Silkworm Genome Informatics Database

Gene

KWMTBOMO15905

Pre Gene Modal

BGIBMGA013400

Annotation

PREDICTED:_microtubule-associated_serine/threonine-protein_kinase_3_isoform_X3_[Bombyx_mori]

Location

Bomo_Chr27(-):1691642-1745239 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.802

CDS

ATGCTAGCCCTAAGCCCACTACCGTCACATTTGGTAGAAAACAGTCAGAAGTACGAAATTAACAAAATTGAGACGGAAACTGACATAGATAAAGAACTTTGTGAAAATTTAAAGAAAATTCGTACCAGCCACATGAACGAGGAAGAAAAACGGGAAATTACTAAAATCTGCTATCAGTACCGTGACATATTCTACTCGGAAAACATTCCTTTATCGTTTACCCATACAGTAAAACACGAATTAAGACTAACCGACGACACCCCCATCTTTGTACGAAGTTATAGACAGGCTCCCCAACAACGAACAGAGATACAGAAACAGGTAGATAGTCTGTTAAAACAAGGAATCATTAGGGAAAGTATCTCCCCTTGGTCGTGCCCGGTACACATTGTTCCGAAAAAACCGGATGCATCAGGAAAAGTTAAATGGAGACTTGTTATTGACTATAGAAGACTTAATGACAGAATTATAGAAGACAAGTACCCCTTACCAAACATTAACGACATCCTTGACAGATTAGGGCGCGCACAATATTTCACGACCATAGATTTAGCAAGCGGCTACCATCAATTAGAAATGCACCCTAAAGACGTAGAGAAAACAGCGTTTACTACCGAAAGAGGCCACTATGAGTTCCTAAGAATGCCTTTCGGACTAAAAAATGCCCCGAGCACATTCCAGCGTCTTATGGACCATATACTCCGAGGTATAGACAACGTATTTACGTACTTAGATGACGTCATAATAGCCGCGACGTCCCTACAAAACCACAATGAAAAACTGAAATTAGTATTTCAGCGATTCAAAATGCATAATTTGAAAGTTCAGTTAGACAAATCAGAATTTCTACAGAAGCACGTTAACTTTCTAGGACATGAATTGACTGACCAAGGACTAAATCCTAACAAGGACAAAATTAAAGCAGTATTAAATTTCCCTATACCACAAACGCAAAAAGACATAAAAGCTTTCTTAGGACTAGTCGGGTACTATAGGAAGTTTATTAAGGACTTTGCGAAGTTGACGAAACCTTTAACAGCATGTCTAAAAAAGAACGCAAAGGTTGAACATACAAACGAATTTTTAGACGCAGTTGATAAATGCAAACAAATTCTAACAAACGCCCCAATCCTGCAATACCCTGACTTCGACAAACCGTTTATTTTAACGACAGACGCATCTGACTTTGCTTTAGGAGCAGTACTTTCCCAAGGCAATGTGGGCTCAGATAAACCAGTAGCCTATGCCTCAAGGACATTATCAGATACTGAGATCCGTTACTCTACCATAGAGAAAGAACTGTTAGGGATAGTATGGGCAATTAAGTATTTTAGACCTTACTTATATGGCCGTAAATTTACAATTTATACGGACCATAGACCCCTTACATGGTTAATGAGTCTAAAGGACCCTAACTCTAAATTAACACGATGGAAACTAAAGTTAGCAGAGTATGATTACAAAGTTGTTTATAAAAAGGGCAAACAAAACACTAACGCAGATGCACTATCCCGAGCAAAAATTTTTCATAATAGTATAGATTCTCTAGCTGTTAATGTTGATGACAATAGTGACGACAACATAATAAATAGAATATTCGAAAACGCCCGTAGACAGGCAGAGATAGAAACTAATGACCCGAATAACCAAGACAATGAACGTAACAATACTGACAATAACGACCAACCTTATAACAACAATGACGTAGAAATGACCAGTATCTATCCCTCTCAAATTGACGAAGAGACAGACACAAGGAGTGCAACAACAGTCGACCCCGATCAATTAGTTTCTACAAATCATACCCAACCTGATAATGAAAATAACGGTATCCCTATAATATCCGACGCTATTGATAGACAGTTGAAACAATTTTACGTTAGGTCCACACCAGGTTCTACATACAGAGTAGAGGACAGATCAACAAACTCTAGGACAGTTATTAAGGATGTTTTCATCCCAGTAAATAACACTGAATCAGAAATTATCAAATTTTTAAAAGAACACACAATAGCTGACCGTGTTTTTCATTGCTATTTTTACGACGAAAATCTATACTTAGCCTTTTCAAGAGTGTATACTACGATATTTAATGACAGAGGACCTAAATTAATAAGATGTACTTCGCGGGTCACACTTGTTGAAAATAAAACTGAACAACAAGAACTCATTAAGCGATATCACGAAGGTAAATCATCGCATCGCGGTATCCAAGAGACCTTTAAGCATCTGCATAGGAATTATCACTGGCCTAATATGTTATTGACAGTTCAAAGGTTCATTAATCAATGCGACCTTTGCCTAAAGGCCAAATATGAAAGAAATCCTTTAAAACCTCCATTGATTATAACAGAGACACCTACGAAGCCATTTCAACACTTGTTCATGGATCTCTATAGTACTGGAGGTGCAACATTTTTAACAATTATCGACAATTTCTCTAAATTTGCCCAGGCGGTGCCTCTGAATGCTTCTAGTAGTGTTCACATCGCAGAAGCTCTATTACAAGTATTTTCTGTACTAGGACTACCTCTTAAAATCACCACAGACTCAGATACAAAGTTCGATAATGACGTCATAAAAGAGATATGTGCTTCGCATGATATCCACATTCACTTCACGACGCCTTACAACCCAAACTCTAACTCACCCATTGAACGATTTCATTCAACCATCGCAGAAATAATAAGAATTCAAAGAATGACAAATAAAGACGACCCCATACAATTGATCATGAAATACGCTATAATCGCCTATAACAACGCTATTCATTCTACTACAGGCTATACACCACGTGAGCTTTTATTCGGTCATACGGCATCCCGAAATCCATTAGAGCTATATTATCCTAAAGAATTTTATCAAGATTATGTCCTCAATCACCGCAAGAATGCAGAAGCAGTACAGGAATGTATAGCAGCCCACGTGTCTAAGAACAAAGAGCAGGTAATAGAAAAGAGAAACCAGGCAGCGCAAACAATCACGTTTAAGACCACATCTTGTTCCAGGACCCTCATCGCAGGAGCCTTCGTGCTCTACACAGCCGCCGACTTGACCCTTAATCCTATAGACAATAGTAATGGCATCCTTTTGTTAAAACAAGGACAAATTTTGAAGCAGATAGACACTTTTAGTCTGGCCTGCGTATATAACGTATCGTATTTACATGAAACAACCTTAAAGCTTATGTCTTTATATGCCAGTACTAAAGCTGCTGAAGGTAACGAAGAGTTGCATAGAGCATATAAGGATCAAATAGAAAATAGTTTACATTTAATAGGGAAGAAGTTAGCATTTATTGCACCGCACCATAGATTTAGACGTGGCTTAATTAACGGTTTAGGTTCAGTAGTTAAAACTATTACAGGTAATCTGGATTATGAAGACGCTATTAAGTTTGAAAATGAATTATCTAATCTACGTAATTCAGTCCATAATATTAACACATCTCAAAAACAAACTTTATTCATAGCAAAGCACGCAGTTGAAGAATTTAGTAAACAGATCAAGTTATTAGACGAAAATCAGAAAAAGATAGGTTCAATGTTAAAAAACGCCACTTTAAGTAATAACGTAGTAATAAGCAGATTGCACTTTTTAGATTTATATATCCAAATATATTTTAGTTTGCAATTACTCTTAGATAAATTAGTTATATTAGAAGACGCCATGACCTTTGCACAACTAGAAGTAATGCATCCTAGCATTATAGCTCCACACAGTCTTATAAGTGAAATAACAGCTATTCAAAAACTTTACCAATTTAGACCCGTTGATAGAATAAGTATTAAAAATATTCATAGTATAGAGAGCTCTATTAGCGTAAAAGCGTATAGCACAAACGACGCACTAACATTCATACTAGATATCCCTTCCATAGATGAAAACCTTTATGACCTTATCCATCTATACTCCATACCAGATAAACAAAACCTCACCATTATTCCTAAATCCAAATACCTAGCACTGGGAACCAACGAGTACTCATACCTGGAGGAAGATTGCAAAAAGATCACACAAGACGTCCAACTCTGCACATCGCTGAACACCCAACCTGTGGAGAACTCTGAAGACTGCATAGTAACTCTTATAAAACACGAGAGCACAAACTGCACCCGTGCCAGGATGAACCTGAAACAAGGCAAGATCCAGAGACTAGAAGACAACAAATGGCTTATCATCTTGAAAGACGAACAAATCCTGAAATCTCGCTGCGGAAGGAAATCTGACTATAAAAAGATGTCAGGAATATACATCGCCAGCATTACAAGCGATTGTCAAGTGGAAATATTCAACCGAACACTGAAGACAAACACGGACACTATTACAGCTGATGAAATCGTACCCATTCCCAGCGAAACCACTATTCTAGAAGGGAATATTCGCTATAACCTACAACTGAAAGATATATCTCTGGATAGCATCCACGAACTGATGGACCGGGTTGAAAACATTCAACAACCTGTCATCGACTGGCAGACTATGATGACTACCCCAAGTTGGTCAACACTGGGACTCTACCTCATTCTGATAGCAATAATCATCTGGAAGCTGTGGCAGTGGAGACAGCGACGACTACAATCAAAGAACGAGAGCCCCGAGAACACTAGCATCGAGGACGCTGCTGGAAGCTGCGGGACGCGCTTCTATCTTAAGGAGGGAGGATCACAATGCTCGTCCCAGGAGCGGTTGCTGGCCGTGCAGACGGCCTGCGACCCGCAGCCCCGGGCGCCGTGTCCTCATTGCCAACATCAGAACTCGCTCAACAGTTCACAGGGCAGCGGTATGAACAACTGGGCGTCCCTTTCGGATAGCGGCGGCAGTGGCAATGCTGGAGCCCGCGCGCCCTCACCGCAGGGCTTGTCGCGACGGGTCCGGAGTCGCAGTCTCAGTCCTTCCCGTTCTATCGGCGGCTCGTCGGGCGGGGGGTCCGGCTCGCGGGACGACGCCGTGTCGGCCATGTCGTCCCTGTTCGCTGCCAGATTCCCCGCCGCTCAGAAATCTATGGACGACAAATTAAGAGGACTCATTGATGAGCTCACGGAATTGGATAAGAAACCTGATCGGCCGCCTATAGAGAGATTCGTACAGAGACAGGTTCTGGAGATGGCTCGCGACTGCCTCCACAAGTCTGAATCAAAGCAGGTGACCAGCACCTACTTCTACGACATGGCGGACAGTCTGGACCGGCTACTTGCAGAGACGAGAGAGAAGTCAGCCGAAGCGGGTGGTCAGGTGGCGCCGCTGGTCAACCGGCTGATCCTGGCGATGGCCCGGCCGGCGCGCCTGCTCGAATGTCTGGAGTTCGATCCCGAGCGGTTCTACAGGCTGCTGGAGGCCGCGGAGGGACACGCCCGACATTTGCAGGGCATAACAGACATTCCACAGTACATCATCCACAAGCTGGGACTCTCCAAGGACCCGCTGGCCGAGCTGCACGCCCCCCCGCCCCCTCCCCTCCCGCAGAATACCTCGCCTTCCAAGCTTCGCGGCCGCCAGTCGCCCCCCGGCTCGAGTTCGGGGGCGCCTCCCTCGGAAGCTGACTACCAGGTCATAAAGCTCATATCGAACGGAGCTTACGGAGCCGTGTATCTAGTCAAACACAAACAAACGAGACAGAGGTTCGCCATGAAGAAGATCAGCAAAAACAACTTGATACTGAGGAACCAAGTGGAGCAGGCGTTCGCCGAGAGGGACATCCTCAGTTTCGCTGATAATCCGTTCGTGGTGACGATGTACTGCTCGTTCGAGAGCCGGCGGCACCTGTGCCTCATCCTGGAGTTCGTGGAGGGCGGCGACTGCGCCACGCTGCTGCGCGCCGGCCCGCTGCCGCCCGACATGGCGCGCCACTACTTCGCCGAGGCCGTGCTGGCCGTCGAGTACCTGCACTCCTACGGCATCGTGCACCGCGACCTCAAGCCCGACAACTTGCTGATCACGGCCACCGGCCACATCAAACTGACAGACTTCGGGCTGAGCAAAATGGGACTTATGTCGTTGGCGACGAATTTATACGAGGAGTACGCCGACAGAGAGGCGCGGCAGTTCTCCGACAAGCAGGTCTGCGGCACTCCCGAGTACATCGCGCCGGAGGTCATACTCCGACAGGGCTACGGGAAGCCGGTGGACTGGTGGTCGATGGGAGTCATTCTGTACGAGTTCCTGGTGGGATGTGTGCCGTTCTTCGGCGACACCCCCGAGGAGCTGTTCGCTCATACCGTCAATGATGACATAGAGTGGCCGTCGGAAGAAGACTTTCCGATTGCGGTGGAAGCCAGAGCCATCATCACGGAACTCCTCGCGCGCAACCCGAGGGACCGGCTCGGGACTGGCGGCACCCATCAAGTCAAGGACCACGTTTATTTCTACGGCCTGGACTGGAACAACCTGCTCAGGAGGAAGGCCGAGTTCATACCGCAGCTGGAGAACGACGAAGACACCAGCTACTTTGATAGTCGGTGCGAGAGGTACAACCACAGCGAGGTGGACACGGACGAGGCGGCCGACGCGCCCGACGACGGAGTGTTCGCCGCCTTCTCCAGCACCTCGCCGCAGTGGAGGAGGCACCATCACTCCTGCGCCGAGCACGACTCCCGGAGCACGGACAGCTGGCCTGGCACACCGGACAGCGCCGGGCCGCCCACGACGCCCACAGCGCCTCTGCATCATCATCATCCGAAATGTCCTGTGGTGGGCAGCAGCCAGCAGGTGTCGGCGGAGTCGTCGCAGACGGACAGCGAGGACGTGTCGCCGGCCGCCCGCCGCCGCGCCCCGCCCCGCCTGCACCTGCCCTCCGCGCTCGCCCTCACCCCCCGACTTTCGGACATCCGAAGAGAGGACCGAAGCATAGACAAGCCGGATAGAACGGAGAAGACGAAGCCGACAGCCATTATGGCGGCAAAATCTATGCGGCGTTCGGCCAGCACTTCAGGATTGTCTTTGGTTATACATCCAGCCGACGACAGCACGCTGAGCGCGGGGGCGGGCTCGCCGTGCGCCGGCAACACTTCCTCCACCAACTCCTCGAGGGACTCCTCGCCGTGCAGAGATCCGCCTTCGCCGTTCGCTTTGCCGAATCATTCTTTGATCCAAGCGTCGAAGCCGCCGATGGTTGTGCGGCGCGGCCCCCGCGGGTTCGGCTTCACGATCCACACGGTCCGCGTGTACTACGGCGACACGGACTACTACACTATGCACCATCTCGTCTCGGCCGTGAACGAGCAAGGCGCGGCGTGGGCAGCCGGTTTGAGAGCCGGCGACCTCATAACGCAGCTGAACGGCGAGTCAGTGCAAGGGCTGCTGCACACGCAGGTGTTAAGGTTGCTATTGGCAGCGCCGCACGCGACGTTACGAGCGACACCACTGGATCAGACAACTATACAGTCTGGTGGGCGTCGCCGTACTAGCGGCGGGAGGAGGGCGTATGCCCCCCCTCGACCGCGGCCCCGCAGACGATGCTCCCTGTTTAGAAGGATATCCACCAAACGCGCTACACAGGAAATGCATCAGATGGTATCGGGCGAGGCGGTGACGTCAGCGCCCCCCGCCGCGCCCCCCGCGCCCCCCGACGCGCCGCTGCACGCCAACACGCACTTCCAGAGACCGTCGTCGTTACACGGGCTGAAGCACAAGCTGGTGGGCGGCGCGGAGGTCCGTCGCTCTTCGCTGCAACACATGCCGCTGTCCCCCCTCGCGAGGACGCCCTCCCCCTCGCCGCAACCCCCGCCCCCTGCCTCGCCTACCAGTCGCGTGGAGGCCCGCAGTCCTTCGCCGCTCGCGACGCGGGAGTGCGGGCGCCGCGCCTGGCCGAGACGCGACCCCGCCTCCCCCCTCCTCCGCCGGGCGCTCTCGCCCGATAGATTACACCCTCGTTCAGCTGAAGCCAAGTGTTCGATATCGCCTCTGTGCTGCGGGGGGGTGGTGGCGGGCGTGTCGGTGAGCGCGGGGAGCACGCGGCGCGGCGGGGTGTGGCGAGCGCCCGCCCCCGCGCCTCCCACTCCGCCCCCCCAGGACAAGCCCGACGAGCCACCCCTGCCCAGGATAGCAGAGGAGAAGGATTCGCCGACGCATCACGCCAGAAACTTGCCTAATAGCCCGGCGAGACAGGCGACCCCCAGCATCTTCACGTCATCTCCGAAGACGAGTCTCGGCAAGTCTCCGTTCGACGCGTCCGCCTCATTCGCGTCGCTCTCACTCTCCGACGAGTCCTACATCGCGGATTCGTCCGTCAATCTATCCGTCTTGGATACGTCCAGGGACCTCTTTATCGACGAGTCCAGGACGAGCACGGAGCCGAGCGTCGCCGACGAGAAACCACCAAAAGTAGAACCTCCAGTTATCGAGCAGCCCAAAGTTCGGAAGAAGTCTGACTCGAGTCTTAAGGAGGAAGAGTTTAAAACGAAAAACAAAAAAACGGAACTCAAGAAACAAGATTCCTTGAAGAAGATCGAAGTCAAGGATGAACCCAAAGTGGAAGAGAAAAAAGTTGACAAGCCAATGGAACGAGTCGGCTCGGTAAAGAAGGTCGAGAAGGATATGAAGAAGGCGGAGAAGGCGGAGAAGAAACAGGATAAACAAGAGCCTAAGAGGACAGAGTCCCTGAAGAAGATGGAAGGACTGAAGAGACAGGAATCTGTCGAACTAAATAAGTCTCCAGAAGCGGTCGAGAGCACGGAAGCTCGCAGCAAAAGCGTCGTCAGTAAGCTGCTGGGCGTGATGGGGCGGCGCTCCACTAAGGACCGGGACGACGACGAGCATCGCCTCTCCAAGAAGCACGATAAGCACGCCAAAAGAAAGGGCGGCAGTACGCCGGGCCAGCCCAGGCCGCCGGAGCCGGTGCCGCCGACGGAAAGGGAACCAGAGGACAAGAAACGCAAGAACCGCGGCCGCGCCTCCAGCTCCTCGTCAGGAGAGAAATAG

Protein

MLALSPLPSHLVENSQKYEINKIETETDIDKELCENLKKIRTSHMNEEEKREITKICYQYRDIFYSENIPLSFTHTVKHELRLTDDTPIFVRSYRQAPQQRTEIQKQVDSLLKQGIIRESISPWSCPVHIVPKKPDASGKVKWRLVIDYRRLNDRIIEDKYPLPNINDILDRLGRAQYFTTIDLASGYHQLEMHPKDVEKTAFTTERGHYEFLRMPFGLKNAPSTFQRLMDHILRGIDNVFTYLDDVIIAATSLQNHNEKLKLVFQRFKMHNLKVQLDKSEFLQKHVNFLGHELTDQGLNPNKDKIKAVLNFPIPQTQKDIKAFLGLVGYYRKFIKDFAKLTKPLTACLKKNAKVEHTNEFLDAVDKCKQILTNAPILQYPDFDKPFILTTDASDFALGAVLSQGNVGSDKPVAYASRTLSDTEIRYSTIEKELLGIVWAIKYFRPYLYGRKFTIYTDHRPLTWLMSLKDPNSKLTRWKLKLAEYDYKVVYKKGKQNTNADALSRAKIFHNSIDSLAVNVDDNSDDNIINRIFENARRQAEIETNDPNNQDNERNNTDNNDQPYNNNDVEMTSIYPSQIDEETDTRSATTVDPDQLVSTNHTQPDNENNGIPIISDAIDRQLKQFYVRSTPGSTYRVEDRSTNSRTVIKDVFIPVNNTESEIIKFLKEHTIADRVFHCYFYDENLYLAFSRVYTTIFNDRGPKLIRCTSRVTLVENKTEQQELIKRYHEGKSSHRGIQETFKHLHRNYHWPNMLLTVQRFINQCDLCLKAKYERNPLKPPLIITETPTKPFQHLFMDLYSTGGATFLTIIDNFSKFAQAVPLNASSSVHIAEALLQVFSVLGLPLKITTDSDTKFDNDVIKEICASHDIHIHFTTPYNPNSNSPIERFHSTIAEIIRIQRMTNKDDPIQLIMKYAIIAYNNAIHSTTGYTPRELLFGHTASRNPLELYYPKEFYQDYVLNHRKNAEAVQECIAAHVSKNKEQVIEKRNQAAQTITFKTTSCSRTLIAGAFVLYTAADLTLNPIDNSNGILLLKQGQILKQIDTFSLACVYNVSYLHETTLKLMSLYASTKAAEGNEELHRAYKDQIENSLHLIGKKLAFIAPHHRFRRGLINGLGSVVKTITGNLDYEDAIKFENELSNLRNSVHNINTSQKQTLFIAKHAVEEFSKQIKLLDENQKKIGSMLKNATLSNNVVISRLHFLDLYIQIYFSLQLLLDKLVILEDAMTFAQLEVMHPSIIAPHSLISEITAIQKLYQFRPVDRISIKNIHSIESSISVKAYSTNDALTFILDIPSIDENLYDLIHLYSIPDKQNLTIIPKSKYLALGTNEYSYLEEDCKKITQDVQLCTSLNTQPVENSEDCIVTLIKHESTNCTRARMNLKQGKIQRLEDNKWLIILKDEQILKSRCGRKSDYKKMSGIYIASITSDCQVEIFNRTLKTNTDTITADEIVPIPSETTILEGNIRYNLQLKDISLDSIHELMDRVENIQQPVIDWQTMMTTPSWSTLGLYLILIAIIIWKLWQWRQRRLQSKNESPENTSIEDAAGSCGTRFYLKEGGSQCSSQERLLAVQTACDPQPRAPCPHCQHQNSLNSSQGSGMNNWASLSDSGGSGNAGARAPSPQGLSRRVRSRSLSPSRSIGGSSGGGSGSRDDAVSAMSSLFAARFPAAQKSMDDKLRGLIDELTELDKKPDRPPIERFVQRQVLEMARDCLHKSESKQVTSTYFYDMADSLDRLLAETREKSAEAGGQVAPLVNRLILAMARPARLLECLEFDPERFYRLLEAAEGHARHLQGITDIPQYIIHKLGLSKDPLAELHAPPPPPLPQNTSPSKLRGRQSPPGSSSGAPPSEADYQVIKLISNGAYGAVYLVKHKQTRQRFAMKKISKNNLILRNQVEQAFAERDILSFADNPFVVTMYCSFESRRHLCLILEFVEGGDCATLLRAGPLPPDMARHYFAEAVLAVEYLHSYGIVHRDLKPDNLLITATGHIKLTDFGLSKMGLMSLATNLYEEYADREARQFSDKQVCGTPEYIAPEVILRQGYGKPVDWWSMGVILYEFLVGCVPFFGDTPEELFAHTVNDDIEWPSEEDFPIAVEARAIITELLARNPRDRLGTGGTHQVKDHVYFYGLDWNNLLRRKAEFIPQLENDEDTSYFDSRCERYNHSEVDTDEAADAPDDGVFAAFSSTSPQWRRHHHSCAEHDSRSTDSWPGTPDSAGPPTTPTAPLHHHHPKCPVVGSSQQVSAESSQTDSEDVSPAARRRAPPRLHLPSALALTPRLSDIRREDRSIDKPDRTEKTKPTAIMAAKSMRRSASTSGLSLVIHPADDSTLSAGAGSPCAGNTSSTNSSRDSSPCRDPPSPFALPNHSLIQASKPPMVVRRGPRGFGFTIHTVRVYYGDTDYYTMHHLVSAVNEQGAAWAAGLRAGDLITQLNGESVQGLLHTQVLRLLLAAPHATLRATPLDQTTIQSGGRRRTSGGRRAYAPPRPRPRRRCSLFRRISTKRATQEMHQMVSGEAVTSAPPAAPPAPPDAPLHANTHFQRPSSLHGLKHKLVGGAEVRRSSLQHMPLSPLARTPSPSPQPPPPASPTSRVEARSPSPLATRECGRRAWPRRDPASPLLRRALSPDRLHPRSAEAKCSISPLCCGGVVAGVSVSAGSTRRGGVWRAPAPAPPTPPPQDKPDEPPLPRIAEEKDSPTHHARNLPNSPARQATPSIFTSSPKTSLGKSPFDASASFASLSLSDESYIADSSVNLSVLDTSRDLFIDESRTSTEPSVADEKPPKVEPPVIEQPKVRKKSDSSLKEEEFKTKNKKTELKKQDSLKKIEVKDEPKVEEKKVDKPMERVGSVKKVEKDMKKAEKAEKKQDKQEPKRTESLKKMEGLKRQESVELNKSPEAVESTEARSKSVVSKLLGVMGRRSTKDRDDDEHRLSKKHDKHAKRKGGSTPGQPRPPEPVPPTEREPEDKKRKNRGRASSSSSGEK

Uniprot

NA

ProteinModelPortal

NA

PDB

4OL8 E-value=5.16951e-78, Score=749

KEGG

101740445 K08789 microtubule-associated serine/threonine kinase [EC:2.7.11.1] | (RefSeq) microtubule-associate

GO

GO:0005515 GO:0015074 GO:0004674 GO:0005524 GO:0006468 GO:0004672 GO:0003676 GO:0000287 GO:0006281 GO:0006259

Length:

2972

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

2.87823

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00000

outside

1 - 2972

Pi

210.34512

Theta

154.82125

Tajima's D

1.192773

CLR

0.423489

CSRT

0.708764561771911

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree