Silkworm Genome Informatics Database

Gene

KWMTBOMO04059 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA010099

Annotation

UDP-glycosyltransferase_UGT40B3_precursor_[Bombyx_mori]

Location

Bomo_Chr7(-):10099672-10133550 View in EpiBrowser

Location in the cell

PlasmaMembrane Reliability : 3.181

CDS

ATGAATTTTCAAACGATTCATTTGTTGGTGTTAAGTGCGCTCGCTTGCGATGCATATAAGATATTGCTCGTGTTTCCGTTCCCTTCGAAAAGCCACGCTATTCTCGGAGAGGGTTACGTCAGGAATCTCCTAAAAGCAGGACATGAACTGACCTACATAACGCCATATCCGAAAGATCCGGCTCCTAATTTACGGATCATCCACATTCCACAGCATGTCTTCGAGGAAAAAATAGACTCCACGTTTACTATAGAAAAGCTAATGGACTACAGTTTTACAGTAATGGAAATGCTTAACATTTTCAAGTCTTTTATTGATACAGCTAATGATACAGTAGCTAATGCGGAAGTACAGCAGCTGATGTTAGATCCGCAGACACATTTTGATGTTGTTATTGCAGAATGGATGGTAACGGAAATATTTAGTGGCTTCAGTGAAATTTTCAACTGTCCACTCATATGGGCATCTTCAATGGAACCACATAGCGTGATATTGCGTTTGATAGACGAGATTCCCCATCCTGCGTATTCATCAAATATGTTAGGGATTTTTGAACCGCCATACAATTTCGTCCAAAGAGCAATAAACACTTCGTTGGAGATTGCGTTAAAAGTAATTAAATGGTTTATCAGTTTAATAGAAGAACGGATTTATAAAGAAGGATTTGCAGCTGCATTCAAAGCAAAAGGTCTCGTTCAGCCTAGCTTGGAGGAATTGAGATACTCTGTTGCTTTGGTTTTGGGAAATTCCCACGTTTCTTCTGGAGCTCCGCTGAAATTGCCACAAAATTACAAGGCTATTGGCGGTTATCATATAGCTGAACAATCTAAGCCATTGCCCAAGGAATTTAAGAATATTTTAGACAACTCGAAGCATGGCGTTATTTATTTCAGTCTAGGATCGGTAGTTTCAAGTAAATCGATGCCTGCAGCAATCAAAAATGGATTATTTGAAATGTTCAGGAGTTTGAAATATACTGTTATATGGAAATTCGAAGATGAATTTCAAAATGTTCCTGACAACGTTCATATCGTAAAATGGGCACCACAGCAAAGCATTCTAGCACATCCTAACTGCATTCTCTTCATCACCCACGGTGGCTTATTGTCTACAACGGAAACATTACATTACGGTGTTCCTATTATTGGAATCCCTTTGTTTGGAGATCAGACTATGAATATCAAGAAGGCTGTCTATAAAGGTATTGGACTAGAAGTGAAACTTAATTTCGATACTCCAAAGAACTTGAAAGCAGCTATAAATGAGGTTTTGTCCAATCAAAAATATCGCGATCGAGTTAAGGAGTTGTCGATGATATATCACGATCGTCCGGTGTCTCCGGGTGCTGAGCTGGTCCACTGGGTGGAGCACGTCGTCAAGACTAAAGGAGCTCTTCACCTGCGCTCACAGGCACTGCACGTGCCTTTGTACCAGAAGCTGTTATTAGATTTAATCTTCGTGTCGTTATTATTGTTCCTTGGTTTTGTATTCTTCGTCAAATTTATGGTGACCCGGCCGTATCCTCGTCTGTCTAGACAGGCAGACTCCATGTTCACTATAGAAAAACTAATAGATAACACTTTTGCACTAAAGGAAATGTTTAGCATTCTCAAGTCTTTTATTGATACAGCTAATGATACAGTATCTAATACGGAAGTACAGCAGCTGATGTTAGATCCGCAGACACATTTTGATGTTGTTATTGCAGAATGGATGCTAACTGAAATTTTTAGTGGCTTCAGTACAATTTTCAACTGTCCACTCATATGGTCATCTTCAATGGAACCACACAGCCCCATATTGCAATTGATAGATGAGATGGTCCATCCGGCGTATTCATCAAACATGCTAGGGCTTTTTGAACCGCCATACAATTTCTTCCAAAGAGCAATAAACACTTTGATAGAGATCGGATTAAAAGTAGCCAAATGGTTTTCCGCTTTGATAGAAGAACAGATTTATAAAGAAGCATTTGCAGCTGCATTCAAAGCAAAAGATCTCGTTCAGCCTAGCTTGGAGGAATTGAGATACTCTGCTGCTTTAGTTTTGGGAAATTCCCACGTTTCTTCTGGAGCTCCGCTGAAATTGCCACAAAATTACAAGGCTATTGGCGGATATCATATAGATGAACAATCTAAACCATTGCCTAAGGAATTTAAGAACATTCTAGACAACTCGAAGCACGGCGTTATTTATTTCAGTCTAGGATCGATAGTTCCAAGTAAATCGATGCCTGCAGAAATCAAAAATGGATTATTTGAAATGTTCAGGAATTTGAAATATACTGTTATATGGAAATTTGAAGATGAATTTCAAAATGTTCCTGACAACGTTCACATCGTAAAATGGGCACCACAGCAAAGCATACTAGCACATCCTAACTGCATTCTCTTCATCACCCACGGTGGCTTATTGTCTACGACGGAAACATTACATCACGGTGTTCCTATTATCGGAATGCCCATATTTGGAGATCAGGCCATGAATGTCAAGAAAGCTGTCCATAAAGGCATTGGACTAGAAGTGAAATTTGACTCGGATACTCCAAAAAATTTGAAAGCAGCTATAAATGAGGTTTTGTCCAATCAAAAATATCGCGATCGAGTTAAGGAGTTGTCGTTGATATATCACGATCGTCCGGTGTCTCCGGGTGCTGAGCTGGTCCACTGGGTGGAGCACGTCGTCAAGACTAAAGGAGCTCTTCATCTGCGCTCACCAGCACTGCACGTGCCTTTGTACCAGAAGCTGTTATTAGATATAATCTTCGTGTCGTTATTGTTGTTCCTTGGTTTTGTATTCTTCGTCAAATTTATGCTGACCCGTGCGCTCGCTTGCGATGCATATAAGATATTGCTCGTGTTTCCGTTCCCTTCGAAAAGCCACGCTATTCTTGGAGAGGGTTACGTCAGGAATCTCCTCAAAGCAGGACATGAAGTGACCTACATAACGCCATATCCGAGAGATCCGGCTCCCAATTTACGGATCATCCAAGTTTCACAGCATGACTTCGAGGAAAAAATTAACTCCACGTTAACCATAGAAAAGCTAATAGACTACAGTTTTACAGTAATGGAAATGTTTAACATTACGAAGTCTTTTATTTATACAGCTAATGATACAGTAGCTAATACGGAAGTACAACAGCTGATGTTAGATCCACAGACACATTTTGATGTTGTTGTTGCAGAATGGATGATAACTGAAATTTTTAGTGGCTTCAGTGTAATTTTCAACTGTCCACTCATATGGTCTTCTTCAATGGAACCACATAGCTGGATATTGCCTTTGATAGACGAGATTCCCCATCCTGCCTATTCATCAAATATATTAGGGCTTTTTGAACCGCCATACAATTTCGTCCAAAGAGCAATAAACACTTCGTTGGAGATTGCGTTAAAAGTAATTAAATGGCTTGTCACTTTAATAGAAGAACAGATTTATAAAGAAGGATTTGCAGCTGCATTCAAAGCAAAAGGTCTTATTCAGCCAAGCTTAGAGGAATTGAGATACTCTGCTGCTTTGGTTTTGGGAAATTCCCACATTTCTTCTGGAGCTCCGCTGAAATTGCCACAAAATTACAAGGCTATTGGCGGTTATCATATAGATGAACAATCTAAGCCATTGCCCAAGGATTTTAAGAACATTCTAGACAACTCGAAGCACGGCGTTATTTATTTCAGTCTAGGATCGATGGCTCCAAGTAAATCGATGCCTGCAGCAATAAAAAACGGATTATTTGAAATGTTTAGGAGTTTAAAATATACTGTTATATGGAAATTCGAAGATGAATTTCAAAATGTTCCTGACAACGTTCACATCGTAAAATGGGCTCCACAGCAAAGCATACTAGCACACCCTAACTGCATTCTCTTCATCACCCACGGTGGCTTATTGTCTACAACGGAAACATTACATTACGGTGTTCCTATTATTGGAATGCCTATGTTTGGAGATCAGGTCATGAATATCAAGAAGGCTGTCCATAAAGGCTTTGGACTAGAAGTGAAACTTAACTTCGATACTCCAAAGAACTTGAAAGCAGCTATAAATGAGGTTTTGTCCAATCAAAAGTATCGCGATCGAGTTAAGGAGTTGTCGTTGATATATCACGATCGTCCGGTGTCTCCGGGTGCTGAGCTGGTCCACTGGGTGGAGCATGTCGTCAAGACTAAAGGAGCTCTCCATCTGCGCTCACAGGCGCTGCACGTGCCTTTGTACCAGAAGCTGTTATTAGATATAATCTTCGTGTCGTTATTGTTGTTCCTTGGTTTTGTATTCTTCATCAAATATATGGTGACCCGGTGTTTGAAGAAGAAAATAGATATTAGAAAAAAAACTTTGTAG

Protein

MNFQTIHLLVLSALACDAYKILLVFPFPSKSHAILGEGYVRNLLKAGHELTYITPYPKDPAPNLRIIHIPQHVFEEKIDSTFTIEKLMDYSFTVMEMLNIFKSFIDTANDTVANAEVQQLMLDPQTHFDVVIAEWMVTEIFSGFSEIFNCPLIWASSMEPHSVILRLIDEIPHPAYSSNMLGIFEPPYNFVQRAINTSLEIALKVIKWFISLIEERIYKEGFAAAFKAKGLVQPSLEELRYSVALVLGNSHVSSGAPLKLPQNYKAIGGYHIAEQSKPLPKEFKNILDNSKHGVIYFSLGSVVSSKSMPAAIKNGLFEMFRSLKYTVIWKFEDEFQNVPDNVHIVKWAPQQSILAHPNCILFITHGGLLSTTETLHYGVPIIGIPLFGDQTMNIKKAVYKGIGLEVKLNFDTPKNLKAAINEVLSNQKYRDRVKELSMIYHDRPVSPGAELVHWVEHVVKTKGALHLRSQALHVPLYQKLLLDLIFVSLLLFLGFVFFVKFMVTRPYPRLSRQADSMFTIEKLIDNTFALKEMFSILKSFIDTANDTVSNTEVQQLMLDPQTHFDVVIAEWMLTEIFSGFSTIFNCPLIWSSSMEPHSPILQLIDEMVHPAYSSNMLGLFEPPYNFFQRAINTLIEIGLKVAKWFSALIEEQIYKEAFAAAFKAKDLVQPSLEELRYSAALVLGNSHVSSGAPLKLPQNYKAIGGYHIDEQSKPLPKEFKNILDNSKHGVIYFSLGSIVPSKSMPAEIKNGLFEMFRNLKYTVIWKFEDEFQNVPDNVHIVKWAPQQSILAHPNCILFITHGGLLSTTETLHHGVPIIGMPIFGDQAMNVKKAVHKGIGLEVKFDSDTPKNLKAAINEVLSNQKYRDRVKELSLIYHDRPVSPGAELVHWVEHVVKTKGALHLRSPALHVPLYQKLLLDIIFVSLLLFLGFVFFVKFMLTRALACDAYKILLVFPFPSKSHAILGEGYVRNLLKAGHEVTYITPYPRDPAPNLRIIQVSQHDFEEKINSTLTIEKLIDYSFTVMEMFNITKSFIYTANDTVANTEVQQLMLDPQTHFDVVVAEWMITEIFSGFSVIFNCPLIWSSSMEPHSWILPLIDEIPHPAYSSNILGLFEPPYNFVQRAINTSLEIALKVIKWLVTLIEEQIYKEGFAAAFKAKGLIQPSLEELRYSAALVLGNSHISSGAPLKLPQNYKAIGGYHIDEQSKPLPKDFKNILDNSKHGVIYFSLGSMAPSKSMPAAIKNGLFEMFRSLKYTVIWKFEDEFQNVPDNVHIVKWAPQQSILAHPNCILFITHGGLLSTTETLHYGVPIIGMPMFGDQVMNIKKAVHKGFGLEVKLNFDTPKNLKAAINEVLSNQKYRDRVKELSLIYHDRPVSPGAELVHWVEHVVKTKGALHLRSQALHVPLYQKLLLDIIFVSLLLFLGFVFFIKYMVTRCLKKKIDIRKKTL

Similarity

Belongs to the UDP-glycosyltransferase family.

Uniprot

D6X0K8

Pubmed

18362917 19820115

EMBL

KQ971371 EFA10103.2

Proteomes

UP000007266

Pfam

PF00201 UDPGT

Interpro

IPR035595 UDP_glycos_trans_CS + More
IPR002213 UDP_glucos_trans

ProteinModelPortal

D6X0K8

PDB

2O6L E-value=3.61102e-25, Score=290

KEGG

100862831 no KO assigned | (RefSeq) UGT40B3; UDP-glycosyltransferase UGT40B3

GO

GO:0043231 GO:0016758 GO:0008194 GO:0016021 GO:0008152 GO:0000166 GO:0016788 GO:0046872 GO:0006811 GO:0006032 GO:0004672 GO:0048384

SignalP

Position: 1 - 18, Likelihood: 0.936539

Length:

1447

Number of predicted TMHs:

3

Exp number of AAs in TMHs:

72.3489900000001

Exp number, first 60 AAs:

5.42724

Total prob of N-in:

0.24717

outside

1 - 480

TMhelix

481 - 503

inside

504 - 915

TMhelix

916 - 935

outside

936 - 1408

TMhelix

1409 - 1428

inside

1429 - 1447

Pi

211.901372

Theta

181.259118

Tajima's D

0.986303

CLR

0.002335

CSRT

0.655717214139293

Interpretation

Uncertain

Source	Sequence	Identity	Evalue
28556443	ILLVFPFPSK	100.00	3e-04
28556443	ILLVFPFPSK	100.00	3e-04
28556443	ILLVFPFPSK	100.00	3e-04

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree