Silkworm Genome Informatics Database

Gene

KWMTBOMO05634 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA006551

Annotation

PREDICTED:_kinase_D-interacting_substrate_of_220_kDa_isoform_X1_[Bombyx_mori]

Location

Bomo_Chr10(-):6934486-6964392 View in EpiBrowser

Location in the cell

PlasmaMembrane Reliability : 2.047

CDS

ATGTATACAAATGGTACGACATCACTCATGGTCGCTGCGGAGAACGGTCGTACGGACGCGGTCAGCTTACTTCTGGAAGCGGGAGCGGACGCGGGTGCTGCCGACGCTGACGGGTGGACACCTTTGGCTTTCGCAGCGCGCGGCGGGTACTTGCCCATTGTACGAGAGCTATTAGATGCAAAATCACGTGTCGACCCCAGAGACTGTGGCGGCTGGACTCCTCTCATGTGGGCCTCTTACAAAGGTAATGAAGATGTAGTGGCTTTATTACTGGAGAAGGGAGCCGACGTACATGCACATGGAAACTACAACATCAACTCGTTGGTGTGGGCGGCGGGGCGACGTCACAGCGGCGTCGTGACGCGCTTGCTGGCGGCGGGCGCGCGCGCTAACTCGTGCGACAAGTACGCGACCTCGGCGCTCACGTGGGCCGCGAGGGCCGGTGACGTCACGGCGTGCGCCGCGCTGCTACGCGCCGGGGCCGATCCCAACACCGCCGGCATGTACTGCTGGACCCCGCTGCTTCAGGCCACGCAAGGTAATCACTTTGAGATCGTCCAAATGCTCTTGGAACACAAGCCCAACGTAAATGCTTTAGACAAGGACGGCTACACCGCTCTCGCTATAGCCTGCAAGGAAGGCTACTTTGACATCGCCTTAGCTCTCATCAACTCTGGTGCTTATATTAATGTTCAGGATCACTCGAAAGACACGCCGCTGATACATGCGGTCAAAGGAGGTCACAAGAACATAGTGGAGACCCTACTGAAGAAGCACGTCGATGTCGATCTGGCCGGGAAAGAAAAGAAAACCCCCGTCTACACTGCCGTCGAGAAAGGACATGTGCCCGTTCTCAAGCTTTTGCTCGCTTCTAACCCCGATCTGGAGCATTGTACTGCGAGCGGAGACACTCCACTGCTACGGGCCGTGAGGTCCCGGAATGCGGAGATGGTTCAGTTGCTGTTGGAGCGGAAGGCGCGCGTCACCGTGGCCGACAACCGCGGGGACACCGCACTGCACATCGCCATGAGAGCCAGGTCTAAGCAAATCGTCGAAATATTATTAAGGAATCCAAAGCACAGTCAACTTTTGTACAAGCCTAATAAACTAAACGAGACTCCGTACAATATAGACATGAATTACAACAAGACAATATTGGGTCAAATATTCGGTGCTCGAAAACTGAATACGAATGAGGACAACGAGAATATGCTGGGCTACGAGCTGTACAGCGCGGCCCTGGCGGACATGCTCTCGGAGCCCAGTCTGTCTGTCCCCATCACGGTGGGCCTGTACGCGAGGTGGGGCTCGGGAAAATCGTTTTTATTGAAAAAACTTAAAGAGGAGATGAAGAACTTCGCTCGGCAGTGGAGCGAGTCTGGGTGGGCCTGGTCGTGGGCGGTGTGGTGGGGCGCGTGGCACGCGGCGCTGGGCGTGGCCGTGCTGTGCGCCGTGGCGGGCGCGCCGCCGCACCTCGCCGCCGCGCTCTGCTTCGGGCTCTTCGCCGCCATCTACCTCGTGCTCTACCTGCTCTGGTACACAGGCAACCGATACGAGTGGTGGTGGGCGGGAGGAGTGGTTTCAACTTTGGGTCGGAAATTCAGTTCGTTATTGCTGGTGCTGCAAGTTGTATTCTGTCATCCTCCTGGACCGAACGATCCGCGTGCCTTACCCGCTACTCCGATAAGATTTCATTTCACGGAAGGCATGAGAGGTGGCGGACAGGAGGGAGACGCCATGGTGGTGCAGATGATCGCGAGCCTGGCTGAGGCTCTCGAGTGTCAGTACGGGCGCGTCTGCACGAGACTAGCGCGAGCTTTTAGACCTAAACCGGTATCTTCGACTTCTGGGTGGAAATGGCGTAAAGTGTGCTGCATTCCACACATCATCACGTTCGAGCTGTGCTTCACGTGCATGCTCGTCGGGATCTGCGTACTCGTAATGTACTTGACTGAAAATAGTGAGAATCAACAACGGCGCAACATCCAACAGTGGCTGATGATAGGCGCGGCGTGCGTGGCGGGCGCGGGCGTGCTCGCCAACCTGTACACGTGCGGGCGCGTGCTCGCCTCGCTCGCGGTGACGCCGCGCCGCAGCCTGGCGCGGGCGCTGCGCCGGGACGCGCCCACCGTCGCGCTCCGCCCGCACGTGCACGCGCTCACACACATGGTGTCGTGCCTGGATGCGTTCACGGGGCAGCAGACGCGGCTGGTGGTGGTGGTGGACGCCCTGGACAGCTGCGAGCAAGAGAAGGTCCTCACGCTACTGAACGCGGTGCACGCGCTGTGCTCCGACCCCAATAGTCCTTTTATACTCCTACTCGCCATAGACCCGCACATCATCGCTAAGGCAGTAGAAATGAACAGTCGTCGGACATTCTCTGAGAGTAACATCGGTGGTTGGGATTACTTGCGGAACATGGTGCAGCTGCCGTTCTACCTCCAGAACTCGGCCCTCCGCAGAGTGAAGTTGGCCCAGCAGACGGCCACCAAGCGGATGCAACCGACCGCCGCGGAGGACTTCTCCACCTCTCTCCAGAGATCCGTGTCGGCCCGGCGCCTGTCGTCCACGTCGGAGTTGATGTCGAGCCAGGAGCGCATCAAGAGCCAGAGCAAGGAGGCGGGGCGCGCGCGGCGCCTGCGCCCCTCCGAGTCGGTGGCGTCGTCCGTGGCGTCCGGCCTGCACCGCGCCGCGCCCGTGGCCGACCTGGGCCGCGTCATGCTCACCGACGACTACTTCAGCGACGTCAACCCGCGCAGCATGACCCGCCTCATGAACGTGCTCTACATCACAGGTCGCCTCCTCAAAGCATTCCAAATAGAATTTAACTGGTATCAGTTGGCTTCGTGGGTGAATCTGACGGAACAATGGCCATTCCGAACGTCGTGGATCATCTACCACCACGAGACGTACGAAGAGCACATAGACGACACCACCTCGCTAAAGAACATTTACGAGAAAGTCAAACCCCTGATGAACGGGCTCCGCGAAGCCGGCACGCTGATGGAATTGGATCGCGACGAGCGCAAGCTGGAAGTGTTCCTCAGCTTCCATCGGTCCACCCTCACCGCTGCCGATCTGAAGATCTTCCTGCCCTTCACGATCAACTTAGATCCATACATCAAGAAAGTGATTAAAGAGGAACACGCCCAGACGAACGGGGAAGACGAGATGGGTGCCGGAGCAGCCGCGGGCCCTGCGTGGGGAGCTCCACAACAACCTAAACAACCTACATCGAAACTCTTTAACAGAAAACATCGTGCGTCGAGTGCAGTGGCGCCCGCCCCGAGCGGCGCGCCGCCCGCGCTCTGGATGGAGTGGCCGCAGCCGCCCCCCGCGCAGCCGCCGCCCTCCCGCAACCCCTACCATCTGCTGCGCTCGGCCTTCCCCGCACTGAATGACATCTCGAACCTGCGCCTGTCGACCCTGAGCGTGGAGTGCGTGTGCTGCGTGGTGCGCGAGGGGCTGGGCGAGGGCGGGCTGCTGGCGGCGGCGGCACTGCTGGAGAACCGCGTCTGCGGACTGGCGCTCTCTGTCTGCAAACTTGAAGACCTGCAGCCGGTATTGAAACTACCGTTCGGCGACTGGGAGCTATTCAAATTGCTGATTACGAATTTGCGTGAACTGGAAGCTAATATGCCCACAAACATGCCAGCCGTAACCGTAAACTCGGAGAAAACATCGGAGATCGAGCCGGATTCTAGCAAACCTCGAATGGCGGTGGAACACCAGCGAAGCCGACCCTCTAATGTTGAGAAACAGGTGACGCTGGAGGAGCAGATGATCTGCGGCGCCCTGCAGACGCTGAGCGAGGAGGCGGTGGAGGAGGTGGCGCAGTCCGAGAGCGGCGCCGACCCAGACGACGATCCGACGCGGACTCACGACCGGCGCGACCCCTCCATACTGAAGGGCGGCAGCGTGCGGCGCCGCGACCCGCCCGCCGTCACCTTCAACTTCGAGAACGAAGAGGAGTCGGACGACGACGGACAGATCACGTTCAGCGCACGCCCGCGGCCCTCCGCCCTCTACCGGCCGCGTCCCGCCCCGCGCCCCTCCTCGCCTCGCTCCCGCCCCTCGTCCCTGCTCGTCGCGAACGAAGACAGCGTGGATAGCGCCCGTCTCGCCGCGCGATCTCGCTCCGTCGAGGACTCTTCTCGGGCACCTTCACTCGATCAACCACTGGATCTGAAACTTCGTAGCTTGCGCAAAACCGCCGAGATCCTGCGAAAGGTCAGTTCTGCCGAGAGACTCACGAGACTTCGCGATAAAATAATATCGAGAAACGGATCCCGAGACCGCAGTCCGCCGCGCGAATACGCGACCAGCGACGACGAGTCTGCACCGCTCGTGTCATCGGACGACGCTCGAGCCGTGCCCTCGGGCGGCGCCCAGCTGTCTCCGCGCTCCGACCTCACAGAGCTCGAGTCTCCGCGCTCCAGGGACGCGGCCTTTGATCTGCTGCCGGAGCAGAAGACCAGCGAGAACCGTGCGACGCGCCCCGCCCTTGAACGCTCCGGCAGTTGGGCGTCCGTCTCCAACATGGTGGAGCCGTACAACATGCGGCTACTGTCGCACGGCACAGCGGACGGTTGCCGGTCGCTTTGGCGGCAGGACGCCCTCGACTCGGACCCGCCTTGGCCGTGGGATGATGAACCGGATTCCGTGGTTTGA

Protein

MYTNGTTSLMVAAENGRTDAVSLLLEAGADAGAADADGWTPLAFAARGGYLPIVRELLDAKSRVDPRDCGGWTPLMWASYKGNEDVVALLLEKGADVHAHGNYNINSLVWAAGRRHSGVVTRLLAAGARANSCDKYATSALTWAARAGDVTACAALLRAGADPNTAGMYCWTPLLQATQGNHFEIVQMLLEHKPNVNALDKDGYTALAIACKEGYFDIALALINSGAYINVQDHSKDTPLIHAVKGGHKNIVETLLKKHVDVDLAGKEKKTPVYTAVEKGHVPVLKLLLASNPDLEHCTASGDTPLLRAVRSRNAEMVQLLLERKARVTVADNRGDTALHIAMRARSKQIVEILLRNPKHSQLLYKPNKLNETPYNIDMNYNKTILGQIFGARKLNTNEDNENMLGYELYSAALADMLSEPSLSVPITVGLYARWGSGKSFLLKKLKEEMKNFARQWSESGWAWSWAVWWGAWHAALGVAVLCAVAGAPPHLAAALCFGLFAAIYLVLYLLWYTGNRYEWWWAGGVVSTLGRKFSSLLLVLQVVFCHPPGPNDPRALPATPIRFHFTEGMRGGGQEGDAMVVQMIASLAEALECQYGRVCTRLARAFRPKPVSSTSGWKWRKVCCIPHIITFELCFTCMLVGICVLVMYLTENSENQQRRNIQQWLMIGAACVAGAGVLANLYTCGRVLASLAVTPRRSLARALRRDAPTVALRPHVHALTHMVSCLDAFTGQQTRLVVVVDALDSCEQEKVLTLLNAVHALCSDPNSPFILLLAIDPHIIAKAVEMNSRRTFSESNIGGWDYLRNMVQLPFYLQNSALRRVKLAQQTATKRMQPTAAEDFSTSLQRSVSARRLSSTSELMSSQERIKSQSKEAGRARRLRPSESVASSVASGLHRAAPVADLGRVMLTDDYFSDVNPRSMTRLMNVLYITGRLLKAFQIEFNWYQLASWVNLTEQWPFRTSWIIYHHETYEEHIDDTTSLKNIYEKVKPLMNGLREAGTLMELDRDERKLEVFLSFHRSTLTAADLKIFLPFTINLDPYIKKVIKEEHAQTNGEDEMGAGAAAGPAWGAPQQPKQPTSKLFNRKHRASSAVAPAPSGAPPALWMEWPQPPPAQPPPSRNPYHLLRSAFPALNDISNLRLSTLSVECVCCVVREGLGEGGLLAAAALLENRVCGLALSVCKLEDLQPVLKLPFGDWELFKLLITNLRELEANMPTNMPAVTVNSEKTSEIEPDSSKPRMAVEHQRSRPSNVEKQVTLEEQMICGALQTLSEEAVEEVAQSESGADPDDDPTRTHDRRDPSILKGGSVRRRDPPAVTFNFENEEESDDDGQITFSARPRPSALYRPRPAPRPSSPRSRPSSLLVANEDSVDSARLAARSRSVEDSSRAPSLDQPLDLKLRSLRKTAEILRKVSSAERLTRLRDKIISRNGSRDRSPPREYATSDDESAPLVSSDDARAVPSGGAQLSPRSDLTELESPRSRDAAFDLLPEQKTSENRATRPALERSGSWASVSNMVEPYNMRLLSHGTADGCRSLWRQDALDSDPPWPWDDEPDSVV

Uniprot

H9JAK6 A0A3S2TKZ3 A0A212EUS6 A0A194PFS6 A0A2H1WLE3 A0A0C9Q932 + More
J9JLV8 A0A2H8TGV0

Pubmed

19121390 22118469 26354079

EMBL

BABH01008780 BABH01008781 BABH01008782 RSAL01000073 RVE48978.1 AGBW02012332 + More
OWR45204.1 KQ459606 KPI91554.1 ODYU01009430 SOQ53848.1 GBYB01010798 JAG80565.1 ABLF02016840 GFXV01001538 MBW13343.1

Proteomes

UP000005204 UP000283053 UP000007151 UP000053268 UP000007819

PRIDE

H9JAK6

Pfam

PF12796   Ank_2        + More
PF07693   KAP_NTPase
PF00023   Ank

Interpro

IPR002110   Ankyrin_rpt        + More
IPR020683   Ankyrin_rpt-contain_dom
IPR011646   KAP_P-loop
IPR036770   Ankyrin_rpt-contain_sf
IPR013761   SAM/pointed_sf

SUPFAM

SSF48403 SSF48403 + More
SSF47769 SSF47769

Gene 3D

1.25.40.20

CDD

cd00204 ANK

ProteinModelPortal

H9JAK6 A0A3S2TKZ3 A0A212EUS6 A0A194PFS6 A0A2H1WLE3 A0A0C9Q932 + More
J9JLV8 A0A2H8TGV0

PDB

6MOL E-value=5.93912e-49, Score=496

KEGG

101741683 K12460 ankyrin repeat-rich membrane spanning protein | (RefSeq) kinase D-interacting substrate of 22

GO

GO:0016021 GO:0016301 GO:0005515 GO:0008270 GO:0006468 GO:0005886 GO:0006171 GO:0035076 GO:0043401 GO:0003700 GO:0043565

Length:

1556

Number of predicted TMHs:

4

Exp number of AAs in TMHs:

94.5691400000001

Exp number, first 60 AAs:

0.01016

Total prob of N-in:

0.13689

outside

1 - 462

TMhelix

463 - 485

inside

486 - 491

TMhelix

492 - 514

outside

515 - 627

TMhelix

628 - 650

inside

651 - 661

TMhelix

662 - 684

outside

685 - 1556

Pi

259.143235

Theta

180.277425

Tajima's D

1.413013

CLR

0.094118

CSRT

0.769011549422529

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics