Silkworm Genome Informatics Database

Gene

KWMTBOMO08118

Pre Gene Modal

BGIBMGA001096

Annotation

PREDICTED:_teneurin-m_[Bombyx_mori]

Location

Bomo_Chr13(-):16145258-16164856 View in EpiBrowser

Full name

Teneurin-m

Alternative Name

Odd Oz protein
Tenascin-like protein

Location in the cell

Nuclear Reliability : 1.898

CDS

ATGTCGTTAGACTATATCATCGTTAATGAGAAGAAATGCAAACAAAGTTGTCTTCTTGAAGGTTCCCGGCTACCGCCCGATGTGCCACCCAGAAACCCGACCATATCTCGGCTGAACGGCCGCATAACGGGCAACCCCGCCGACCTCGCTGACTTCGAACCGTCGTGTTTGGTCCGCACACCTTCGGGAAACTTCTACGTGCCTTCAGGAGACATCCAAAAAAATCCTTCAATGGATTACAAGTCGAATTCGTCGTGCAGCAGTCCGGGGAAACAAGACAAAAACACCCTGGAGAGGATGGATCGGGGCGACCGGGCCCATCCCGCGTTCGGAGCCCCGGTGCCCGTGCTGCCTGTGAGGAACAACCTCAGGGCCACCCACTTCCCTCCGACCGCTTCCAGGTTCCACTTCAGGAAGGGCCTCTCTTCACGGTGCTCGTGGAAATGCACCGCTATCGTCTTTATAATACTCTTCGTTCTACTTTTAGCGATCGCTTCTTATATGTCAGCATCTTACTTCGTCAACTGGTCATATCAAAACTCGAAAGCGTGCACAGTTATAGTTGGCGAATCGACGGAGATGTTCTCGGCTTCGAAAGCGACCACTCTCGAAGCGAGCAACAAATCTCTCGCGAGACCTCATCAGGGCTCGTCCTCGTCGAACTTAGGTAACGAGCAAAACCATTCCCGACACCGTAGGAGCGTAGATGTAGAAGGGCATGCTTCTGTACAACCTATCTCTACTATGGATCTTTCCACTGCTGTAAATAGTGTGCATGATATCTCTCCGCCTTCCACTGTTAGCTTGCCGCATGGTGTGACGTCGACCACTTCCGCTCAAGTAAGTGAAGAAAATGGGGATGCTAATGCTTTTGTGTCTGCTAATACCGGTGATCTAACCAAGGGATCGCTTACAACGCGTGACGACGATAAAATAACAACGGTACCTAGTTCGACTGTAAGAGTTACAAGTGCTATTAATTTGAATGAAAATTTTGATAATGCTGATGATGTAACAGACAAAACTAAACCATTACATGTTAACCGACTAATTGAAATTCCGGTTTTCGAAAAATCCACTATGGCAACAAAAAGAGAACAAGAGGATATTGCTTACGATCCAGACGACATGCAAGGGGACGCTTTCCCGTCTATATACGCATACGGTAATCAAAAGCGTCAATACCTTAAAATTTTAGAGAGACTAAGAGAGGCGTATCAAAAAATTCATATCTACAACGATACGGTGAAAATTGACAAGAATTTAGATAAATTTCATTATGATAGTGACAATAATGACAAAATTGACGCTGTTCCTAGAACAACATCAACTGTAAAAGTAATAGCTGATACTGAAACACCTGAAATGATTCAAACTAAAACAAGTACAGAAACATCTTTAACCAGTGAAATAACCGTTAAGACTCCAGTAATAACTACACCAATAGTTAGGGCTATCACGCAGAATGAATTTAATTCACCCGAGTTTGTCACTACTACACCAGCACCAAGTGTTTTTACTACCAATAACCTTATCACAACCACAACAACAGCCACGCAGGAAGCGTCGGATGAAAATGTAACACCGACTGTAAATATTGCTGAAGCGAGAACCTCGGATGTGACTAATCCTAAACGCGTTTTAATTAATCTAACAATATCAGCTGATGACGCCGATTCGTCCTATAAACCGCTTTATTCATTGACAGTAACAGTTCCAACTGTAGGAGCCCCGAATGAGTTACCTACGGTCAAAATTACTCCAATGGACGTTGAGCCAACGCAGTCCATGAAATTCGATAAACCTGTTGTACTAGATGGAATAAGTAATCAGGTTAACACAACAACTGAAGTACCAAAAGTCGCTACGCCTGAGAACACTGAAGATTGGGGTGGAATCTGTGAATGTTCTTGCCCGATTTGTGGCTCTAACAACACAGATGATTTTTATGATGATTACACAGACAAATCTAGTACAACGGAAAGTATTCCAGCTTCAACTGAGGGTGTAGATAGTACACCGATAGAAACAACGACAGAAAATGAACCAATTGAAAGCAAAACAGGAACAAATCCGGAAACAACCACAGAAACTCTATCAACGACTGACCTCATTGATACAGACTCTACAATGGAACCGACAACATATCCTGAAGCTTCGACCACAGAAGTCACACAATGTGTCTGCCCAAAAGTTAATCCTCCCATTATTCTAATATTAGAAGGTGGGCGGACCTTTCCTGCTCAGTCGTTCCCGCCAGACGGAACGACATTCAAACAAATAACTTTAGGCGAAAAATTATCAAAAGAAATCCCTCCATATAGTTATTGGAACATGCAGTTCTATCAATCACAGTCTTCGTACGTGAATTTCGACTACTTGATACCGCGTGGCGCGTCGATTGGTGTTTATGCGAGGCGAAACGCGTTGCCAACGCACACTCAGTATAACTTCTTAGAGGTCCTGACCGGATTCAAGGCTCGGACTACGAGGGCCTCGTATCCATCCGTAAAGAAAGAGGTAACCCATTACATGGAACAAGGACCCTGGTTCCTTTCTTTGTACAACGATGACGGCGATCCTCAGGAGATCTCGTTCGTTGCATTGGTAGCTGAAGAAATGACACACAACTGTCCTAATGGATGCTCTGGAAAAGGAGAGTGCCTGATGGGCCATTGTCAATGTCAGCCCGGCTTCGGAGGCGACGATTGCAGCAAAAGTGTGTGCCCTGTCCTCTGCAGCCAACGTGGCGAGTACATCAACGGCGAATGTCAATGCAACCCGGGCTGGAAAGGGAAGGAATGCTCACTGAGACACGACGAATGCGAGGTACCGGACTGCAACGGGCACGGACATTGCGTCAACGGAAAGTGCTCCTGTGTCAGAGGATACAAGGGCAAGTTCTGCGGCGAGATCGACTGTCCCCACCCGACGTGCTCGGGTCACGGGTTTTGCATCGAAGGAACCTGCGTCTGTAAGAAAGGATGGAAAGGAGCCGATTGCGGGACTATGGATAAAGACGCTTTGCAGTGCTTGCCGGATTGTTCGGGACACGGAACCTTTGACGTAGATACACAGACTTGCTCTTGTCACGCTAAGTGGTCCGGGGAGGACTGCTCTAAAGAAGTGTGTTCGTTGGAATGCGGTCCGCACGGGCGCTGCGTTGGGGAGTCGTGCTCATGCGCCGCGGGCTGGTCGGGCGAGTTCTGCTCGGTGCGGCTGTGCGACGCGCGCTGCGCTGAACACGGACAGTGCAAGAACGGCACCTGCCTGTGCGTGTCGGGATGGAACGGACGACACTGCACGCTGGAAGGGTGTCCGCGCAGCTGCGCCGGCCACGGACAGTGCCGCGTGGACAACGACGGCCGCTGGGAGTGCAAGTGCTTCGACGGCTGGGACGGCCCGGACTGCACCACGCTCAAAGAACAGATCTGCGACGACTCCAGGGATAATGATAAAGACGGACTAGTGGACTGCGAAGATCCAGAGTGCTGTCAGAGTCCAGCCTGCAAGAGCAGTCAGCTCTGCGTGTCGTCACCCAAACCCACAGACATTTTGCTCCGGAAGCAGCCGCCCGCCATAACCGCGTCGTTCTTCGAGCGAATGAAATTCCTCATAGACGAGGGTAGTTTGCAAAATTACGCGAAACAAGAGACGTTCAACGAAAGTCGCTCAGCGGTGATCCGTGGTCGTGTGATCACGACCTTGGGTTCTGGATTAGTCGGAGTCAGGGTCTCCACGTCTACTCCTTTGGAAGGCTTCACTCTGACGAGGGAGGACGGTTGGTTCGACCTCCTGGTCAATGGAGGCGGAGCTGTGACCTTGCACTTTGGTAGATCGCCGTTCAAAAGGTCCACACAAGTGGTCTTCGTGCCGTGGAATGAAGTGGTGATCATCGAAGAAGTGGTTATGACCACAGCTGACGAGAAGACTGGCATGGGACCTCCTCAGGCGTGTTTGGCTCACGACTACGATATGATGAAGCCCGTTGTTCTTGCCACGTGGAAACATGGGTTCCAGGGCGCTTGTCCAGATAAAAGCGCTATACTGGCCGAATCACAGGTGGTCCAGGAAAGTCTGCAGATACCAGGAACTGGCTTAAACCTGGTATATCACAGCTCTCGCGCAGCCGGCTATCTCTCCACCATACAACTTCAGCTCACCCCCGAGATAGTTCCACCGACTCTAGCCCTTATCCACCTCCGCATTACCATCGAGGGGATTCTCTTCGAGAAGACTTTTGAAGCGGATCCGATAATAAAATTCACTTACTCGTGGAATCGTCTTAATGTGTACCGTCAAAGAGTGTACGGAGTGACCACGGCTCTGGTCAAAGTCGGTTATCAGTACACGGACTGCAAGGACATCATATGGAACGTGCAGACGACAAAGTTGAGCGGCCACGATATGAGCATATCTGATGTTGGTGGCTGGAACCTGGATATACATCATAGATACAATTTCCATGAAGGTATACTCCAAAAAGGCGACGGCACCAACATCTACCTGAAGCACAAGCCTCGTCTCATCATCACCACAATGGGAGACGGCCGCCAGCGTAAGCTTGAGTGCGGATCCGAATGCATCGGGCCGGCCACTAAACAGAGACTGCTGGCTCCGGTCGCGCTTGCCGCCGCTCCTGACGGGTCCATCTTTGTCGGAGACTTCAACCTGGTCAGGAAGATCAATACCGATGGCACCGTGCGAACTCTGGTCAAATTGAACGCCACTCGTGTTTCTTACCGCTACCACATGGCGCTCTCACCGCTGGACGGGACGCTTTACATCTCCGATCCTGAATCACACCAGATCATCAAGGTCCACAACACCGAAGACTTCAGCGATCCAGAACATAACTGGGAAACCGTAGTCGGGTCTGGTGAAAGGTGCCTTCCTGGGGATGAAGCTCACTGCGGAGACGGTGCATTGGCTAGGGACGCCAAGCTCGCTTACCCCAAAGGCGTGGCCGTTTCAGTGGACAACGTCGTTTACTTCGCAGATGGCACCAACATCCGTATGGTAGACCGCGACGGAATCATCACAACTGTAATCGGAAACCACATGCATAGGGCGCACTGGAAACCGATCCCTTGTGAGGGGACTCTGAGTGTTGAAGAAGTTCACTTGCGCTGGCCAACGGAACTAGCCATCAATCCTTTAGACAACAGCTTGCACATAATAGATGACCACATGATATTGCAAATGGCACCTGATGGGAGAGTCAAAGTGATCGCTGGACGACCGTTGCACTGTCCCGCACCAGTAAGCGGGTACGACATGGAACTGGCTACATACGCCACATTGGTGATGCCTCAAAGCATAGCATTCGGAGCGGCAGGGGATTTGTACGTCGCAGAAAGTGACTCCCAGAGAATCAACAGAGTTAGACTTATCACCACTGATGGCAAAATATCTTTGTACGCCGGAGCCGAGTCTAAATGTAATTGCTTAGAAAGAGGCTGCGACTGCTTCGAAGCCGATCATTTCTTAGCGTCCAATTCAAAATTCAATACTATCTCAGCTGTGGTTGTCAGTCCGGATGGTATTGTCCACATTGCCGATCAGGCCAATTACAGGATTCGGTCAGTGATGGCGAGTATTCCTGATGCTAGCGGAACAAGAGAATACGAAATATACTCACCGGATACGCAAGAAATATACATATTTAACAGATTCGGTCAGCACGTGATGACCAAAAACATTCTGACGGGAGAAGACAACTACGTATTCACGTATACCGTAAACACGAGGAACGGTAAGCTGAGTACTGTCACGGACGCCGCCGGGAACAAAGTGTTCTTGCTTCGAGATTATTCCAGCCTCGTTAATTCGATCGAAAATACGAAAGGTCAAAAATGCAGACTCAAAATGTCCCGGATGAAAATGCTCCAAGAACTCCGCACCCCGGATAACTTTAATGTTACATTCGACTATCATCGCACAACCGGGCTTCTCAAATCCAAATACGACAGCACTGGACGCAGCTACATCTACAACTACGATGAGTTCGGTAGACTGACGTCGGCTGTGACGCCGACCGGTAGAATCATAAACCTGACCTTCGATCTCGGACTCAAAGGCGCGATTGTTCGTGTGAGTGAAAATAACAGAAAACCAGTCTCCATATTAATCAAGGGATCCTCTGTGAATACCAAAATCGGGGAAGCAGAAAAGAAAACGATAATTTCAACTGACGGTAGCATTTCTTCCAGCATGCCTTGGGGACATGTTATCTCAACTGATACTGTTCCTTACACAATTTTAGCTGAAATCGACCCAATATTAGGAGAGAGCTATCCAGTACCGGCTAAACAAAGGACTGAAGTCGGCGGCGACTTGGCTAACCGATTCGAATGGCGCTACTTCTTGCGAAGACTGATGTCAAGCAAAGGAAAGAGCAGCAAGGCCGTCGCTCAGATTGGCCGTAAGCTGAGAGTGAACGGTGAGAACCTACTCACGCTTGAGTACGACAGAGATACCTCTACAGTCGCAGTTTTCATGGACGATAAGTACGAACTCCTGAATGTGACTTACGACCGAACCGCCAGACCAGTTAAATGGGGCCCAAGAAGTGGCATATTCTCTGAAGTGGAATTAGAATACGATAGATTCAATAGATTAACCCGTTGGAGCTGGGGCGATTTGAACGAAACCTATGGATTTGATAGAGCGGGAAGATTACACGAGATAAGATATGGCGATGGTTCTTCATTGGCTTACTCATTTAGAGATATGTTCACTAGTCTTCCGTTGAAAGTCACCACACCAAGAGGAAGCGATTACCTTTTGGATTACGATGATTCTGGCGCACTGCAAAATCTCACCACTCCACGGGGCCATATTCACACTTTCGCTCTCATGACATCACTCGGCTATTTCAAGTACCAGTATTTCTCTCCGATGAACAGGCACCCATACGAAATATTTTACAATGATGACGGACATATCCTCTCGAAGATATTCCCTCATCAATCCGGGAAAATCCTTTACGTATACGACGGCACCGGTAAACTGGAAACCGTCCTAGCTGGAGCCTCCGCTATTCGCTACGTGTACCACGACAATACGCACCTAGTCAAAAACGTCGAGATCTCCGATCCAGATTACGACTTGAAACAAGATTACAAATACCACGCAGGAATACTGAAAGACGCGAAAATGAAATTCAATTCAAAAAGCGGCCTCAATAACGCACACTTCAAGTATCAATACGATGGTAACGCTAGGCTTTCCACAATTGATGTCAACATCAATAGCAAGGAAATGCCGCAGCTGAGGCTGAAATACAATCAAAACCTCGGCAGCCTTGAGGCGGTCAGCGACCTGAGGATCTACAGGAACACGTTCAATCGCACCGTCATGCAAGACACCAGTAAACAGTTCTTCACTATTACCGACTACGATGACCACGGCAGAATAAAAACATTTTTAATTAACATCAAAGCTTTTGACGTCTTCCGCTTAGAACTAGAATACGACGCGAGAAATCGAATCAAAACGAAGAAGCTCATGATCGGCGACACCGCCTTCAGCGAACGAATAAGCTACAACTACGACGGGCATCTGATGGAAGTGGTCGGCTCGGAGGACGACCTTAAATACAACTACGACGAGAACGGCAACGTCATTGGCATTATCGAGCACGGCGAGAAACGTTATCTCGGCTACGACATCGGCGACCGAGTCGTTCAGTACGGCGACGTCGAGTTCAGCAGCTACGACGGCCGCGGCTTCGTCGTGAGGCGCGGGGAGCAGAAGTACCGATATAACTCGCGAGGCCAGTTCGTACACGCGTTCGAGAGAGACAAGTTCCAAACGTGGTACTACTACGACGACAGGAGCCGGCTAGTCGCGTGGAAGGACGACAAAAACAACATAACGCAGTTCTTCTACGCCAACCCCCAAACGCCCACCCTGATTACGCACATGCACCATCCTAAAACGGAAAAGACCGTCAGACTACTGTACGATCAGAGAGACTTCCTAACGTGCATCGAAACAGAAGAACAAAGGTTCTACGTAGCTACAGACCACAATGGATCGCCTCTAGCCGTGTTTGATGTAAAGGGCGATATTGTAAAAGAAATAAAGCGGAGTCCGTTCGGAAAGATCATCAAGGACTCCAACCCTAGTTTCTACGTACCTGTAGATTTCCACGGCGGCATATTTGACTATAACACCAACTTGATATATTTGGAGAACAGACTTTACGATCCCGTAGTGGGACAGTGGATGACGCCCAGCTGGGAACACCTGGCCACGAAACTGAGTCTCCCAACAGACATATTCATATATAGATTCAAGAACAACGATCCAATCAACAAACAGCAGAACGTTCCGTACATGACCAGCCTGAATAGCTGGCTGCAACTCTACGGGTACGATCTCAATAAAATGATGGGATCTAAATACATCAACGATATGATATTCCAGCCGATGACGTCAGTGACTGCGGCGCAATTGGCACCCGATTTCGGTGTGATGTCCGGACTACAATGTATCATTGAAAAGGTCAACGACAAGCTTTCCGACATAGAATTCGTACCAACACCCTTACTCAAGATGGAGCCCATCACGAGAAACCTTCTGCCGCGAGTCTCGTACAAGCGTGGCGTATTTGGCGAAGGCGTTCTCATCTCGAGGGTCGACGGCAGAGCGTTTATAAGCGTCGCGGACGGAGCCAACAGCGTCGTCGAAGACGTTATCACGACTGTCTTCAACAACTCTTACTTCCTGGATGTGCACTTCAGTATCCACGACCAGGACGTCTTCTATTTCGTGAAGGATAATTCACTTAAGATCCGGGATGACATGGAGGAACTGAGGCGGCTGTCGGGGAAATTCAACGTGTCTCAAGACGAAACTAACGACCAGGGACTAGAGGTCCGGGTTCACGCTGTGGGTAAGGGCTCTGCTCAAGCTGTCATAGTACTCCGTTACGGAGTCGACCCGGCCCAAGAGCGAATCAAATTACTGAAGCACGCTCACAAACGTGCCGCTACCAGGGCTTGGGAGAGGGAGAAAGCTCTCGTGGCGGCCGGCTGGGAAGGGCGGGGCTCCTGGACCGAGGAAGAGAAGGAGGAACTCATTTCTCACGGTATCGTAGACGGCTGGGCAGCGAGAGACGTCCATTCCATATCGAAGTACCCGCAGCTCGCCGACGATCCGGCCAACATTGTCTTCGTGCGCGACGGGAGAAGGAAACGAAGAAAGAGTGGCCGCTCTCGTCACCGCTCGTGA

Protein

MSLDYIIVNEKKCKQSCLLEGSRLPPDVPPRNPTISRLNGRITGNPADLADFEPSCLVRTPSGNFYVPSGDIQKNPSMDYKSNSSCSSPGKQDKNTLERMDRGDRAHPAFGAPVPVLPVRNNLRATHFPPTASRFHFRKGLSSRCSWKCTAIVFIILFVLLLAIASYMSASYFVNWSYQNSKACTVIVGESTEMFSASKATTLEASNKSLARPHQGSSSSNLGNEQNHSRHRRSVDVEGHASVQPISTMDLSTAVNSVHDISPPSTVSLPHGVTSTTSAQVSEENGDANAFVSANTGDLTKGSLTTRDDDKITTVPSSTVRVTSAINLNENFDNADDVTDKTKPLHVNRLIEIPVFEKSTMATKREQEDIAYDPDDMQGDAFPSIYAYGNQKRQYLKILERLREAYQKIHIYNDTVKIDKNLDKFHYDSDNNDKIDAVPRTTSTVKVIADTETPEMIQTKTSTETSLTSEITVKTPVITTPIVRAITQNEFNSPEFVTTTPAPSVFTTNNLITTTTTATQEASDENVTPTVNIAEARTSDVTNPKRVLINLTISADDADSSYKPLYSLTVTVPTVGAPNELPTVKITPMDVEPTQSMKFDKPVVLDGISNQVNTTTEVPKVATPENTEDWGGICECSCPICGSNNTDDFYDDYTDKSSTTESIPASTEGVDSTPIETTTENEPIESKTGTNPETTTETLSTTDLIDTDSTMEPTTYPEASTTEVTQCVCPKVNPPIILILEGGRTFPAQSFPPDGTTFKQITLGEKLSKEIPPYSYWNMQFYQSQSSYVNFDYLIPRGASIGVYARRNALPTHTQYNFLEVLTGFKARTTRASYPSVKKEVTHYMEQGPWFLSLYNDDGDPQEISFVALVAEEMTHNCPNGCSGKGECLMGHCQCQPGFGGDDCSKSVCPVLCSQRGEYINGECQCNPGWKGKECSLRHDECEVPDCNGHGHCVNGKCSCVRGYKGKFCGEIDCPHPTCSGHGFCIEGTCVCKKGWKGADCGTMDKDALQCLPDCSGHGTFDVDTQTCSCHAKWSGEDCSKEVCSLECGPHGRCVGESCSCAAGWSGEFCSVRLCDARCAEHGQCKNGTCLCVSGWNGRHCTLEGCPRSCAGHGQCRVDNDGRWECKCFDGWDGPDCTTLKEQICDDSRDNDKDGLVDCEDPECCQSPACKSSQLCVSSPKPTDILLRKQPPAITASFFERMKFLIDEGSLQNYAKQETFNESRSAVIRGRVITTLGSGLVGVRVSTSTPLEGFTLTREDGWFDLLVNGGGAVTLHFGRSPFKRSTQVVFVPWNEVVIIEEVVMTTADEKTGMGPPQACLAHDYDMMKPVVLATWKHGFQGACPDKSAILAESQVVQESLQIPGTGLNLVYHSSRAAGYLSTIQLQLTPEIVPPTLALIHLRITIEGILFEKTFEADPIIKFTYSWNRLNVYRQRVYGVTTALVKVGYQYTDCKDIIWNVQTTKLSGHDMSISDVGGWNLDIHHRYNFHEGILQKGDGTNIYLKHKPRLIITTMGDGRQRKLECGSECIGPATKQRLLAPVALAAAPDGSIFVGDFNLVRKINTDGTVRTLVKLNATRVSYRYHMALSPLDGTLYISDPESHQIIKVHNTEDFSDPEHNWETVVGSGERCLPGDEAHCGDGALARDAKLAYPKGVAVSVDNVVYFADGTNIRMVDRDGIITTVIGNHMHRAHWKPIPCEGTLSVEEVHLRWPTELAINPLDNSLHIIDDHMILQMAPDGRVKVIAGRPLHCPAPVSGYDMELATYATLVMPQSIAFGAAGDLYVAESDSQRINRVRLITTDGKISLYAGAESKCNCLERGCDCFEADHFLASNSKFNTISAVVVSPDGIVHIADQANYRIRSVMASIPDASGTREYEIYSPDTQEIYIFNRFGQHVMTKNILTGEDNYVFTYTVNTRNGKLSTVTDAAGNKVFLLRDYSSLVNSIENTKGQKCRLKMSRMKMLQELRTPDNFNVTFDYHRTTGLLKSKYDSTGRSYIYNYDEFGRLTSAVTPTGRIINLTFDLGLKGAIVRVSENNRKPVSILIKGSSVNTKIGEAEKKTIISTDGSISSSMPWGHVISTDTVPYTILAEIDPILGESYPVPAKQRTEVGGDLANRFEWRYFLRRLMSSKGKSSKAVAQIGRKLRVNGENLLTLEYDRDTSTVAVFMDDKYELLNVTYDRTARPVKWGPRSGIFSEVELEYDRFNRLTRWSWGDLNETYGFDRAGRLHEIRYGDGSSLAYSFRDMFTSLPLKVTTPRGSDYLLDYDDSGALQNLTTPRGHIHTFALMTSLGYFKYQYFSPMNRHPYEIFYNDDGHILSKIFPHQSGKILYVYDGTGKLETVLAGASAIRYVYHDNTHLVKNVEISDPDYDLKQDYKYHAGILKDAKMKFNSKSGLNNAHFKYQYDGNARLSTIDVNINSKEMPQLRLKYNQNLGSLEAVSDLRIYRNTFNRTVMQDTSKQFFTITDYDDHGRIKTFLINIKAFDVFRLELEYDARNRIKTKKLMIGDTAFSERISYNYDGHLMEVVGSEDDLKYNYDENGNVIGIIEHGEKRYLGYDIGDRVVQYGDVEFSSYDGRGFVVRRGEQKYRYNSRGQFVHAFERDKFQTWYYYDDRSRLVAWKDDKNNITQFFYANPQTPTLITHMHHPKTEKTVRLLYDQRDFLTCIETEEQRFYVATDHNGSPLAVFDVKGDIVKEIKRSPFGKIIKDSNPSFYVPVDFHGGIFDYNTNLIYLENRLYDPVVGQWMTPSWEHLATKLSLPTDIFIYRFKNNDPINKQQNVPYMTSLNSWLQLYGYDLNKMMGSKYINDMIFQPMTSVTAAQLAPDFGVMSGLQCIIEKVNDKLSDIEFVPTPLLKMEPITRNLLPRVSYKRGVFGEGVLISRVDGRAFISVADGANSVVEDVITTVFNNSYFLDVHFSIHDQDVFYFVKDNSLKIRDDMEELRRLSGKFNVSQDETNDQGLEVRVHAVGKGSAQAVIVLRYGVDPAQERIKLLKHAHKRAATRAWEREKALVAAGWEGRGSWTEEEKEELISHGIVDGWAARDVHSISKYPQLADDPANIVFVRDGRRKRRKSGRSRHRS

Description

Involved in neural development, regulating the establishment of proper connectivity within the nervous system. Acts as a homophilic and heterophilic synaptic cell adhesion molecule that drives synapse assembly. Promotes bi-directional trans-synaptic signaling with Ten-a to organize neuromuscular synapses. Functions in olfactory synaptic partner matching by promoting homophilic cell adhesion between pre-synaptic olfactory receptor neurons (ORN) axons and post-synaptic projection neurons (PN) dendrites partner in the developing antennal lobe to form stable connections. Also required for peripheral axon growth cone guidance and target recognition of motor neurons.

Subunit

Homodimer. Heterodimer with Ten-a. Interacts with Ten-a; the interaction occurs at the neuromuscular junction. Interacts with alpha-Spec and cher.

Miscellaneous

The name odz (odd Oz) reflects the odd pair rule nature of the gene and Oz reflects the prominent expression of the gene in the brain, heart and neurons, corresponding to the three gifts that the Wizard of Oz bestowed.

Similarity

Belongs to the tenascin family. Teneurin subfamily.

Keywords

Alternative splicing Cell adhesion Cell junction Cell membrane Complete proteome Cytoplasm Developmental protein Disulfide bond EGF-like domain Glycoprotein Membrane Neurogenesis Postsynaptic cell membrane Reference proteome Repeat Synapse Synaptosome Transmembrane Transmembrane helix

Feature

chain Teneurin-m
splice variant In isoform D.

Uniprot

H9IV16 A0A3S2M8F5 A0A212FFF6 A0A194RG01 A0A194Q6P5 A0A2A4K280 + More
A0A2H1VAE1 A0A139WJ16 A0A139WJ91 E2C1D1 A0A151WKP7 E2A2F1 A0A1Y1K1B4 F4WQ11 A0A195BME4 A0A088AC19 A0A195ECH4 A0A026W5A1 A0A067QGA8 A0A154PRZ4 A0A151INB6 A0A0J7KTN6 A0A0M9A6X1 A0A158NXJ0 A0A232FJB8 A0A0L7R9P9 K7J513 A0A336MNZ9 A0A336MJI0 E0V9C8 A0A182G353 A0A1B0CZR2 A0A336MJG8 A0A182PSB1 A0A0L0CRZ7 A0A182M9Z1 Q0IGG1 A0A182V2R3 A0A182FTN0 A0A182GNI2 A0A1I8PJ92 A0A1B0G3C9 A0A182QLF6 A0A1B0AYF2 A0A1A9WCA4 A0A084VU09 A0A182N316 A0A182YBK0 A0A1I8PJ17 A0A1B6BYQ2 A0A1I8MYS1 A0A1I8MYS5 A0A240PJV9 W5JP03 Q7QK12 B0W7X3 A0A1I8PJC0 A0A1I8PJ05 A0A1I8MYR2 A0A1B6CCY7 N6TRK8 W8AWE8 A0A0K8VYM3 A0A0A1X700 A0A0K8W351 B4J306 A0A3B0JSL2 A0A1I8MYS9 A0A0K8WDH3 W8B5Q7 A0A0K8VEI6 A0A0Q9WWU6 A0A0M3QWJ5 B4KX50 A0A0K8VKF0 A0A3B0J4E3 A0A0K8UF67 B4IB00 B3MB45 M9PGF7 A0A0Q5U5Y4 A0A0J9S199 A0A182KKM2 B4LFA5 A0A0Q9WV43 A0A1A9Y6X2 A0A1W4VAT9 A0A3B0J3R9 B5DHU2 B4MMB0 B4PI70 O61307 B3NJ39 A0A0Q5UKN2 A0A146KU89 A0A023F492 T1HMZ8 A0A1A9VHI2 J9JMB1 A0A2H8U056

Pubmed

19121390 22118469 26354079 18362917 19820115 20798317 + More
28004739 21719571 24508170 24845553 21347285 28648823 20075255 20566863 26483478 26108605 17510324 24438588 25244985 25315136 20920257 23761445 12364791 14747013 17210077 23537049 24495485 25830018 17994087 10731132 12537568 12537572 12537573 12537574 16110336 17569856 17569867 22936249 20966253 15632085 17550304 8070401 9373139 7514504 17893096 21857973 22425994 22426000 26823975 25474469

EMBL

BABH01000155 BABH01000156 RSAL01000009 RVE53849.1 AGBW02008828 OWR52466.1 + More
KQ460297 KPJ16235.1 KQ459439 KPJ01049.1 NWSH01000210 PCG78371.1 ODYU01001506 SOQ37808.1 KQ971338 KYB27963.1 KYB27964.1 GL451921 EFN78238.1 KQ983001 KYQ48452.1 GL436038 EFN72354.1 GEZM01099133 GEZM01099130 JAV53475.1 GL888262 EGI63709.1 KQ976441 KYM86420.1 KQ979074 KYN22920.1 KK107447 EZA50796.1 KK853498 KDR07188.1 KQ435033 KZC14038.1 KQ976940 KYN06967.1 LBMM01003309 KMQ93678.1 KQ435735 KOX77173.1 ADTU01003121 ADTU01003122 ADTU01003123 ADTU01003124 NNAY01000121 OXU30772.1 KQ414624 KOC67559.1 UFQT01001435 SSX30563.1 SSX30562.1 DS234991 EEB09984.1 JXUM01006103 JXUM01006104 JXUM01006105 JXUM01006106 KQ560209 KXJ83826.1 AJVK01009685 AJVK01009686 AJVK01009687 AJVK01009688 SSX30564.1 JRES01000005 KNC34967.1 AXCM01000217 CH477192 EAT48576.1 JXUM01000535 CCAG010020326 CCAG010020327 AXCN02001143 JXJN01005705 JXJN01005706 ATLV01016620 ATLV01016621 KE525097 KFB41453.1 GEDC01031183 JAS06115.1 ADMH02000995 ETN64484.1 AAAB01008804 EAA03852.4 DS231856 EDS38435.1 GEDC01025974 JAS11324.1 APGK01054528 APGK01054529 APGK01054530 APGK01054531 APGK01054532 APGK01054533 APGK01054534 APGK01054535 KB741250 ENN71900.1 GAMC01021424 JAB85131.1 GDHF01008368 JAI43946.1 GBXI01007772 JAD06520.1 GDHF01007004 JAI45310.1 CH916366 EDV97176.1 OUUW01000002 SPP76346.1 GDHF01003167 JAI49147.1 GAMC01021426 JAB85129.1 GDHF01015082 JAI37232.1 CH940647 KRF84821.1 CP012525 ALC44259.1 CH933809 EDW19693.2 GDHF01012976 JAI39338.1 SPP76345.1 GDHF01027025 JAI25289.1 CH480826 EDW44463.1 CH902618 EDV41346.2 AE014296 AGB94904.1 CH954178 KQS44424.1 CM002912 KMZ01170.1 EDW70293.2 KRF84820.1 SPP76344.1 CH379058 EDY69869.3 CH963847 EDW73255.2 CM000159 EDW95518.2 X73154 AF008227 AF008224 AF008226 AF008228 EDV52756.1 KQS44426.1 GDHC01020199 JAP98429.1 GBBI01002372 JAC16340.1 ACPB03011967 ABLF02041086 GFXV01008112 MBW19917.1

Proteomes

UP000005204 UP000283053 UP000007151 UP000053240 UP000053268 UP000218220 + More
UP000007266 UP000008237 UP000075809 UP000000311 UP000007755 UP000078540 UP000005203 UP000078492 UP000053097 UP000027135 UP000076502 UP000078542 UP000036403 UP000053105 UP000005205 UP000215335 UP000053825 UP000002358 UP000009046 UP000069940 UP000249989 UP000092462 UP000075885 UP000037069 UP000075883 UP000008820 UP000075903 UP000069272 UP000095300 UP000092444 UP000075886 UP000092460 UP000091820 UP000030765 UP000075884 UP000076408 UP000095301 UP000075880 UP000000673 UP000007062 UP000002320 UP000019118 UP000001070 UP000268350 UP000008792 UP000092553 UP000009192 UP000001292 UP000007801 UP000000803 UP000008711 UP000075882 UP000092443 UP000192221 UP000001819 UP000007798 UP000002282 UP000015103 UP000078200 UP000007819

PRIDE

H9IV16 M9PGF7 O61307

Pfam

PF05593   RHS_repeat        + More
PF15636   Tox-GHH
PF07974   EGF_2
PF18720   EGF_Tenascin
PF01074   Glyco_hydro_38N
PF09261   Alpha-mann_mid
PF07748   Glyco_hydro_38C

Interpro

IPR008979   Galactose-bd-like_sf        + More
IPR013111   EGF_extracell
IPR028916   Tox-GHH_dom
IPR011042   6-blade_b-propeller_TolB-like
IPR000742   EGF-like_dom
IPR013032   EGF-like_CS
IPR031325   RHS_repeat
IPR006530   YD
IPR008969   CarboxyPept-like_regulatory
IPR022385   Rhs_assc_core
IPR041161   EGF_Tenascin
IPR000602   Glyco_hydro_38_N
IPR011330   Glyco_hydro/deAcase_b/a-brl
IPR011013   Gal_mutarotase_sf_dom
IPR015341   Glyco_hydro_38_cen
IPR013780   Glyco_hydro_b
IPR011682   Glyco_hydro_38_C
IPR028995   Glyco_hydro_57/38_cen_sf
IPR027291   Glyco_hydro_38_N_sf
IPR037094   Glyco_hydro_38_cen_sf
IPR011041   Quinoprot_gluc/sorb_DH
IPR015943   WD40/YVTN_repeat-like_dom_sf

SUPFAM

SSF49464   SSF49464        + More
SSF74650   SSF74650
SSF88688   SSF88688
SSF88713   SSF88713
SSF50952   SSF50952

Gene 3D

2.120.10.30 2.60.120.260 1.20.1270.50 2.60.40.1180 3.20.110.10 2.130.10.10

ProteinModelPortal

H9IV16 A0A3S2M8F5 A0A212FFF6 A0A194RG01 A0A194Q6P5 A0A2A4K280 + More
A0A2H1VAE1 A0A139WJ16 A0A139WJ91 E2C1D1 A0A151WKP7 E2A2F1 A0A1Y1K1B4 F4WQ11 A0A195BME4 A0A088AC19 A0A195ECH4 A0A026W5A1 A0A067QGA8 A0A154PRZ4 A0A151INB6 A0A0J7KTN6 A0A0M9A6X1 A0A158NXJ0 A0A232FJB8 A0A0L7R9P9 K7J513 A0A336MNZ9 A0A336MJI0 E0V9C8 A0A182G353 A0A1B0CZR2 A0A336MJG8 A0A182PSB1 A0A0L0CRZ7 A0A182M9Z1 Q0IGG1 A0A182V2R3 A0A182FTN0 A0A182GNI2 A0A1I8PJ92 A0A1B0G3C9 A0A182QLF6 A0A1B0AYF2 A0A1A9WCA4 A0A084VU09 A0A182N316 A0A182YBK0 A0A1I8PJ17 A0A1B6BYQ2 A0A1I8MYS1 A0A1I8MYS5 A0A240PJV9 W5JP03 Q7QK12 B0W7X3 A0A1I8PJC0 A0A1I8PJ05 A0A1I8MYR2 A0A1B6CCY7 N6TRK8 W8AWE8 A0A0K8VYM3 A0A0A1X700 A0A0K8W351 B4J306 A0A3B0JSL2 A0A1I8MYS9 A0A0K8WDH3 W8B5Q7 A0A0K8VEI6 A0A0Q9WWU6 A0A0M3QWJ5 B4KX50 A0A0K8VKF0 A0A3B0J4E3 A0A0K8UF67 B4IB00 B3MB45 M9PGF7 A0A0Q5U5Y4 A0A0J9S199 A0A182KKM2 B4LFA5 A0A0Q9WV43 A0A1A9Y6X2 A0A1W4VAT9 A0A3B0J3R9 B5DHU2 B4MMB0 B4PI70 O61307 B3NJ39 A0A0Q5UKN2 A0A146KU89 A0A023F492 T1HMZ8 A0A1A9VHI2 J9JMB1 A0A2H8U056

PDB

6CMX E-value=0, Score=2715

KEGG

101737256 no KO assigned | (RefSeq) teneurin-m

GO

GO:0016021 GO:0016020 GO:0008045 GO:0030246 GO:0004559 GO:0006013 GO:0003824 GO:0043025 GO:0016200 GO:0001941 GO:0005737 GO:0034116 GO:0051124 GO:0007155 GO:0022416 GO:0031012 GO:0050808 GO:0007274 GO:0008039 GO:0031005 GO:2000331 GO:0005886 GO:0001745 GO:0048790 GO:0031122 GO:0045211 GO:0043005 GO:0048058 GO:0097090 GO:0040017 GO:0005887 GO:0048499 GO:0042802 GO:0031594 GO:0042051 GO:0046982 GO:0045467 GO:0042803 GO:0034110 GO:0030054 GO:0005515 GO:0005783 GO:0006457 GO:0051082 GO:0015914 GO:0046872 GO:0006412 GO:0016876 GO:0043039

Subcellular location

Cytoplasm
Cell junction
Synapse
Postsynaptic cell membrane
Synaptosome
Membrane

Length:

3079

Number of predicted TMHs:

1

Exp number of AAs in TMHs:

22.33359

Exp number, first 60 AAs:

0

Total prob of N-in:

0.99815

inside

1 - 151

TMhelix

152 - 174

outside

175 - 3079

Pi

17.115051

Theta

14.898805

Tajima's D

0.287403

CLR

0.796976

CSRT

0.458127093645318

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics