Silkworm Genome Informatics Database

Gene

KWMTBOMO10503 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA006989

Annotation

PREDICTED:_uncharacterized_protein_LOC101746073_[Bombyx_mori]

Location

Bomo_Chr17(-):12901919-12911683 View in EpiBrowser

Location in the cell

Extracellular Reliability : 2.681

CDS

ATGTCTAATGACACCCGCACTGAGTTCTCATGTTCCCGCCAAGGATACTTCGTGCATCCCCGTTCTTGCGCTCGCTTTTACAGATGTGTCAAGTTTGATCAGCTATCACCGGAATATACGGTTTTCGAGTTTGACTGTCCAGCTGGTCTCGCCTTCGACTCCAGATACGAAGTGTGCGTGTGGCCGGGAAGCTTGCCGCACTCCCAGGCCTGTCCCGGGTCCTCGGAGATCGCACCTGTGCCTCAGACAAGATTTGTTTGCCCCGAACATGAAGGCTATTACGCTGATCCTGAGAACTGTCGTTGGTTCTTCGCGTGTCTGGATCACGGGAAAGCTCCGTTGACCGCGTACGAGTTCCGTTGTCCCTTCGGTCTCGGGTTCGACGCCGACAAACTGAAGTGCGACTGGCCGTGGCTGGTGCCGGCCTGCGGTAACATCGCTAGATACGAAGCGGAAGCACACGGTTTTTCTGCGGCTATTCTCACAGGAGCTGCCGGCTTCCAAGGTCAAACAGCGGACGCCGTTAACATCGCTGCTCATCAGAGCCTCATCTCCGGAGCGTCTCTTAACAATCTAGTTGGCATCCAAGATGGCTTCCTCACCAAGGCTGACGCTTTGGACTCTAACTTCATCGCTTCTCAGGAATATGCTGCCGCAAAAGCCGCTTCAGACTCTTCATACCAAACGGGAGATAGCGCAACTCAAAATAAGAATGGATTGTTATATGCAACCGGTGATGCGTCCATAGGTAACTCGGTGAATGTAGGTCTAGTCAACCCGTCTACATACACCGATGAAGGCAAATATACTAGCGGCTCCCTCATATTGGACGATTACAGACTTCCAACTAAAGCCAAATCTGTGAATCGTGCTCAAAGTTTTGGTGCCAAATACCAACAAGGCGCGACAGCATTAAACGCGGCACAAACAGGATTTACTAACCAGGAAGGTTATTCAACTTCATTTACTGCTGGAAAAAGTAGTACATACCAGGGCGGTGCTTATGAATCGGGTGCTTACGTTCATGACCCTTCTGGAGACTACGCTGAGCCTTACAGGCACGTAGGTTCGCCTGTCGCTCCTTACGTTCATGATGACTCTGCATACCTCGATGTCACACAGTACTCAACCTCCAGTGTGGATGGTAAAAACAGTCAAAGTGGTTACAAAGGAACTTATGAAGAAACTATCAACACTAGGACTTCTAATGAAGCCGATTTAAGTGGGCAATACGTGCATGATAATTCTGGAGATTATGTTCAATCCAGCGGCAAATATAATTCAGGAGGGTCTGCGAATGCCGGATATGAGGCCGGTTTTTACGGCACTGGAACTGGCTATAATGTGGACTACTCGAAAATTGGCGGAAAATACAAAGTAGATCATTCAGGTTCATATAATGCTGACTATTCTGGATTGTACGATAATGAGAATTCCGGTAAATATGTTGCGGGGATTTACAGAGCCGATGGTCAAGTTGGAGATAGTCCAGGAGCCAAGGCTAGTTCTGTTTACCATGGAAGCTACAGTCAAGCTAATGCTGGAAATTACTTGAGTGACTCCAGAGCCAGGACTGGAGCGTCCCACACTTTAACCGCAGGAGCTGTGAACGTCGGGCTAGTTGGCAAGACAACATTAGTTGATGCTATTTACAACGATCAGAGTAACTATCAAGGAATTAACGCCCAAAATTCATTTGCTCATCAAACCTTACACCCCAATCATATTTTACAAGTATCCCAACCTGCTGTTTCCATTAATCACGTAGGTACTGATGGCAATAATTTGGATGGATACAGCTTTGTGACAAACCCGACTTCTTCGGGAGTTCCAACAACGACCACGCCAATTGAGGTGACTACGTCTTTACCGATTGTGTCTACATACAAAACGACATTCATACCCGAACCACCTAGAACCAGTATTAAGCAGATATTTGGTTATTCTCAACCGGCTGTTACATACGTCCAGCCCACAGTTATTCCTTTGAAACAAGTTGCTTCTGGCTTCCAAATCAATGAGCATAATCAAGGATTTACCTATCAGAACGTTAACGCTCAACAAGCATCCGGAACTAGGAACAGCGGTTCCATTAAATCATCTTCAGGTTACGATTACTCAAAACCAAGTATCAAATTCGAAGACGGCTTAAGTTTTACAACTGCATCGCCTGAAGCCGTTTCGGTGTCTCAATCTGAGGGATTTGGAAATAGTCAGCAAACAGTTCATAATATAGAATCTGTTGGATTCGAGTATTCTACGGCAAGACCAGTAAGCGAAGAACCATTTAAAAAGTTGATAGCGTACACAACAGGAGCTCCTGTCGCTGCTTTCCCTTCCACAACTTATAGACCTCTATCGTTCAGCCATAAAACTCTTCATAAAGTTGAAGCCGACAAGTTCGTTCCTTCGGTAGAAACCAATATAGAGTATCAACAACCACAAATAGTGCAGTACTCTACAGTGCAACCGACGATTGCAGTGCAGCCTGTGGTCTCAACTTATCAGCCTCAAGTGTACAGTCATCAAACATTACACAAAGTCGATACAGATAGACTAAACGTTTATTCACAGAAATCTTCCTCTAATACTTACTCTGATAACACCAATACTTTTAATTATGAGCAACCTTCTATTCATTTTGGAGATGTACAATATTCTACGCCAGCACCTGTTGTTTCCACATATAGACCACAAAGTCATAGCCAACAAATAATTCATAGAGTGGAGGGCTACTCTGTACCAGTTTCGTCGACTCCACAGCCCGTAGCACAAATTACATACAAAGCTCCCGTGACCGTGTTTGAAAACCCTATTCTCAAATATACCAATAAACCTAGTACATCATTCAGTCATCAAACTATCCATAAATTGGAAAGCAGCCAAGCGTACACTCCATCAATCAACACTGGGTCAGTTGATTACGAAACCGTTGTTTATAACGCCCCGAAAATCGTTTACACAACACCGCAACCAACTCTGGCGGTGGCTCCAGTGGTATCTACATACCAGCCACAAGTTTCAAGTCAACAAACTCTGCACCAAGTAGATCATAGTCAGATACACACATACTCGGACAACTCAGAATCAGGTTACAATTATGATAAACCAGCCATTGCATTCGAAGATGCCAAACCAATTGTTACGTATTCTACCCCAGCACCAGCTGTGTCTACTTATAGGCCGCAAACATACAGACATCAGTTAATTCAGAAAGTCGAACCACAAGAAATCGTAGAAGTCTCTTCAACGCCAGCCCCAACGATAAAGTATACCATCAAACAATCAGATGTGACGACCTATGAGAATCCGTTCCTGAAATATACACCAAAAGCCACCCCTGTTACTTTTGTAAGGCCCACTCCAACTGTTTTTGCGCAAACTTATACACCGATCGTCGAACAACATCAAGTGAACCATGTTCTGAGTCAGCCAGTACGATATGAAACCCAAAATTCTTTTGTTCAACAAAACTCACGAATTAACTCGGAAGGTTTCTCATCCGGTCAACCTGAAATCCAACGCAACATCGAAACATCTAACAAAGCGCAATTATATTCCGATGCCAGTTTAGTATCACAACAGTCGTTCCATTTGTCAAGTACAAATGACGAATACCAATCTGATAAGGATGTAGTTTTCGTTTCAACCACGCCCTCAACTTTAGTATATGAAAATCATTATGCTACTTACGACACACCAAAGAAAGTCGAAACTTACAGAACCCGTGAATACATTCCTCCAAATACTGAATACCAACAGCATTCTATCTCAAAAATTTCAAATCCGGTTACAAAACAAAACACAGTTTACCAAGAGGCACGAGACGAATACGACTATAAGCCCGCGGAGTACGCTGAACAATATGATATCCAGAAAACTGTCTCATCAATTGCTCAAGCACAGAAAAATGTTGAATCCATACATTTCTCGGCGTTCCCTGGTACTAAAGTCACGACTAATTACAAGCAAGCAACTTATGACAGCCCCGAAATTCAAGTAGAATACAAAGCTGAAGAGTACTTGCCTCCAGTAGTATCGACCGTCGCTCCGGTGATAACAACAACTTATAAGCCTCGTACGTACTCCACTATATCGACAACTAGAGATTATTTGACACCTATTGTAGATAATTCATACCTTCCACCGTCCAGCACTGAGAGAAGTTATGTGAAATCGACTACTCCAGAATACAATTATGCTCAATCCACAACAACCTACAATGCAGCGGAATACTTGCCCCCTATTGAAACAAAACAGGCAGAAATTGTTAATTTCGAAAGCTACGGATTCAACAAAGTCGATGCTACAGGAACAAACTACAATACATATCAGGATTATTCCGTACCTAAAGGACCTGCAGTAAAAATACAAAACGCATCGCCAATACAAAGAAAACAGAACATTGTTGTAGAAACAGCTAAATCTAATTTGCTCGGTTTCGGAACTGTAGGACCCGATGCCGGATTAATTTCTCCAGTAACTTACACAACCGCAGCACCTATTGCAGTTTCCTCTACTGTGAGACCGATTGTAAGGACTCAGAGACCTTACAAACGCATTCAGTCAACAACTGAATATCAGGCACCAGAATATCTGCCTCCTTCAGAAGTTGAAAGCTCTGAATTGAACTTCAAACATTTTGAATACAATGGCGCTGAATCGGCTTCAGAAACGATCAATAACAACCAGTATAACGAAGATTCATTAGTAATTTCAACAGCGACGCCCAAGAGAAAACAAAACATTGTTGTCGAAACGGCAAAATCTCACTTGCTAGGATTTGGTACTGTTGGTCCTGATGCTGGGCTAGTTTCATCAGTCGCATACACTACAGCGGCTCCAACAATTGTATCTAGTAGTGATGCTTACACAGTGACGCCCAAAGCGGTTACAACGGCGTATGCTCCCATCGAACAAGGCTTATTTGAAGTTACTCCGTCTCCTGTGCCAGTTCGTCGAACTAAGCCGAAGGTGGCTGTTGTTACCAAAATCAACGACTTCAACCCCCTTTTGGTTCGCAAGCTTGGAGCTGTATGCAGTTGTCAATCGCCCGTCTTAATTCTGAAAGGCAAGAGGCCGAATTCCGTAGAACAAAACTACGATAATTACGACAATTCTCATCGTGGTGATATCGGTGATAGTCAATGGCAAAAATCCTCTAGGATACAAGCTTCAATAGCAACTGCAACCCCGATCGTTACGTCTACTTTTAATCCCATTATCGTGCCAGATGATTCGTTCTATCAAGATTATCAAGGGTATGAGAATCAGGAAGTGAACGTGACGCCTAAGAAAGAAGTTTATACAGAGAGATTCGTATCGAGCACTCCGATTGCTTCAACGACAGAGAAATATAGAACAAGGTCCAGAGTGAAAGCTGTGACTGTTGCTCCGACATACAAAACTGTGCTGTTAAACCAGGAAGTAGCACCGTCAGCTTCGTATACAGAATCAGAAGCTGTTTCTGGAATCGATTCTCAAGCTTTCGATCGTTACGGCCCTGGTGGTTGGCGAAGCCGAGACGAAACGTTACAAGGATCCGTCGATTGTCAAAGAGCTGGACTTTTCCGTCATCCTAAGCAATGTAACAAATTCTACGCTTGCAGATGGGACTGCACTAAGCAGCGGTTCACTCTACACGTTTTCAATTGCCCGATTCAGCTCAGTTTTGACCCAAGTATTGGAGCTTGTAACTGGCCCAGCCAAGGCCCGGCATGTCAAGGCGATACGCTTCTAACAAACGCTTTGTGA

Protein

MSNDTRTEFSCSRQGYFVHPRSCARFYRCVKFDQLSPEYTVFEFDCPAGLAFDSRYEVCVWPGSLPHSQACPGSSEIAPVPQTRFVCPEHEGYYADPENCRWFFACLDHGKAPLTAYEFRCPFGLGFDADKLKCDWPWLVPACGNIARYEAEAHGFSAAILTGAAGFQGQTADAVNIAAHQSLISGASLNNLVGIQDGFLTKADALDSNFIASQEYAAAKAASDSSYQTGDSATQNKNGLLYATGDASIGNSVNVGLVNPSTYTDEGKYTSGSLILDDYRLPTKAKSVNRAQSFGAKYQQGATALNAAQTGFTNQEGYSTSFTAGKSSTYQGGAYESGAYVHDPSGDYAEPYRHVGSPVAPYVHDDSAYLDVTQYSTSSVDGKNSQSGYKGTYEETINTRTSNEADLSGQYVHDNSGDYVQSSGKYNSGGSANAGYEAGFYGTGTGYNVDYSKIGGKYKVDHSGSYNADYSGLYDNENSGKYVAGIYRADGQVGDSPGAKASSVYHGSYSQANAGNYLSDSRARTGASHTLTAGAVNVGLVGKTTLVDAIYNDQSNYQGINAQNSFAHQTLHPNHILQVSQPAVSINHVGTDGNNLDGYSFVTNPTSSGVPTTTTPIEVTTSLPIVSTYKTTFIPEPPRTSIKQIFGYSQPAVTYVQPTVIPLKQVASGFQINEHNQGFTYQNVNAQQASGTRNSGSIKSSSGYDYSKPSIKFEDGLSFTTASPEAVSVSQSEGFGNSQQTVHNIESVGFEYSTARPVSEEPFKKLIAYTTGAPVAAFPSTTYRPLSFSHKTLHKVEADKFVPSVETNIEYQQPQIVQYSTVQPTIAVQPVVSTYQPQVYSHQTLHKVDTDRLNVYSQKSSSNTYSDNTNTFNYEQPSIHFGDVQYSTPAPVVSTYRPQSHSQQIIHRVEGYSVPVSSTPQPVAQITYKAPVTVFENPILKYTNKPSTSFSHQTIHKLESSQAYTPSINTGSVDYETVVYNAPKIVYTTPQPTLAVAPVVSTYQPQVSSQQTLHQVDHSQIHTYSDNSESGYNYDKPAIAFEDAKPIVTYSTPAPAVSTYRPQTYRHQLIQKVEPQEIVEVSSTPAPTIKYTIKQSDVTTYENPFLKYTPKATPVTFVRPTPTVFAQTYTPIVEQHQVNHVLSQPVRYETQNSFVQQNSRINSEGFSSGQPEIQRNIETSNKAQLYSDASLVSQQSFHLSSTNDEYQSDKDVVFVSTTPSTLVYENHYATYDTPKKVETYRTREYIPPNTEYQQHSISKISNPVTKQNTVYQEARDEYDYKPAEYAEQYDIQKTVSSIAQAQKNVESIHFSAFPGTKVTTNYKQATYDSPEIQVEYKAEEYLPPVVSTVAPVITTTYKPRTYSTISTTRDYLTPIVDNSYLPPSSTERSYVKSTTPEYNYAQSTTTYNAAEYLPPIETKQAEIVNFESYGFNKVDATGTNYNTYQDYSVPKGPAVKIQNASPIQRKQNIVVETAKSNLLGFGTVGPDAGLISPVTYTTAAPIAVSSTVRPIVRTQRPYKRIQSTTEYQAPEYLPPSEVESSELNFKHFEYNGAESASETINNNQYNEDSLVISTATPKRKQNIVVETAKSHLLGFGTVGPDAGLVSSVAYTTAAPTIVSSSDAYTVTPKAVTTAYAPIEQGLFEVTPSPVPVRRTKPKVAVVTKINDFNPLLVRKLGAVCSCQSPVLILKGKRPNSVEQNYDNYDNSHRGDIGDSQWQKSSRIQASIATATPIVTSTFNPIIVPDDSFYQDYQGYENQEVNVTPKKEVYTERFVSSTPIASTTEKYRTRSRVKAVTVAPTYKTVLLNQEVAPSASYTESEAVSGIDSQAFDRYGPGGWRSRDETLQGSVDCQRAGLFRHPKQCNKFYACRWDCTKQRFTLHVFNCPIQLSFDPSIGACNWPSQGPACQGDTLLTNAL

Similarity

Belongs to the glycosyl hydrolase 18 family.

Uniprot

H9JBU4 A0A0L7LGF7 A0A3S2PFK5 A0A212EUZ1 A0A0N1IDK5 A0A451EQZ8 + More
A0A194PJ87 A0A2H1V6V0 A0A2A4JHR1

Pubmed

19121390 26227816 22118469 26354079 30578597

EMBL

BABH01015027 BABH01015028 BABH01015029 BABH01015030 JTDY01001181 KOB74628.1 + More
RSAL01000054 RVE50015.1 AGBW02012291 OWR45274.1 KQ460711 KPJ12665.1 MH899214 AZS52290.1 KQ459603 KPI93103.1 ODYU01000980 SOQ36547.1 NWSH01001534 PCG70932.1

Proteomes

UP000005204 UP000037510 UP000283053 UP000007151 UP000053240 UP000053268 + More
UP000218220

PRIDE

H9JBU4

Pfam

PF01607   CBM_14        + More
PF00704   Glyco_hydro_18
PF02757   YLP

Interpro

IPR002557   Chitin-bd_dom        + More
IPR029070   Chitinase_insertion_sf
IPR001223   Glyco_hydro18_cat
IPR036508   Chitin-bd_dom_sf
IPR017853   Glycoside_hydrolase_SF
IPR004019   YLP_motif
IPR011583   Chitinase_II

SUPFAM

SSF51445   SSF51445        + More
SSF57625   SSF57625
SSF54556   SSF54556

Gene 3D

3.10.50.10

ProteinModelPortal

H9JBU4 A0A0L7LGF7 A0A3S2PFK5 A0A212EUZ1 A0A0N1IDK5 A0A451EQZ8 + More
A0A194PJ87 A0A2H1V6V0 A0A2A4JHR1

PDB

6G9E E-value=0.000704521, Score=108

KEGG

101746073 no KO assigned | (RefSeq) uncharacterized LOC101746073

GO

GO:0008061 GO:0005576 GO:0005975 GO:0006030 GO:0003743 GO:0005852 GO:0006413 GO:0031369 GO:0005515 GO:0046872 GO:0003824

Length:

1917

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.02094

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00040

outside

1 - 1917

Pi

296.135889

Theta

196.406865

Tajima's D

1.313832

CLR

0.011825

CSRT

0.741262936853157

Interpretation

Uncertain

Source	Sequence	Identity	Evalue
28467696	YETTEIHIAK	96.55	4e-14
28467696	INSDVFK	100.00	0.025

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics