Silkworm Genome Informatics Database

Gene

KWMTBOMO10518 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA007127

Annotation

PREDICTED:_unconventional_myosin-XV_isoform_X2_[Bombyx_mori]

Location

Bomo_Chr17(+):13178257-13311733 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.239

CDS

ATGGCGGGGTCCGGGGGACTCGCGGAGTGGTCGGAAGGCGCCGCGGTATGGTTCCAGCCGGCTGGTGCCTCCGCCCCGCTACCCGGCGAGCTCGTGGAGGTGCACCGCGCCGCCAGGGTGCTCCTTGTAAGCGCAGTCGTCAATGGACAGCCTCAAACATTCGCCCTCCAGATGGGGAACGGCGAGGAAGAAGGAGATCCCGTCTGGCCTCGCGAGGAGCTAGGTCCAACAGGAGTGGACGACATGACCCGTCTACACGACCTACACGAGGCAGCCCTATTATGGAACCTGAAGCTGAGATACGAACAGGGTCTGATCTACACATATGCGGGTTCCATATTAGTGGCTGTCAACCCTTACAGACCAGTCGACGCTTTGTATGGACTGCAGACTGCTAGGAGGTACCACGCTGCGGAGGCATTAGGAGATCTACCACCACATCTTTTCGCCATAGCTGCCGCCGCCCGCGCCTCTTTACCGCAGCCTCAGGCCATACTCATTTCTGGTGAATCAGGTGCCGGGAAAACAGAGTCTACTAAATTAGCTGTCCAGTTTTTGGCAGCAGTAGCCCCCGCACCGCCAGGTAGAGCTCCTGTCTCCGAGCAAATATTGGAAGCGGCTCCGCTTCTGGAAGCGTTCGGAAACGCAAGGACACCAAAAAATCACAACTCTAGTCGCTTCGGAAAACTTCTAGAATTATATTTTAAAGATGGCGCTTTGGCTGGAGCTAGAGTAGCACATTACTTACTCGAAAAATCACGAATTGTTACTCAATCACCAGGGGAGAGAAATTATCACGTATTTTATGAGCTACTTGCGGGATTAGACGAAGAGCAACGTCGAAGTAGGGGACTGTTGACGGCAGAACATTACTTTTACTTGAACCAAGGCGGAGACTCCGGCGGTGCGGGCGCCGGAGCTGATTGGTCGGCTCTGTGTGGAGCCATGCAAGTCCTCGGCATTGGAGACGCAGAAAGAGAAGATATAATCAGAGTTTTAGCTGCTGTTTTACATTTGGGCAACGTTTATTTTCATAGACGGCAATTACGGCACGGACAGGAAGGCGTCCAACTCGGTGGCGGGGCAGAAGTGCGTTGGGCGGCACACCTACTAAAGATTCCCGCTGAAGAATTAGCCAAAGCTTTGACGACCCGCGTGACAGCAGCGAGGTCCGAACTCATGAGGTCTCCGTTACCGATCGACCAAGCTCTGGACGCGCGAGATGCCTTCGCTAAGGCTCTGTACTCTTCGTTATTCAATTGGCTCGTGCTACGAATAAACTCGATAGTCCACCGTGCGGGACTACACGACGCTCACAGGATTTCTCTCTTGGACATCTTCGGTTTTGAAGACTTGGAAGAGAATTCTTTCGAGCAGCTGTGCATAAATTACGCAAACGAAACACTGCAACATTACTTCAATAAGCACATATTCAAATTGGAACAACAAGAATATCAAAAAGAGCGACTCGAATGGTCAAATCTAACGTGGAACGATAATTCTCCAGTTATTCAACTATTAAGCAAAAAGCCAGTGGGTATCCTTCATCTGCTGGACGACGAGAGCAACTTCCCTCGAGCGTCTGATGCTTCGTTCTTGGAGAAGTGTCATTACAATCACGCCCTCAACGAGCTCTACTCCAGGCCGAGACTTGGAGCTAACGAATTTGGTATAAAACACTACGCAGGTCAAGTGTGGTACAACGTGGAGGGATTCCTTGACAAGAACAGGGATGCCCTTCGAGCGGATGTTTTAGAATTACTATGCAGTAGTGATGTACCTCTCGTCGCTGAAATGTCGACCCAGCTACGAGCGCAGCACGACGCGAACAAAACTTTACCGAGGGGAGCCAATGGGCGTTTCGTGACAATGAAACCGAGGACTCCTACTGTTGCTGCAAGATTCTCGGACAGTCTCCATCAGCTGTTGGAGTCGATGTCGCGCTGTAACCCCTGGTTCGTGCGCTGTATAAAACCGAACACCGAAAAATCTCCCATGAAGTTCGACATGCCGTGCGTCCTCGCCCAGCTCCGCTACACCGGCATGCTGGACACCATCAAGATCCGCCAGATGGGATACCCTATAAGGATCCCGTTCCAGAGCTTCGTTGAGCGATACCGGTACCTTCTGACGAGCAGCCCATCGCGTGCCATGCCTTACAGAGAAGTCTGTAACTCCATATTAGCGGAGATGCCCGCCACTGGCGCAGTTGGAGCTGATTATCAACTCGGAGCAGCGAGAGTGTTTATAAGGGAAGCCCTCCACAGAGCATTGGAGCGAGCACGTGCGGACAAATTGCGGGCCGCAGCCACCATACTCCAAGCGCACGCCAGGGGGTATCTTGCTAGGAAACGCTACATTCAAATGCGCGGCGCGACGTTACGCGTGCAGGCGTGGTGGCGCGGCGCCCGCACCCGCCGCCGCTACGTGGCCGTGCGGCGCGGCGTCGTGCGGGCGCAGGCGCTCGTGCGGGCCCGCATTGCGCGACGGCAGCTCGCCGCTCTCAAGGAGCAACATCGCCGGCGCGTCGAGGCACACCAAGCTGCCGCCAAGAGACGGGCAGCCGAGGAGAAAGCTCGGGAAAAAGCAAAGGCGGAGAGTCTTCAAGTGTTGGAAGTGCCCGCTGAACTGGCCTTCATACTGTCAAAACTCGACGAATGGCAACCTCCACACACAGACAGGAAGAATTTAACTAAGGTGTCAGGTGACGTTTATGCAGAGGACGAACGCGTCCAACTACCCCGGGACTTGCAGCAGTTCGCTTTCTCCAAGTTCAGCTCGGTGTACTTCGCTGATGGAGGCCAGCTCAGTCCCAGGAGACATCCGATCACCAGACCGTTCCTTGCTAAAGCTGCTGTTAGAGATCAAGACTTTAATGATGCGGTGGCGACATTTAAACTTATACTGAGATGGTGCGATGAATCCGCCGCTGGGAATGAAGCCAGACAGAAGGTATTGGCAGACTACATCGCCTCCAGAGGGTTGTCGTCGCGTGGCCTCCGAGACGAGATCTTAGTGCAGCTCTGTAACCAAGCGAGCGCCGCCGACGCCAGCGATCGCGTGTGGCAGCTAATGGGACACTGCCTTTCTGCTTTCCAACCGACTGCCTCGTTGCACAAATACTTGTTGCGGTTCATATCGGAGCGTGCCCCGGCGTCGGTCCGTGAGTGGCTGACGCGCGCGGCGTGCGGGGCGGGCGCGGGGGCGCGGGGTGCGGGGTGGGCGCGTCGCTGTCCGCCCACGCTGCTGGAGTGGCGAGCTGCCCGCGCGCACGCCAGGACCGCGCTGCCGCTCACGCTTTACGACGACACAGTTCAGCACGTCAGTGTTGAGTCGTGGACGACGTGTGAGCGAGCCGCGTCAGCAGCGCTCACCGCCGCCGGCGTCGCTAACAACCCCAGCGGCTGGTCGCTCACCATGGAGCACGACGGACAACTCACTGAATGGGCTGGTTGCGAATACGTGTTGGACTCCGTGGGTGAGATAGAGACATGGGCGGCCCTCCCCAGCACTCGCGCCGAGCCTCTCCGCGCCGCCCCGCGCCCCGCGCCTCCCGCCCCGCCGCCGCGAGCCTCCTCCGTCGACACCGAGAAGTCTAGTCGACCTCAGATCCCACCACCAGAACCTCCGAAGTCACGGTCGCCTAGCATCCCGCGTCTCCTTGAAGAGTCCATCGAAGAAGGCCTTTCAGAATACAACTGGAAGATTGATCGCGAACAATCCAACACCAAACATTCCAACGATTATTCCAGAAAGATATCCCACGATGTTCTGTCAAGAGAGTCAGCTTTGAACGAGAGATATTTCGAACAGACATCGGACAAGGTCCGGAGTCGATCTTTGGATAATTTGTTGGGCGATAACCCGGCGCCGCAGCCAAATAAGTTAACTGACTTAGGACTGTCGCAGTCACGACTGAACGACAGATACCACTCGGTGGAGAGACTCCAGGGTGCGCCAAGCGTGGTGAGCAGCAAGGGGGCCGGGGAGGGGGAGTATGGCACCGGGTCCCGGGCGCTGCCGTCGCGGTACATCAAGTCGCAGTACGCCGGGAAACGTGCACCCGCCGGCTCGCACTCCAGTCGCGCTTATATCGAGAAGAGCTCCGACTTTGGTGGAGTCAGATCGTCCGCGATGTCAGACACGTCAGAGGCCCCGAGTCTGGCGTCCCACGTGCGCCGGGTCCGCGTACCAAGTCAAGCTTCCGACGTCGATCAGTTCTTAGACGATTTGTTTTCTCCAGTTCTCGACCCGAATATCGATGAGCTCTCCGACGCGAGGTCCCTCGCTGCCAGCCTCAAAGGTGGCAGGAATTACAGTGACTTTATTCAAAACGTTCTCACTTGCGAGTACAACGAAAAGATCGATAACCTAGAAAAAGAAGACGTAGAGAAACTTATAAAGGGAGGGGGAAACGAGGAGAAAGAAAAGGGACGCTCGAGCCGGAAGGGATCCAGCGTGGACTCCGTCGATGATTACATAACAAATCTATTCGATCCTATTTTCATGAATGATAGTCTGAAAAGACTGACAGATGGGGATGGACTGTCCGGGGCAATTAAAGGAGGTGGTGCCACCCCGAGAGCTGCCTCAGCGAACACTTCCGCTTTGAGCTTTAGCACAATGTCGATGCCGGTGACAATGCCGGCCACGCCCGAAGGACTGGCAGCCGCGCTAGGGCTGCATCTACCTCCGCCTGGAACAGTCGACATTAATGCGTATCATCAGAACTTACAGCGCGCCTTCCTTCAGAGTGCGATGGCACAGAATTTGCAAATTCAGCAACAACTACTTGCTCAGAACCAAGCGCTGCAGACATTGCTGGCGGGACAGGTTGTGGACCCTTCCGAATCAGAGCCAACTTCTCCAGTTCGTTCGTCGACTGTTGTTCATGCTCAAGTACATTCTCCGCCTCGGACTACAGCGAAATCTAGACGAGAGTCAAATGAGAGCTCATCGACTGGAGCTCCACCACCTCCTCCCCCACCAATGCCACCCCCTCTCCATGCGTCCGACCCATCAGAAATCAGAGGCTTCATGGACCCTTATGGACGAGCGAAGACTGTACGAATCGGAAAATGGAGATGGCCGCCTCCGAAAGATGCCGTTAACCCGGACAACCCTGAAGACTTCAACAAATTCAAATTACGACAGATACATCGACGACACACGCCTCAAGCTCAAACGAACGGCGTAGAACATGACCCACCAAGAAGCAGGTCAAAGTCTGAAGTGTCACCCGCCGGCATCGATTGGGAAGAATTCGAAGTGGACGGTTCAGTACCACCGAACCGCGAACCTCCTAGTCAACGAACAGCGAGACGTAGCTTCGAGATCGGAGCTCAGAGACCTTCTCCCGGCAGCGTTGGCAAGTTGAAACTGAGCTCTGAAATGAGACAAAGATTAGAACGTGTTACTGCAAACCATTCCGTCAGAAGCTCGTCATCTGCGGCTGAAACTCCTCGGACGATCAATAAGCTGGAGGACACCAGGAAACTGATGTTAGAACGTCAACTAGGAGGTGGTGGACGTTGGGATGCACCACCCCCACCGCTACCTCCTGCTCCACCAGGACCTGCTCCTCCCCCTCCGCAGGCCCCTCCGACTCCTCCTTCGGGACCCGCACCTCCTCCACCGGCACCAGACCAATCATCTTTCGCACAGCTTCGTCGTGATAGAGACACATTCGGCGTTCATCAGAACAGAGATGCAGATGATCGTCACGCATTCCTCGCCAACTGGAACTCTCGACGCCGAGAGGATTCTGAACCACCTCGAGATGACTTAGCGACTAGATTCCTGACTGCTGATCGTCGTGAAGGTCGCGTTCGAGACGATTGGGGCGAAGAGTCTGAAGACCAGAGCTACAGGGACGACCGAGGACAGAGCCGGGACGAATGGGACTCTGAATCTGGTGCTGATATTGTAGACCGACGAGATAGAGATGACTTTTCCGGTCGAGAAGCTTCTGAGATCTACGAATTGCACCCGAGCAGAACGGAACGGAGGAAGGATGAGAATAATACATCCGATACATTTGAACGTAAGCGTTCACCTTATTATGACGATTTTGAGAGGTTTGAGGGGAGGAAGAACTCCCGTGACATGTTGATGGGCAGATCGCGAGAGAGTCCCAGATCCGAGTCCATGTTCCCCGGCGAAAACACCGATACAGCGAAAAGAGAGAGAGCTACCTTCAAGACTCACATGGCCCAGAAAGAAAGAGACCGAAAAATGGAAGCGGAAAGAAGACAGTCGGTATCTACGCACGTCTCCGACAAGACTGAACACATGGAAAGAGATATACCCGCGCCGGCTGCGTTCCTACCGTCGGACCGTAACTTCCTGACGTACGCGCGTGTGCCGTGGAAACTGCGCGTGCGGAAGGAACTGTTCTCACCACTGGAAACGTACAACGAACCCGCTGTTTTGGACTTACTTTATTCACAAATAGTCGGTGATATAAAATCCAACCAGCCATCCCTTCGGATATCGAGCAGCGAGCGCAGGGCGGGCGCGGCGTGGCTCGCGGCGCAGGGCCCCGGCTCGGTGCGGGCCCACGTCAAGCGACAAGCCGTCGAGATGGCCAGAGGGTGGCCCTTCTACTTCGCGAGGCTGTTCGCGGCTAGAGTGCCGCCCGGCGAAAACGCTGTGCTGGCTGTCTCGCATAATGCCGTCACTATTGGAGTTAAAGGCCCGGCCGGCTTAACGATACGTCGCACGCTGTCCCTGGGCGGACTCCGCGCCACCTCCCCGGCTCCGAACTCGCTGCAGCTGAGCGGGGCCCGCGATCCCCCGCTCACGCTACACGCTCCGCTCGCCCACCACGCACAGGCCCTTATTGCGGAATTCGCTCTGCAATTTACACAGACCCAACAGAAACCGATCACAAATGGTATCACGAAAGAACGAGTGCCCGAACGCGAGAGCAGGGAGACTAGAGATTCGCGGGACTCACGGGACTCGCGTGACTCGCGAGAGATCCGGGACTCGCGTGAAACTCGAGAGTCTAGGGAGCTGAGGGAGATTCGAGAAATGCGTGAATCGAGAGATGAAATTGACAGGGAACATATTGAGAGGAGGGCGCAAACTACGTCTCCTCCGCCGCGAGAGAGAATCAGAAGCGGAGATATGGAGAGGGAACGTGACAGAGAGAGAGGCGTGAGGGAGGACAGACGAGAACAGTCGACGCCTCAGCACGATGGGAGGCACCCACTACTTCAGTTTGCTGTCGATCACTTCAGGCAGAGTCCAGAACTCGAAATCCTGAAAGCGGACTCGTCACTAAAGAGCAAAGCGAAACGCAACGAGTGGACTTGGAAAGCGCAGACCGACGTCGTGAAATGGCAGGCGACGGGTCTGCGGGCGCCGCTGCTCCGCCTCCCCCCCGCCCTCGCCTCGCCCGCCCTGGAGTGCTTCACCTGCGTCAGAGCGTACTGCGGAGACCTGCAACCGAACGAACGAACCACGCACCAGGACCTGACCGAAGTTAAATGTGTTTACACGGTCCTAATGCATTGTCACTCAGTGCCCGAACTCCGTGACGAGGTGTACTGCCAGCTGATGAAGCAGACCACATCGAACCGGTCTCAGGCCCCCGACTCCTGCCAGCGAGCCTGGAGGCTGATGTCCATTCTCGCTGCCTATTTCACATGCTCAGATACGCTCAGGCCGTTCCTGGTGGAATACCTGTCGGCAGCCGCGTCAGACCGGCGGCGACCGTGTCAGGGCACGGCCGCCGTCTGCCTCGCCAACTTGAGGAAGACCCTCCGCTGCGGAGGCAGGAAGAACGTGCCCAGTGTCGAAGAGGTGACGGCGGTGTCGGCGGGTCGGTCCGCGCGCCGCCAGCTGTACCGGCTGCCGGGCGGCGCCGAGCGCGTCGTCAACACGCGCTGCGCCACCGTCGTGCAGGACATCGTCAACGAACTCTGCGAACTGATCGGCGTGAGCACGGAGTGGGAGCGCGCCGAGTTCTCGCTGTACTGCATCGTGGCGGGCGACGCGCTCACCATGCCGCTGGCCGGCGACGAGTACGTGCTCGACGTCACCACGGAGCTGCAGCGCGCGCACCACCCCTTCTACCTCATCTTCTGCCGCTCAGTGTGGCACGCGCCGCTGCGGAACGACGCGCCGCCACTCTACACCGAGGTGCTCTTCAACCAGGTGGCCCCTGACTACCTCGAAGGTCTCCTGCTCGTCCTGTCCGGCGGCCAGGCTCCACCGTCAGGCGTCCTGCGCGACGCCGCCCTGGTGGCCTCGCTGCTGCACCGCGCCGCAGGACTGGCCGAACCTCCCGCACCTAGAGACCTCAAGTTCTTACTGCCGAAACCATTGTTGGCGCTCAGAGAACCGAGACCAGCCAAATGGGCTTCGTGGGTGGCCAGTGAATGGCCCCACACCAGGGCCCTCACACCGGCAGCCGCCAAATCCAAAGTCTTACAGGTGTTGTCCCGCTGGGCGCTGTTCGGGTCGTCGTTCTTCGCGGTGCGTCGCGTGGCGGGCGCGGCGGGCGAGTGGCGCGAGCACGTGCTGGCGCTCAACCGGCGCGGCGTGCACCTGCTGCACCCGCACACGCACGAGACCGACACGCACTGGCCCTACGCGGAGCTCATCTCCACCAGGAAGGTCCGCTCGGAGGACGGCACACTGTTCCTGGACGTGAAGTGCGGCTCGTTGCTGCAGCAGCGCGTGACCCGGCTGCAGGCGGAGCAGGCGCACGAGGTGGCCCGCCTCGTCCGGCAGTACATCGCTCTGCAACGAGACCACAGACATTCGCCGGCATTCAATTCGTGA

Protein

MAGSGGLAEWSEGAAVWFQPAGASAPLPGELVEVHRAARVLLVSAVVNGQPQTFALQMGNGEEEGDPVWPREELGPTGVDDMTRLHDLHEAALLWNLKLRYEQGLIYTYAGSILVAVNPYRPVDALYGLQTARRYHAAEALGDLPPHLFAIAAAARASLPQPQAILISGESGAGKTESTKLAVQFLAAVAPAPPGRAPVSEQILEAAPLLEAFGNARTPKNHNSSRFGKLLELYFKDGALAGARVAHYLLEKSRIVTQSPGERNYHVFYELLAGLDEEQRRSRGLLTAEHYFYLNQGGDSGGAGAGADWSALCGAMQVLGIGDAEREDIIRVLAAVLHLGNVYFHRRQLRHGQEGVQLGGGAEVRWAAHLLKIPAEELAKALTTRVTAARSELMRSPLPIDQALDARDAFAKALYSSLFNWLVLRINSIVHRAGLHDAHRISLLDIFGFEDLEENSFEQLCINYANETLQHYFNKHIFKLEQQEYQKERLEWSNLTWNDNSPVIQLLSKKPVGILHLLDDESNFPRASDASFLEKCHYNHALNELYSRPRLGANEFGIKHYAGQVWYNVEGFLDKNRDALRADVLELLCSSDVPLVAEMSTQLRAQHDANKTLPRGANGRFVTMKPRTPTVAARFSDSLHQLLESMSRCNPWFVRCIKPNTEKSPMKFDMPCVLAQLRYTGMLDTIKIRQMGYPIRIPFQSFVERYRYLLTSSPSRAMPYREVCNSILAEMPATGAVGADYQLGAARVFIREALHRALERARADKLRAAATILQAHARGYLARKRYIQMRGATLRVQAWWRGARTRRRYVAVRRGVVRAQALVRARIARRQLAALKEQHRRRVEAHQAAAKRRAAEEKAREKAKAESLQVLEVPAELAFILSKLDEWQPPHTDRKNLTKVSGDVYAEDERVQLPRDLQQFAFSKFSSVYFADGGQLSPRRHPITRPFLAKAAVRDQDFNDAVATFKLILRWCDESAAGNEARQKVLADYIASRGLSSRGLRDEILVQLCNQASAADASDRVWQLMGHCLSAFQPTASLHKYLLRFISERAPASVREWLTRAACGAGAGARGAGWARRCPPTLLEWRAARAHARTALPLTLYDDTVQHVSVESWTTCERAASAALTAAGVANNPSGWSLTMEHDGQLTEWAGCEYVLDSVGEIETWAALPSTRAEPLRAAPRPAPPAPPPRASSVDTEKSSRPQIPPPEPPKSRSPSIPRLLEESIEEGLSEYNWKIDREQSNTKHSNDYSRKISHDVLSRESALNERYFEQTSDKVRSRSLDNLLGDNPAPQPNKLTDLGLSQSRLNDRYHSVERLQGAPSVVSSKGAGEGEYGTGSRALPSRYIKSQYAGKRAPAGSHSSRAYIEKSSDFGGVRSSAMSDTSEAPSLASHVRRVRVPSQASDVDQFLDDLFSPVLDPNIDELSDARSLAASLKGGRNYSDFIQNVLTCEYNEKIDNLEKEDVEKLIKGGGNEEKEKGRSSRKGSSVDSVDDYITNLFDPIFMNDSLKRLTDGDGLSGAIKGGGATPRAASANTSALSFSTMSMPVTMPATPEGLAAALGLHLPPPGTVDINAYHQNLQRAFLQSAMAQNLQIQQQLLAQNQALQTLLAGQVVDPSESEPTSPVRSSTVVHAQVHSPPRTTAKSRRESNESSSTGAPPPPPPPMPPPLHASDPSEIRGFMDPYGRAKTVRIGKWRWPPPKDAVNPDNPEDFNKFKLRQIHRRHTPQAQTNGVEHDPPRSRSKSEVSPAGIDWEEFEVDGSVPPNREPPSQRTARRSFEIGAQRPSPGSVGKLKLSSEMRQRLERVTANHSVRSSSSAAETPRTINKLEDTRKLMLERQLGGGGRWDAPPPPLPPAPPGPAPPPPQAPPTPPSGPAPPPPAPDQSSFAQLRRDRDTFGVHQNRDADDRHAFLANWNSRRREDSEPPRDDLATRFLTADRREGRVRDDWGEESEDQSYRDDRGQSRDEWDSESGADIVDRRDRDDFSGREASEIYELHPSRTERRKDENNTSDTFERKRSPYYDDFERFEGRKNSRDMLMGRSRESPRSESMFPGENTDTAKRERATFKTHMAQKERDRKMEAERRQSVSTHVSDKTEHMERDIPAPAAFLPSDRNFLTYARVPWKLRVRKELFSPLETYNEPAVLDLLYSQIVGDIKSNQPSLRISSSERRAGAAWLAAQGPGSVRAHVKRQAVEMARGWPFYFARLFAARVPPGENAVLAVSHNAVTIGVKGPAGLTIRRTLSLGGLRATSPAPNSLQLSGARDPPLTLHAPLAHHAQALIAEFALQFTQTQQKPITNGITKERVPERESRETRDSRDSRDSRDSREIRDSRETRESRELREIREMRESRDEIDREHIERRAQTTSPPPRERIRSGDMERERDRERGVREDRREQSTPQHDGRHPLLQFAVDHFRQSPELEILKADSSLKSKAKRNEWTWKAQTDVVKWQATGLRAPLLRLPPALASPALECFTCVRAYCGDLQPNERTTHQDLTEVKCVYTVLMHCHSVPELRDEVYCQLMKQTTSNRSQAPDSCQRAWRLMSILAAYFTCSDTLRPFLVEYLSAAASDRRRPCQGTAAVCLANLRKTLRCGGRKNVPSVEEVTAVSAGRSARRQLYRLPGGAERVVNTRCATVVQDIVNELCELIGVSTEWERAEFSLYCIVAGDALTMPLAGDEYVLDVTTELQRAHHPFYLIFCRSVWHAPLRNDAPPLYTEVLFNQVAPDYLEGLLLVLSGGQAPPSGVLRDAALVASLLHRAAGLAEPPAPRDLKFLLPKPLLALREPRPAKWASWVASEWPHTRALTPAAAKSKVLQVLSRWALFGSSFFAVRRVAGAAGEWREHVLALNRRGVHLLHPHTHETDTHWPYAELISTRKVRSEDGTLFLDVKCGSLLQQRVTRLQAEQAHEVARLVRQYIALQRDHRHSPAFNS

Similarity

Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Myosin family.

Uniprot

H9JC82 A0A2H1VBW5 A0A2A4K5C9 A0A2A4K4P4 A0A2A4K4Q7 A0A3S2NPX3 + More
A0A212FIM6 A0A194PIH4

Pubmed

19121390 22118469 26354079

EMBL

BABH01015053 BABH01015054 BABH01015055 ODYU01001480 SOQ37734.1 NWSH01000131 + More
PCG79226.1 PCG79225.1 PCG79227.1 RSAL01000162 RVE45385.1 AGBW02008359 OWR53588.1 KQ459603 KPI93117.1

Proteomes

UP000005204 UP000218220 UP000283053 UP000007151 UP000053268

PRIDE

H9JC82

Pfam

PF00784   MyTH4        + More
PF00063   Myosin_head
PF00612   IQ

Interpro

IPR001609   Myosin_head_motor_dom        + More
IPR036961   Kinesin_motor_dom_sf
IPR027417   P-loop_NTPase
IPR000048   IQ_motif_EF-hand-BS
IPR000857   MyTH4_dom
IPR038185   MyTH4_dom_sf
IPR036057   MYSc_Myo15
IPR041795   MyoXV_FERM_C
IPR000299   FERM_domain
IPR035487   MYO15A
IPR011993   PH-like_dom_sf
IPR019749   Band_41_domain
IPR019748   FERM_central

SUPFAM

SSF52540 SSF52540

Gene 3D

1.25.40.530 3.40.850.10 2.30.29.30

CDD

cd01387  MYSc_Myo15
cd13201  FERM_C_MyoXV
cd14473  FERM_B-lobe

ProteinModelPortal

H9JC82 A0A2H1VBW5 A0A2A4K5C9 A0A2A4K4P4 A0A2A4K4Q7 A0A3S2NPX3 + More
A0A212FIM6 A0A194PIH4

PDB

5I0I E-value=3.03824e-162, Score=1475

KEGG

101746355 K10361 myosin XV | (RefSeq) unconventional myosin-XV

GO

GO:0003774 GO:0003779 GO:0007605 GO:0016459 GO:0005524 GO:0005856 GO:0005515 GO:0006413 GO:0031369 GO:0046872 GO:0003824

PANTHER

PTHR22692:SF21

Length:

2930

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.0434600000000002

Exp number, first 60 AAs:

0.0023

Total prob of N-in:

0.00175

outside

1 - 2930

Pi

24.544096

Theta

161.998897

Tajima's D

1.655739

CLR

0.444992

CSRT

0.820358982050897

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics