Silkworm Genome Informatics Database

Gene

KWMTBOMO14698 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA009572

Annotation

PREDICTED:_uncharacterized_protein_LOC101737540_[Bombyx_mori]

Location

Bomo_Chr24(-):12930465-12937413 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.059

CDS

ATGTGGGCTGACATTTGTGCTGGAAATGTTCCTAAAATTTTAGATTTAGAAACATTACAAAAGATTCACGATGAGATAAATAACAAAATCACTACAAAACTCAGAAAGCAAATTTCAGACAAGCTAGAACGAAATTTGATTTTAGTGCCATGTAATAAAAGTAAGGGAAATGCTATCAAAAATAGCATCCACATCAATGTGATAGTTTCTTTAATGAATACAGCTGTACAAACATGTGATATTGAATTTGATGACGTGCTCCTAAATAAAAGTTACGCTTTTCGATGCTTAGCTCTAACACCTGTAGAATTGACTAAAGATTTTTACCAATTGATTCTGGACTCTATCTCTGATATTATTGAACCAACGGCTAAGAGAATACTTAAAAAATATATCAAAACATCTAAAAATGCCAAACATACGTTTTCTCTTCTTAATACTATCATGATTTGTTTGATGAAAAGTGAGTTGGAACTCTCAATTTTTGAAAACTTTGAGCCGCACGAATGGCGAAAAGAAATGCTTACACACTCACTGTTTAGTGCTTGGGACGTCGATTTTAACACAAGAGAAAATCTAATAGACAAAATTAATAAACTAGAACTAAACAACTACAATACACAAAGTACATATCTCATAGAAGACATATTAGATATTGTGCTATCCAATATGAGAACTTGTGAAGTTGACGTTTATTTTTTTGATGATCTTCTTTGTCTGATAGAGCGCAATCCTGAAATTGGACAGATGCTATTTAATAACTTTCCGTTACTTCAAAGTATAATAGAAGAAATTAAAACGGATGAGCTCTCAGAGTATGTTAAGCTGTTCGATGATACTACTAATAATATTGATCTTAAATCCTTTTCTAAGTATCCTTGGAATGTACTGTACATTTTAATGAGTAAAACACCGAATGAACTGAATGACCTAAAACGATTACTAGAACTCAGTTTAATGGACATGAAAAAACAAATCGAACTTCTTCTAAAACTGAAGCCAAAAGAATCTTTCCTGAAATGGAAGTACGACATAGCATTTGAAATAGTAAAGCAAATAATTACGATTCAATTTCCATATTATAAAAAGTATCTACAGTTGCAGCGTAACGTTTCCAAGAATTTACCTCTGTTGTCGCCATTTACAGTAAGGTGTACGTGTAACAATTCAGATTGTTGGTTCCACTCCAGTTCGGAATGTTGTGACCTATTGTATAACTTGAACTGCTCAATAGCTAGAGTAATGTTCAATTGCAGGGAACTTTCAGATCGCATTATTAATTTAGTGGGCGCATTGATCTCAGAATTGATGTGCCCAGAAAAGATTATTCAACTCATCAAAGCACTTGATATTATTGAAGACTACGAAATTATGAACGAAGAAGAACTAGAAGCACTTTTTTCGCAATTAAGTTTTACGAATTTTGATCTTAAACTTCACGAATACGTTGTTCAGAAATATTTTCCAGGTTCTTATGAAAAAACAGTAGATCAACTGCTCGATGAGATAGAACAATTCCTTCCAGGAGTGACGGACGCTGTCGTCGATGTGTTTGATAAAGTGCAGTTTTGTTATAAACAATCATCTGCCCTTTTTCCCGAAGAAGGTCCAATAAATAGTTGGGATGAAAAACAAATCAGGAAGTGGGGTAAACTGGCTAGGTGTCAGGAAAATACGAATACAATTCCCGATGAAGAAATACTAGCAGTTATAAAAGCTGCAGTTAAAAGGACTGTAAAACTTCAACTTCGGCACATTCAACTCATTTCTGTGATTTTGATGGTAAAATCTGACAAAGGAAAAGGAATACTGAGTCAAATCAATACTGGAGAAGGTAAGACTCTCATTATTGCAGTATTAGCCGCTTATAATGTCTTGAAAGGTCATACTGTAGATGTTTACACAAGCTCGCCCTTATTAGCAGTCCCCCAATCAAAAGATTATGAAAACTTCTATACTGTTTTAAATATAACAATCACGCATAACATTGAATATAATTCCGACTATGACAAAGATGTGATTTATGGTACGAATAGATCATTTCAACGTGATGTACTTCTCGATGAGTTCAGAAAAACGGGAGTAAGAAAAAACCGTAAGTTTGATATTGCTATAGTCGATGAAGTAGACAACATGCTATTAGATGGCAACAGTTCGATCCTACAGATCGTCAGAGACATGCCTGCGATGGATTATTTAGAAGTTTTGCTTGCAGCTATTTATATACAAGTGAATGAAGCTGCTCGATCTTTGATTGAAAAGGACGGAAAAACATATTATTTGGTACAAGAGACTCCATTAAATGACGATGGGCATGTAAAACCTAACATATCTGTTGAAGAGGTGGAAATTAAAGAATCGAAAAGAAATTTTATAATGAAATGCACTGAAAGTCACTTACGAAAGCTGATTCGAGACGTTGAACACTGCAAACACATAGAAGAAGGCTACCCCGAAGTCAAAATACCAAATCATTTAAGAGAAATAATTTGCAAAGTGCAGTTGAAGAAATGGATATCAAATGCAATAAGTGCAATGTTTCAATATGTAAAAGGCGAAGATTATATTATAAGAAATAGCAAAATTGTAATTGTGGATGCAGATAACACAGGTGCATTACAGCTTAACTCTCAGTGGTCGGCTGGTTTACATCAGTTTCTTGAAATAAAACATGGAGCCAGAGTTCAACCGGAAAATTTCACAACTAACTTCATGTCAAACATTGGAATTTTTACTAGGTATGTTTCAAAACTGTATGGATTAACAGGGACTTTAGGAAGTTCAGAAACCAAGTCATTTTTACAAAATGTTTACAATGTGGACTCTGTAGTCATACCACCTTTCAAATTGAAACAACATAAAAACTTAAAACCCATTCTGATAAATAATAATGAAAACAGGTACGAAGAAATAGCTAGGAGCTGCATCAGAAAACTGAGTTATGGTCAAGCAGCATTGATCATCATGAAATATATACGAGAAACTGAAGAACTTAGTGATGTATTTCTTAAAAAATTCAATTACGACAGTTCGAAAGTAAAACTTGTAAAAACAGATGACGATTCTGAAATTTTAGAGAAACCTTTGAAATCAGGAGAAGTAATCATAACAACAAATATTGCTGGTAGAGGCACTGATGTCAAGCTAGGTAAAGACGTCGAAAAAAATGGAGGATTACATGTATGCCTTACATTTTTGCCGTTAAATTCCAGGGTGGAACAACAAAATATAGGCAGAACTTCCAGAAAAGGTAATAAAGGCACTAGTCAATTAGTCATCAATGATCCTCAAGGATTTGATGACATGAAGGCTATAAAGGCTTTGCGAGATAAAAAAGAAGCAAACATCATGTCCCGAGCTTTAGAAACAGTTAAAGAAATTAAAACCAAAGATCAAATTTTTCGTAGTTTCTGTAAACTTTTGGATAAAATTGTAGAATCCGATGATGACTTACAAGAAATAAACCATACTGCTGCTGAGGAACGCTTTGCAATTTGGTTGGTAATGAATACAGGACATAATGGCATCGAAAAAGATGTACATGAACAATTTGAGACATTCAAAAAAGAAATATTAAATGATTATCAAAACGACTGCTTAATAAAAAATCCTTGTATGCATATAAACCTTGGCAATAAATATCTTGCCAAGAAAGAATACGACAAAGCTATTCGAGAATATGATCGAGCTATTATTTTAGATCATAATTTTTCTGAATATGCATATTACAATCGCGCTCGCTCTTATTTAGCGAAATACGGAAGCGATATGGAAAAACATGAGCATTTTATCAATGAGGCAATCAGAGATCTAGAAAAAACCAGGAAACTTATAGATGAAAAAGAATATGCCTTGCATTTGTTACAAACTGCATCGAAAGGTGAAGTATTTTCACAACAAGTAAGCCACAAGTTAAATCTCTACAACCTTATAAAAAATACTATAGATCTTGCAATCGGTCCAGATGTAAAAGCACTCAACGATCAAACAAATCGAATTGAAGAAGAATTAAAAAATACTGACTTGGAACCAGATGTTAAAAGTAAATTGAAAGAAAGATTGAAAGAGCTAAATATATACAAAAAAGAAACTGGAACGATAGTAAGAGCAAAACTTAAAGGTATTAATGTATGTGTAGATTCCATCGGAAAAGATTTCATACCAAGCTCTGATTTGGAATCACATAAACAGGAGCTGCAAGAATTGAAAAGGAACGGTTGGTTGGAAGGATTTACGGTCACTGAAATTAAGCCCATTGATTGGTCTGCTGTGATAAGTTTACTCTGCATTGGATTGGGACAATTAGTTATTGGAGCTGCTTTGACCATATTTACACTCGGTGCCGGATCATCGATTGGTATGGGACTTATAAGTGAAGGAATCAGTGATATCATAACGTCCATAAAAGATGGCATCATTAATCGAAATTTTGATTGGGCGACATGGGCATTAATGAAAGTAATAAGTATAGCAGTATCTGTAGTGTGTGCTGGATTCAAAGCAATCAAAGATGTAGCAAAAACGGCTTACGCAGGAGCTAAAAATGTTGTCACAAGTGGTGTCAGATGTCTAACAGAAACTACAAAAGAAGGATGGAAGCTCGTAGCCAAAAAAGTTGGTCTTGATATGGCAAAAGGTGTATCTAAGGAAATATTAACCAACTTAGTTGCTTACGGCATCGATAAAAAGATTTTACCGATGATAGAAGAGATTATAATAGACAAAGTTAAAGAACCTATTCAAAAAGCTTTACTTAACAACTCTAAAGTAGCTAAGATGTTACAATTAGATGTTGAAAATGGCAATCACAATTATGAAAATAAAATAAGAGGCATAGCGCAGAAACTGTTAACCCCTGAAGAATATTCTAAACTAAGAACAATAGCGACGACAATAGCTACTAGTGTTGCAGATAACAAAGGTCTAACGTTAACTAGACAAGTATGTACTGGGTTTATAGGTGTGTTTGAGTTAGCAACATTCACTTCTGATTTCATTGGTAAACTTCTGAATAAGATTAACAGCATAAACGTTGAAATAAAAGTAGATAAGAATGATATTGGACAAAAAAACACCCCGCAGTCAGAGGAAACTACAAATGAAGTATATCAGCATAATGATGAATTTAAACATACCGAAAATGACATAGACTTATCAAAAGCTGACCAAGCGGAGGAGCAAATAAAGCTAGATAAAAAGCCTCAATCCACAAACAATCTATCAAGTGAGATAGCTGGAATGGTATCGGTAAATATTATACAGATTTTAAAAGGAAAAATTGTGATGCCAGTAGTTCAAATGGGTGCAAATTACACAATTGACAAATTATCATCAAAAGTTGCTAAATGTTTGGATGACGAAATGGAAACTTACAGGGCTTACAAAAATATTATACATATCCAAAATAGAACGTATTCTAAAAATAATCTAGAACCAGTACTTAGCAATAATGAAGTAGAAAAAGTTGATAAGATAATAGACGACCTACATAAAGGAGGTCCAGCAGGACTAATACACTTAGGTGCAGTCAGTGCTGTTACCGATCATCCTATTGAAGTTTATGACAAGGAGGGCAGACATAAATACACAATTGGAGACGCCAAGAAATCCAAACCAATCCAAATTCAATATCATGCTCCAGAAGACGGGTCTAACGTTGGACATTTCACATTGAAAGGTCAGCGTGAACCTTCCCGTAAAGGTGACTCTGATAATATGTGTTTATTCAATGTTATAGCCGAGCAAACAGGCAAGAATCCAAACGATTTGAAAAAAGAAACTCTCAATGTTATGAAAAATAGCAAAGGAGAAATCGCAAAACAAGTAAAACACATAAACCGCCTGGTAATGTATGATAGAGCCAGATTAATAGAAGGCGGCGCACAATACAATGGAAAATGCCCCGAGCAAGCAAAAAGTTTTCTTAGAAATTCTTATGGAGTAAAAGGATTTAAAAATAAAAATAAAGGACATGCTGATATCCATATTCCCTTCGAAACTAAAACAATAGGTATGCTTAATATTATTTCTGAAGAATCAGGACATCAAATAGAGATTTATGACTCAAGTGGTAAACTATCATACCTTGTCGGAGAAACGAACGGTAAACCTCCAATTAAAATGCAATACAATAAGCATACAAGCAAAATTACTGGTGGCTTCTTTTCTTTAGGCGGCACCATCAAGTATAATTTGCATGATTTTAATGACATGACTTTTTATAATACTGTTAGCAACCACACCGGCTGCGATGCCAACACTTTAAAAACGACTACATCTAGCAGAATGAATGCCAAGCCAGTACCTGCTTCTAGGAATTGCCTTGAAAATGAGACCCTAAAGATCCCAAAATCAGGATTTGCTTCAGAAGACGACCAAGCATTCGTGTTTCACTACGCAATGCAGACTCAGGCGGCTAAGGATGCTATGGATGAGCTTAACAAATACGGGCCTGGTGCTAATAACACCACTGGTCATAGAAGACAAGAGGTCTTGATAAACGCCAAAGATTTGAACCTGCCAGGTCCGGCTTATGGTGGATCTTGGGAAAATGGAAAGCTAGTTTTGTCGTGGCCAGTCTCAGACGTCTTGATGGTTTTGCAACACTACAATGGGCAGCAAACGAATCCAAAATCAAGAGTTCATATACAGACGTTCTATCCGTACGATCCCATGACCGCTAGGCCTTCGGTAAATACATCGTCTACGTCAAATATACCTCCTACGTCAAATAATACATCTACGTCAAATATACCGCCTACGTCAAATATGCCACCAACACTTAATCCAGCACCTACGTCTAATCCACCTTGA

Protein

MWADICAGNVPKILDLETLQKIHDEINNKITTKLRKQISDKLERNLILVPCNKSKGNAIKNSIHINVIVSLMNTAVQTCDIEFDDVLLNKSYAFRCLALTPVELTKDFYQLILDSISDIIEPTAKRILKKYIKTSKNAKHTFSLLNTIMICLMKSELELSIFENFEPHEWRKEMLTHSLFSAWDVDFNTRENLIDKINKLELNNYNTQSTYLIEDILDIVLSNMRTCEVDVYFFDDLLCLIERNPEIGQMLFNNFPLLQSIIEEIKTDELSEYVKLFDDTTNNIDLKSFSKYPWNVLYILMSKTPNELNDLKRLLELSLMDMKKQIELLLKLKPKESFLKWKYDIAFEIVKQIITIQFPYYKKYLQLQRNVSKNLPLLSPFTVRCTCNNSDCWFHSSSECCDLLYNLNCSIARVMFNCRELSDRIINLVGALISELMCPEKIIQLIKALDIIEDYEIMNEEELEALFSQLSFTNFDLKLHEYVVQKYFPGSYEKTVDQLLDEIEQFLPGVTDAVVDVFDKVQFCYKQSSALFPEEGPINSWDEKQIRKWGKLARCQENTNTIPDEEILAVIKAAVKRTVKLQLRHIQLISVILMVKSDKGKGILSQINTGEGKTLIIAVLAAYNVLKGHTVDVYTSSPLLAVPQSKDYENFYTVLNITITHNIEYNSDYDKDVIYGTNRSFQRDVLLDEFRKTGVRKNRKFDIAIVDEVDNMLLDGNSSILQIVRDMPAMDYLEVLLAAIYIQVNEAARSLIEKDGKTYYLVQETPLNDDGHVKPNISVEEVEIKESKRNFIMKCTESHLRKLIRDVEHCKHIEEGYPEVKIPNHLREIICKVQLKKWISNAISAMFQYVKGEDYIIRNSKIVIVDADNTGALQLNSQWSAGLHQFLEIKHGARVQPENFTTNFMSNIGIFTRYVSKLYGLTGTLGSSETKSFLQNVYNVDSVVIPPFKLKQHKNLKPILINNNENRYEEIARSCIRKLSYGQAALIIMKYIRETEELSDVFLKKFNYDSSKVKLVKTDDDSEILEKPLKSGEVIITTNIAGRGTDVKLGKDVEKNGGLHVCLTFLPLNSRVEQQNIGRTSRKGNKGTSQLVINDPQGFDDMKAIKALRDKKEANIMSRALETVKEIKTKDQIFRSFCKLLDKIVESDDDLQEINHTAAEERFAIWLVMNTGHNGIEKDVHEQFETFKKEILNDYQNDCLIKNPCMHINLGNKYLAKKEYDKAIREYDRAIILDHNFSEYAYYNRARSYLAKYGSDMEKHEHFINEAIRDLEKTRKLIDEKEYALHLLQTASKGEVFSQQVSHKLNLYNLIKNTIDLAIGPDVKALNDQTNRIEEELKNTDLEPDVKSKLKERLKELNIYKKETGTIVRAKLKGINVCVDSIGKDFIPSSDLESHKQELQELKRNGWLEGFTVTEIKPIDWSAVISLLCIGLGQLVIGAALTIFTLGAGSSIGMGLISEGISDIITSIKDGIINRNFDWATWALMKVISIAVSVVCAGFKAIKDVAKTAYAGAKNVVTSGVRCLTETTKEGWKLVAKKVGLDMAKGVSKEILTNLVAYGIDKKILPMIEEIIIDKVKEPIQKALLNNSKVAKMLQLDVENGNHNYENKIRGIAQKLLTPEEYSKLRTIATTIATSVADNKGLTLTRQVCTGFIGVFELATFTSDFIGKLLNKINSINVEIKVDKNDIGQKNTPQSEETTNEVYQHNDEFKHTENDIDLSKADQAEEQIKLDKKPQSTNNLSSEIAGMVSVNIIQILKGKIVMPVVQMGANYTIDKLSSKVAKCLDDEMETYRAYKNIIHIQNRTYSKNNLEPVLSNNEVEKVDKIIDDLHKGGPAGLIHLGAVSAVTDHPIEVYDKEGRHKYTIGDAKKSKPIQIQYHAPEDGSNVGHFTLKGQREPSRKGDSDNMCLFNVIAEQTGKNPNDLKKETLNVMKNSKGEIAKQVKHINRLVMYDRARLIEGGAQYNGKCPEQAKSFLRNSYGVKGFKNKNKGHADIHIPFETKTIGMLNIISEESGHQIEIYDSSGKLSYLVGETNGKPPIKMQYNKHTSKITGGFFSLGGTIKYNLHDFNDMTFYNTVSNHTGCDANTLKTTTSSRMNAKPVPASRNCLENETLKIPKSGFASEDDQAFVFHYAMQTQAAKDAMDELNKYGPGANNTTGHRRQEVLINAKDLNLPGPAYGGSWENGKLVLSWPVSDVLMVLQHYNGQQTNPKSRVHIQTFYPYDPMTARPSVNTSSTSNIPPTSNNTSTSNIPPTSNMPPTLNPAPTSNPP

Uniprot

A0A194RSP1 A0A194Q6A8 A0A1S8WUZ1 H2KR95 D3AYK3 D3AY87 + More

Pubmed

26354079 22023798 21757610

EMBL

KQ459700 KPJ20365.1 KQ459582 KPI98945.1 KV894305 OON18316.1 + More
DF143127 GAA31514.2 ADBJ01000004 EFA86030.1 EFA85914.1

Proteomes

UP000053240 UP000053268 UP000001396

Pfam

PF00271   Helicase_C        + More
PF07517   SecA_DEAD
PF01043   SecA_PP_bind

Interpro

IPR019734   TPR_repeat        + More
IPR001650   Helicase_C
IPR011115   SecA_DEAD
IPR011130   SecA_preprotein_X-link_dom
IPR011990   TPR-like_helical_dom_sf
IPR036670   SecA_X-link_sf
IPR013026   TPR-contain_dom
IPR014018   SecA_motor_DEAD
IPR000185   SecA
IPR027417   P-loop_NTPase
IPR038765   Papain-like_cys_pep_sf
IPR003653   Peptidase_C48_C
IPR011009   Kinase-like_dom_sf
IPR013320   ConA-like_dom_sf
IPR000719   Prot_kinase_dom

SUPFAM

SSF52540   SSF52540        + More
SSF48452   SSF48452
SSF81767   SSF81767
SSF54001   SSF54001
SSF56112   SSF56112
SSF49899   SSF49899

Gene 3D

1.25.40.10

CDD

cd00079 HELICc

ProteinModelPortal

A0A194RSP1 A0A194Q6A8 A0A1S8WUZ1 H2KR95 D3AYK3 D3AY87 + More

PDB

5EUL E-value=5.36526e-38, Score=403

KEGG

101737540 no KO assigned | (RefSeq) uncharacterized LOC101737540

GO

GO:0016020 GO:0006605 GO:0005524 GO:0005623 GO:0017038 GO:0016021 GO:0008234 GO:0004672 GO:0004386 GO:0006886 GO:0005515 GO:0003824 GO:0008152 GO:0016491 GO:0015930

PANTHER

PTHR30612

Length:

2270

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

28.77277

Exp number, first 60 AAs:

0.00032

Total prob of N-in:

0.00218

outside

1 - 2270

Pi

263.722658

Theta

213.915822

Tajima's D

0.84543

CLR

0.127976

CSRT

0.616469176541173

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics