCTTTAGTACAAGAAACTGTGGTTCTGAATCCTGCTGCTGTAGATATCATTCCAAGACACAAAGAGCAGTCTCAAATAATACCAACTATTGAAACAGAAATTTCACGGGGCGTTCGTCTAGAAGATACGGCTCCAAATACTGCATTTAATACGAAATCAGTACCATACAATAGGCCGTTGGTACAAGAAGAGGCAATTCCAAGTTTTTCTGCTCTAGATTCGGATCCAAGTCATAGAAATCAGCCTCGTGTGACGTCATCAATTGCCGACACAAAAAACTTGCTACACCATGAGTTACAAGATGAGGCTCCCAATACTGCTTTTAATATAAAATCAGTACCAGATAATAGACCTTTAGTACAAGAAGCTGTGGTTCTGAATCCTGCTGCTGTGGATACGATTCCAAGTCACAAAGAGCAGCCCCAAGTAATATCAACTATTCAAACAGAAATTTCACGGGGCGATCGTCTAGAAGATACGGCTCCCAATACTGCATTTAATACGAAATCAGTACCATACAATAAGCCTTTGGTACAAGAAGAGGCAATTCCAAGTTTTTCTGCTCTAGATTCGGATCCAAGTCATAGAAATCAGCCTCGGGTGACGTCATCAATTGCCGACACAAAAAACTTGCTACGCCATGAGTTACAAGATGAGGCTTCTAATACTGCATTTAATATAAAATCAGTACCAGATAATAGGCCTTTAGTACAAGAAAATATGGGTGTAAATTCTGCTACTTTAGATATAATTCCAAGACATAGAGAGCAGCCCCAAGTAATATCAACTATTGAAACAGAAATTTCACGGGGCGTTCGTCTAGAAGATACGGCTCCAAATACTGCATTTAATATGAAATCAGTACCATACAATAAGCCGTTGGTACAAGAAGATCCATCTGCAGTTGATAATTTCCCACAGAAAGCTCCTCATGTAAGCTTGTTTAGTACAGAAGCCCATCAACTTAATAAGGAGGTAATGCCTAATATGCGGATATCGGCACAAGACAATGAACACGACAAACCAAAATCTATTTTTGATGAATCTATTATTCCCATTGCTGCAACAGAGAAATCTATCGAAACTAGTACATTGTCCACGAATTATGTTACTAAGAACAATAGTGAACACAATTCAAATCCAGATGATTATAATCCAAGTGAATTTTTAAGACAAAACATATCTTTCGATAAATATAAATCTCAAGCAAAAACGGTTAATTTACAAAATGAGACAACCACAACTGATACACCAAGTGACACGGGTCGACCAGTTGTAAAGCATCATCATCATCATAGTTCAGTAGGTCGCGAAATCTTAGATTCCGTTTTGGATGATAATATATTTAATCAACCTAGTTCTCCTATGGAGAAGTCCTTAGAAAAAGCTACTTTCGATGAACCGCTGAATGAACCACTTATTCCAAACAACGACCACTCAACACCAGAACCCTGGTACTTAAACTCTGAGCCACTTAGAAGCAGTAATATCACTGAAGAAGATCACTTTTCAAACAATAAAACAAAAATCCCCGAAGAAACTACATTTACATTTAGTACAGTTCCAGAAATAAAAGAAGCGAAAGATATAGAAAATGAAAAACCTGTTGAAGTTATAGAAAAAAAAGATTTTTTCGTTAATGAGGCTAATTGGTTTAGGGAACAAAGTGAAGATGGTGCTACAAATAGTAATGTGGTATCTCCGCTCACAAGTGACGAAGATAAAGAAAGGGAAAAAGTACAGAGCACCACAGTGAGTTCACTGTTAAGTCCATTGAACAACTTAATTAATCTTTTTAATAATGGTTTACAAGTTCTCAGTCCATTGAACAACAAGAAAAATGATACTTCAAAGCCGACTGTTGCTGAAAGTTATGTAGCGCCAACAATTAGTTCATTACACAATCGTTCCACAGTTGAAGATAATCGACAAACTGAAAGTACTGAAACTCTTACTGTAGATGCCAGAAACGATGATATTCTTGATCTTTTGTCTAGTAAAACTGATAATTCTGAAGATCAATTGAATATTATTCTGACTGATAGTACTGAAAATATATTGAATGAAATGAAATACATTGATTCAATGATTCCATTGTCAGAAAATAATAACATTGCTAATGAGCCCATAAATTTAGAGGACGATCAAATGAATTTTGATGATGTGGCTATTTTATTTAATACGGACAGTATGCCTACTGTTAGTACAGAGAGTCTTGATGAAGAAGTAGACGTATTCTCTCAGGAAGTTAAAGCTATCGACAACGAAGAAATACCCAATCCATTCATTGGCAGTGATGAAACCTTTAATATTTTTAACGAGAATAACGCAAACGGAAATAATAGAACACCTTCCGTTTTGACGTTGGACACTCAGGATGAAGTTGATCTAGATGTAAGGGAGAGGATTGTGAATCCCACTGTAATCCAATCCAGTATAAAAGGCGACGAAGAAGATCAAACGATTACTTCAAATACGAAACCGGATACGCTTCCGGATATTTTCACTTTAAACGATGATGCAGTCGCGAATCCTGCTGACAATAACACCGTTATGTTCAAAGTCGATGCTGACTTCTGGCAGAAGATAAAAAACGGAAACATCACGTACGATGTTGTGTATTTGTTTCAAGCTTATGATCAGCCTGTCGTTGAAAAGGAAACACAGACGATCATTCATCCGAATGGCACTATAGTTCAGCAGTATGTTGAAAAGACTTGGAAGAAACAAGGAGTTCAATTGTTTCAGATACCCAACCGATAA

Protein

MEYKVNLIFLVVFSSKIVVSIPYNEENVRQRAYPAINWPSNLQARENPNFAPPQNFHAAVYQKPYYQEMAQRRINSPNEEFRAPPLAALPKAFETPTGYRVTGTRNDQNYYQNNGQNGLRQFQQINVPPVRQNPVIEQTYFQPIREPLTSVSQNGNPQGQYPRSVLPNYYNQQPLPRLQASQFRSNYMNVPNAEVQRPWVQNMRGAYDNKTQYLSNEPSVNPKEIARSAIELQNKYQSPMEHLPRIVNRNLATNSQMNSGYIPGDNRRPEMRNILAAGTNTNLDKNHKTFMIDDPRGNVELVGNLRPHENKNDVLVNAKDILGKTNEGQSHPTFRPQVINQPQVISSTTGTDIFLHNDVQDTVANTVLNAKSVPYNKPLLQENAVQNPAVLDSISSYRSQPRVKSSNTKFLLRDDLQDTVPNTALNTALNTAYTKSVPDSKPLVQEQGISNFAALDLNPRYRPSGQNVDHPRVTSLSTDTKILQRQNFQDTGSNTTFNIKSVPDNRPLVQETVVLNPAAVDTIPSHKEQPQVISTIQTEFSRGDRLEDTAPNTAFNTKSVPYNKPLVQEEAIPSFSALDSDPSHRNQPRVTSSTADTKNLLRHELQDKGPNTAFNIKSVPYNKPLVQEEAIPSFFALDSDPSHRNQPRVTSSIDDTKNLLRHELQDEAPNTAFNIKSVPDNRPLVQETVVLNPAAVDIIPRHKEQSQIIPTIETEISRGVRLEDTAPNTAFNMKSIPYNKPLVQEEAISSFSALDSDPSHRNQPRVTSSIADTKNLLRHELQDEAPNTAFNIESVPDNRPLVQETVVLNPAAVDIIPRHKEQSQIIPTIETEISQGVRLEDTAPNTAFNTKSVPYNRPLVQEEAIPSFSALDSDPSHRNQPRVTSSIADTKNLLHHELQDEAPNTAFNIKSVPDNRPLVQETVVLNPAAVDIIPRHKEQSQIIPTIETEISRGVRLEDTAPNTAFNMKSVPHNKPLVQEEAISSFSALDSDPSYRNQPRVTSSIADTKNLLRHELQDEAPNTAFNIKSVPDNRPLVQETVVLNPAAVDIIPRHKEQSQIIPTIETEISRGVRLEDTAPNTAFNTKSVPYNRPLVQEEAIPSFSALDSDPSHRNQPRVTSSIADTKNLLHHELQDEAPNTAFNIKSVPDNRPLVQEAVVLNPAAVDTIPSHKEQPQVISTIQTEISRGDRLEDTAPNTAFNTKSVPYNKPLVQEEAIPSFSALDSDPSHRNQPRVTSSIADTKNLLRHELQDEASNTAFNIKSVPDNRPLVQENMGVNSATLDIIPRHREQPQVISTIETEISRGVRLEDTAPNTAFNMKSVPYNKPLVQEDPSAVDNFPQKAPHVSLFSTEAHQLNKEVMPNMRISAQDNEHDKPKSIFDESIIPIAATEKSIETSTLSTNYVTKNNSEHNSNPDDYNPSEFLRQNISFDKYKSQAKTVNLQNETTTTDTPSDTGRPVVKHHHHHSSVGREILDSVLDDNIFNQPSSPMEKSLEKATFDEPLNEPLIPNNDHSTPEPWYLNSEPLRSSNITEEDHFSNNKTKIPEETTFTFSTVPEIKEAKDIENEKPVEVIEKKDFFVNEANWFREQSEDGATNSNVVSPLTSDEDKEREKVQSTTVSSLLSPLNNLINLFNNGLQVLSPLNNKKNDTSKPTVAESYVAPTISSLHNRSTVEDNRQTESTETLTVDARNDDILDLLSSKTDNSEDQLNIILTDSTENILNEMKYIDSMIPLSENNNIANEPINLEDDQMNFDDVAILFNTDSMPTVSTESLDEEVDVFSQEVKAIDNEEIPNPFIGSDETFNIFNENNANGNNRTPSVLTLDTQDEVDLDVRERIVNPTVIQSSIKGDEEDQTITSNTKPDTLPDIFTLNDDAVANPADNNTVMFKVDADFWQKIKNGNITYDVVYLFQAYDQPVVEKETQTIIHPNGTIVQQYVEKTWKKQGVQLFQIPNR

Uniprot

NA

ProteinModelPortal

NA

KEGG

101744556 no KO assigned | (RefSeq) uncharacterized LOC101744556

GO

SignalP

Position: 1 - 20, Likelihood: 0.817625

Length:

1953

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

1.83129

Exp number, first 60 AAs:

1.83129

Total prob of N-in:

0.09800

outside

1 - 1953

Pi

203.26562

Theta

169.073496

Tajima's D

0.653241

CLR

0.029616

CSRT

0.563721813909305

Interpretation

Uncertain

Source	Sequence	Identity	Evalue
25860555	INDVDCSDKYAFICEK	100.00	1e-12
24093152	EQQQGIFR	95.83	2e-08
25860555	IRDAVIDEAFGSIDR	95.45	9e-08
25860555	VAISPISPSGANIKPNSITDIR	100.00	2e-07
27102218	SAIEIQNK	100.00	2e-07
24093152	ENPDIVVNMIQIIK	100.00	6e-06
25860555	ENDKNHDGIIDFHEFMMATQR	100.00	2e-04
27102218	AYPAINWPSNIQAR	100.00	2e-04
25860555	YVENVSNSREINIIDGVSIIGQGSPR	100.00	4e-04
27102218	AFETPTGYR	100.00	4e-04
25860555	SNAYYNRDSDGSESAGISDR	100.00	5e-04
25860555	SNAYYNRDSDGSESAGISDR	100.00	5e-04
25860555	SNAYYNRDSDGSESAGISDR	100.00	5e-04
27102218	IEDTAPNTAFNTK	100.00	5e-04
27102218	IEDTAPNTAFNTK	100.00	5e-04
27102218	IEDTAPNTAFNTK	100.00	5e-04
25860555	GCPTGQVDFPAFTR	100.00	0.003
24093152	IPEDTIR	100.00	0.003
25860555	TIIEENGCR	100.00	0.018
24093152	SIEYESQGQGSIVQNVVNNIIIDK	100.00	0.018
25860555	GQIIEIWK	100.00	0.032
24093152	EQPQVISTIETEISR	100.00	0.032
27102218	FIIRDDIQDTVPNTAINTAINTAYTK	100.00	0.032
24093152	EQIVDAQGQIVAHPK	100.00	0.034
24093152	EQSEDGATNSNVVSPITSDEDKER	100.00	0.038
24093152	EQSEDGATNSNVVSPITSDEDKER	100.00	0.038
24093152	EQSEDGATNSNVVSPITSDEDKER	100.00	0.038
25860555	YISIAVADGAANIPDPTYYISDNKPTIHEDI	100.00	0.048
24093152	YRPGTVAIR	100.00	0.048
27102218	HREQPQVISTIETEISR	100.00	0.048

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics