Silkworm Genome Informatics Database

Gene

KWMTBOMO05825

Annotation

PREDICTED:_uncharacterized_protein_LOC106136784_[Amyelois_transitella]

Location

Bomo_Chr10(-):11230932-11236170 View in EpiBrowser

Location in the cell

Mitochondrial Reliability : 1.767 Nuclear Reliability : 2.021

CDS

ATGCCGATCACCAGGAGCAACAAGGGATCATCGAGGGAACAGCCACTCGAACCTGCGGTTCAAGAATCCAGTCCGGAGGCAACAGAAGCGACGTCGTACGAAACATACGAGAGCTCCGCGACCGGTACGACCCAGAACACAAAACTTGAAGAGGCAACGACGCGGACACGTGGTGAAAATAGACCCGCGTCGAAGAAATCGCTACGACGTAAGGAACTGGCAGCGAGAGCGGAGCTGGCGGAAAAAGAATTGATAGAAGCACAAGCAGCCACTATAGCCGCCAGACTCCGCCTGCAATTGATTCAGGCCGAAAGCGAAGACGACGATGATTCCATTATAGAAGAGCCAAAGGACCGGGAGGACCAGGTCAGGGCCTGGGTCCAGACGTCGGCGGGCAGTATGGACAAGGAGCCCGCAGGCGAGCACATTGAGAACCACCCCGTCAGCAAGGCCAACATGGAAGATTGCAGCAACAGGGACCTGGCTAAGGCGATAGTGGAAGCAGTGAGGAGCGCAACGACCAAGGAGCTGCCGCCACAACCCGACTACATGCACCAGTTGCCGACGTTCGAAGGCGACTGCAGGGAGTGGGTGGCCTTCAAGGCTGTCTACGAGGATACCGCTCCACTCTTCTCAAAACATGGCGCGGCTGAGAAGAGCGCTGAAAGGACAAGCCAGGGAAGGAGTCCGCAGCCAGCTGTACTCCGAGAGCACACCGGAGGAACGATCAGGGGGCTGCGGAAACCCCAATATTTGATGTCGCCCGAACTGCTGAAGAGCATCGTCGACAAGATGCCGACCATCCTGAGGTTCCGGTGGTACGATCACATTATCGAAAAGACCGAAGGAGACCCGGACCTCAACACGATGTGCGGCTTCCTGAACAAGATGGCGGACCGGTGCGGGCCACACGCCGTGGCTGAAGTAGCAACGAAAAGACAACCATCGAGGCGACAGGCGACGCACGCCACAACCGACTGCACCGAGCGCGCAACTTCGGACAGAGTAATAATAGACAAGCCGGCGTGCCCGCAATGCAAGGATGGACACCCGCTGTACGATTGTCCGAGGTACAAGGGCGCTACAGTGCAGGAACGATGGAGAATGGCAAAGGAGTCGCGCCTATGTTACAAGTGCCTCGATGGTGAGCACCGAAAGCAATCGTGTCAACGACCGCCATGCCGCACGTGCAAGCGCTGGCATCACCACTCGCTACACAACGAGAAGCCGGAGACAGAGCCAGCAGAGAACAGGGAAATCGCGAACAACGTGCGACTTCCCATCAACTGCACACAGATCAGCAGGGCGTACTTGAAGATGGTGCCCGTTGAAGTGTACGGGCCATCGGGATCGACGACGGTGCTGGCCCTGCTGGACGAAGGCTCCACTGTAACTCTCCTGGACTCGAGCGTGGCGAAGCAGATCGGCCTGAAGGGACCCAAAGAGATGCTCCGCCTCGAGACCGTGGGCGGGAAGACCCTAGCGAAGAAGGACTCGATGAAGCTTAACATCCGAGTTCGAGGGCTTCACCAGCGGCAGAAGAGGACGATCTTCGGAGCGCGCACAATGGACGACATGACCCTTGCACCCCAGCGATTGAAAAGAGAGACCATCGAAGGCTACGCGCACCTGAGGAGCCTAGCGGACCAGTTAAATTACGAAGAACAATCCCCCAAACTATTGATTGGGCAGGACAACTGGGGACTCATCGCCGCCAAGACGACGCGCAGGGGCAAGAGGAACCAGCCGGTAGCCTCATTCACCCAATTGGGATGGGTGCTACATGGTCTCGACGGCAACAACGCAAAAGAGGTCAACTTCCTCACCTGCGCCCATGTATCGATGCGCGAAGAGGCCTTGGACAGACTGGTGAAGGAGCACATCGCAATAGAGTCGCACCCAAGCGTCCGAGCACGGATATGGAGGCGAAGGCTCGTCGCGGTTGTCGCGGACATCAAGGAGAGGTTCCTGCAGATAAGGATCAGGGACGAGGACCGCGACAGCCTGAGATTCCTCTATAGAGAAGATCGACGCGAGGCCGCTTCAAAAGAGTATAGAATGACGTCGGTCATATTCGGAGCGGCCTTTTCAACGAGCGCGGCGCTGTTCGTTACAAATAAGAATGCCAAGGATTACAGATATCAATATCCAGAAGCCGCGCGGGCAATAGAAAGAAACCACTACATGGACGACTACCTGCAGAGCTTCGAGACGGAAGAAGAGGCTATAACCATAGCCAGCGAAGTGGATGTCGTCCACCGTGGAGCGAAATTCGAGCTCAGAGGCTGGGCATCGAATAGGCGCGGCGTCTTGGCGAGCCTCGCAGGTGGTGCGACCCCAGGAGACATAGAGCTGGGGTCGAAGGAAGAAAAGACCCTGGGCCTGCGGTGGTTCTACGAGTCGGACGAGATGGGATTCCAGACACATCCACGAGACCCAAAGGATATAGAAGCACGAACCCCGACCAAACGAGAAGAGCATTTGGCGGAGCGGGATCGACTGGGACGACGTCATCCTGGAAAAGGACGAGGTGGCGTGGAAACCTTCGCATGCTGCAAGGCCTCCGAATGGCAAGTCTATTGGCGTCAGAAGGCAGACGAGAGCACCTACCGCGTCACGCTTCTAGCAGGGAAAGCCAGGGTGACCCCACTGAGACCAGTCTCCATCCCAAGGCTGGAGCTGCAAGCTGCGCTGCTGGGGACAAGGATGGCGCAGGCGATAGCGGACGAATTGGACATCGCAGTCGGTGTAAGGACGTACTGGACTGACTCCAGTACAGTCCTGACATGGATAAAGACCGACCCACGCACGTTCAAACCTTTCGTCGCGCACCGACTCGCCGAGATAGAAGAGTCAACGAAGCCCCAAGAATGGCGATGGGTGCCTGGCTCGCAAAACCCAGCAGACGACGCAACTAGGGAGGCGCCGGCGGATTTCGACCACACGCATCGGTGGTTTAATGGACCCAAGTTCCTGACGTGGGATGGATCGCGCTGGCCCAAGCCGCGAACATTCAAGCAAGAACCGTCTGGAGAAAAGAAAGAGGTCTTCCTGGTCGCCACGGCGAGGACCGCTGACGCTCGACCCACGCCCGATCCGCACAGATTCTCAAGCTGGGTCAAGTTATTGAGAGCAACAGCCAGGGTCCTCCAATTTATCGAGCTGTGTCGACCTCGGAAGGAGAGCGCCTGCGTGTCCAGACAATTGGAGCAGCAAGATCCCACGTGGAGGACGACACGAACGAAGCAACCCCGATCCACATGGAAGTTAAGGACCCCGGAAGCACCTAAAGAAGCGTGGCTGCTGCTTGATCCGCCCCACTTGAAGAAGGCGGAGAAGATCCTACTGAGAAGCAGCCAAGGAGAGAGCTTCGGTGAAAAAGATCCCGAACGTCACCCCAAGTTGCGACGGCTCGACGTCGTGATGGAAGATGGCCTGTTGCGCCTGCGCGGACGTATCGACGCAGCGCAATACATAGATGCAGGCTGCAAGCGACCGATCGTGCTGGACGGGAAGCACGTAATAGCGAGATTATTGATCAAACACTATCACGAGGCGTTCCAGCACGGTAACCACGCAACGGTGATGAACGAGGTGCGGCAGCGCTACTGGATCCTAGGTCTAAGATCGATCATTCGAGCGACGGCCGTCCGATGCCAGTGGTGCAAGGTCTATCGGAGTACACCACGACTACCGCCCACCGGAGACCTGCCGATAGAGCGGCTACGACATGGAGAGCCGCCGTTCACCTGTGCTGCCGTCGATTACTTCGGGCCGATGACGGTGACTGTAGGACGACGTCACGAGAAGAGGTGGGGCGTGCTGTTCACATGCCTCACCACGAGAGCAGTCCACATGGAGCTAGCAGCGTCACTGACGGCAGACTCAATGCTGTTAGCGCTGCGCAGGATGGCCGCCCGGCGAGGAACGCCCAAAGTCATTTACAGCGACAATGGGACTAACTTCGTCGGCGCCAACAAGGAGCTTAAGCAGGCAATCGAGAATGCAAGGGAAGCAGACGTCGTGTCACGGGCCGCTCAGATGAACATAAAATGGAAGTTCATCCCGCCAGGAGCGCCGAACATGGGAGGCGCGTGGGAACGTTTGGTGCGGTCCGTGAAGACCGCGCTGGCGGTCACACTGAAGGAAAGACACCCGAGGGAAGAAGTTCTGCACACTCTTCTGTTGGAGGCGGAGCACGTCGTCAACTCGCGACCGCTCGTCGCCAGGGAAGAGAGTTGGGAGTCAGAAGCACTCACGCCGAATCACTTCCTCATAGGGAGGTCCTGCGGAGCTCCAAGCATCGGCGACTACAGAGACGAAGACCTGACCGGCAAAAGGACATGGAGAGTGGCGCAGCGTATGGCGGACCACTTCTGGAGTAGGTGGGTCAAGGAATACCTGCCTACGCTGCTGCCCAGGAAGATCGACGGGAGAGCAGCTGGCGAGGACTTGCAGTGTGGGGATACCGTCCTCATAGTGGACTCCACGCTGCCACGCAACACATGGCCGCGCGGGCAAGTTGTCCACACCTACCCAGGCCCCGACAACCGTGTACGAACCGTCGACGTCAGAACGAGCGGCGGTCTGCTTAAGAGACCTGCCTCCAAGATGATCCTGCTGGTGCCTGCAACGAGCGACGAGCCCACGCCCATAGAGTCGCCACTACAAGGAGTCGGTGCTACGCACGAGGGGGAGGATGTTGGCGACAGCGGCGTCGCCCCACAATTATAG

Protein

MPITRSNKGSSREQPLEPAVQESSPEATEATSYETYESSATGTTQNTKLEEATTRTRGENRPASKKSLRRKELAARAELAEKELIEAQAATIAARLRLQLIQAESEDDDDSIIEEPKDREDQVRAWVQTSAGSMDKEPAGEHIENHPVSKANMEDCSNRDLAKAIVEAVRSATTKELPPQPDYMHQLPTFEGDCREWVAFKAVYEDTAPLFSKHGAAEKSAERTSQGRSPQPAVLREHTGGTIRGLRKPQYLMSPELLKSIVDKMPTILRFRWYDHIIEKTEGDPDLNTMCGFLNKMADRCGPHAVAEVATKRQPSRRQATHATTDCTERATSDRVIIDKPACPQCKDGHPLYDCPRYKGATVQERWRMAKESRLCYKCLDGEHRKQSCQRPPCRTCKRWHHHSLHNEKPETEPAENREIANNVRLPINCTQISRAYLKMVPVEVYGPSGSTTVLALLDEGSTVTLLDSSVAKQIGLKGPKEMLRLETVGGKTLAKKDSMKLNIRVRGLHQRQKRTIFGARTMDDMTLAPQRLKRETIEGYAHLRSLADQLNYEEQSPKLLIGQDNWGLIAAKTTRRGKRNQPVASFTQLGWVLHGLDGNNAKEVNFLTCAHVSMREEALDRLVKEHIAIESHPSVRARIWRRRLVAVVADIKERFLQIRIRDEDRDSLRFLYREDRREAASKEYRMTSVIFGAAFSTSAALFVTNKNAKDYRYQYPEAARAIERNHYMDDYLQSFETEEEAITIASEVDVVHRGAKFELRGWASNRRGVLASLAGGATPGDIELGSKEEKTLGLRWFYESDEMGFQTHPRDPKDIEARTPTKREEHLAERDRLGRRHPGKGRGGVETFACCKASEWQVYWRQKADESTYRVTLLAGKARVTPLRPVSIPRLELQAALLGTRMAQAIADELDIAVGVRTYWTDSSTVLTWIKTDPRTFKPFVAHRLAEIEESTKPQEWRWVPGSQNPADDATREAPADFDHTHRWFNGPKFLTWDGSRWPKPRTFKQEPSGEKKEVFLVATARTADARPTPDPHRFSSWVKLLRATARVLQFIELCRPRKESACVSRQLEQQDPTWRTTRTKQPRSTWKLRTPEAPKEAWLLLDPPHLKKAEKILLRSSQGESFGEKDPERHPKLRRLDVVMEDGLLRLRGRIDAAQYIDAGCKRPIVLDGKHVIARLLIKHYHEAFQHGNHATVMNEVRQRYWILGLRSIIRATAVRCQWCKVYRSTPRLPPTGDLPIERLRHGEPPFTCAAVDYFGPMTVTVGRRHEKRWGVLFTCLTTRAVHMELAASLTADSMLLALRRMAARRGTPKVIYSDNGTNFVGANKELKQAIENAREADVVSRAAQMNIKWKFIPPGAPNMGGAWERLVRSVKTALAVTLKERHPREEVLHTLLLEAEHVVNSRPLVAREESWESEALTPNHFLIGRSCGAPSIGDYRDEDLTGKRTWRVAQRMADHFWSRWVKEYLPTLLPRKIDGRAAGEDLQCGDTVLIVDSTLPRNTWPRGQVVHTYPGPDNRVRTVDVRTSGGLLKRPASKMILLVPATSDEPTPIESPLQGVGATHEGEDVGDSGVAPQL

Uniprot

NA

ProteinModelPortal

NA

KEGG

105841459 no KO assigned | (RefSeq) uncharacterized LOC105841459

GO

GO:0015074 GO:0003676 GO:0006102 GO:0000287 GO:0051287 GO:0005216 GO:0006811 GO:0006541 GO:0016812 GO:0016597

Length:

1577

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.01742

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00022

outside

1 - 1577

Pi

365.558536

Theta

200.237701

Tajima's D

2.886193

CLR

1.025734

CSRT

0.973801309934503

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree