Gene
KWMTBOMO07486
Pre Gene Modal
BGIBMGA005199
Annotation
PREDICTED:_LOW_QUALITY_PROTEIN:_uncharacterized_protein_LOC101739362_[Bombyx_mori]
Full name
Protein bark beetle
Alternative Name
Protein anakonda
Location in the cell
PlasmaMembrane Reliability : 2.057
Sequence
CDS
ATGAAGTGTTCCAAAGAAACGAGTGTTCAGAAAAAGCACAGTCAATTTAGCGACACTAAATATAAATGGAGGACTGTGATAGTGATATTATGTTGCTTTATTGAATGTAAAGGACAAGAGTTGAGTGCGACAGATCCTTACCTCGTAAACAAATCAACTGGTTTAACGGAACTGCCGGGCGGTGTATTAGCCGGGGGACGCACTGTTTGGAAACCAGATAACAGTCCATATCTACTTCGGGATGATCTACTGCTGGAGAGAGATGCAGAGCTGGTTATAGAACCGGGAGTAGAAGTAAGATTTGCTCCTATGATTGGAATTACAGTACGAGGGAAATTGATCGCTGTGGGTGACCATCAAAGTAAAGTGACATTTACGAGCACCGAAGAAATTGTTACAGAAGCGAAGCCTATACCAGATATACGTCTTGTTGACGGACCATCAATCCTTGTTGGTCGTGTGCAACTGTTACACCGCGGACAATGGCGATCGGTTTGCACCAATTCTAGAAACTGGACGATCAATGACATGGAGACAGCATGTCGGCAGCTCGGCTTCGTCGGTGGATCCTTTTACAACTGGATAGACCGACAGCCCGGCCGTAGAGCTCGCCTACTCTATGAAGAGCCCAAGTGCAAAGGCACAGAATACGACCTCTTCCAATGCGATTGGAATTCAAGACAACTTGGTTCGGGAGTTTGCGATTATCACCCAGATTTCGCTCTACGATGCTTGCCTCGTCACGACGTGAACGGAAACCCCGCCAGACATTGGAGGGGAATACGATTCGAGAACGCAGTATTCGAGCGAGTGCTAACATTATCAAACACTTTATATGTTCCTACATCAATGTCACGATTATCGCACGTGGTAATTAAAAATGCGGGTCTAGGAAGAGATAATACAGCGACCAGTGCCTTAGACGTGGTCGGAGTTCCACCTGAAATGAACGACTTGGAGGTATCAAATTCTGCGTTTAACGCTATAAATGTGACGTCACCAAATGCACCTATTGTCATCAATAATTGCACGATACAAAACAATAGAGGTTATGGCGTGTACGTGAACTCTACATACGGCATGGTAAAAATAGAAAACTGTATGATACATGATAATGGAGGTGACGGTGTCAGATATGTTGTTCATGAGATTAATCTCGATGAGAGATTTGATAGAAGCGAAATTTTTGATTTATGCACCCTTGCTTCGACTCCTAGTCAGACATTTCCCATTCAAATGTCCATAGAACAATCAAGGTACTCTAACATGGAAAGAGATTGTAACCAAAAATTTTATACAATATCCGACCACGTTCTCACGCTGAGTTTTCTCAAAATTTTGACAAATCAAAACGACACTGGTGAGATATATGTTTACGATGGACTGACGACTGACGACAGATTGTTATTGAGTTTCAGCTTAAGGAATTTCACACGACCACAAAGTGTAACGTCGACTAGAAATAGAATGTATGTAAGATTTCGTGCCAATACCAGAACTGATATCACGGGATTTTTAAGGTTAACATCGGGAGTCAGCAAGACCTACGATTTAAATGTAACCGACACGATTATCTCAGACAACAATGGGAGAGGCGTGGCTATTGAAAACCTTAGATCTCAGATTCACATACATCGAACTTCGATATCCAATAACAATCACGTAGCTGGTCTACATGTTGTCAGCGGCGCAGGTGATGTCAATGTAACAGAGAGCAGAATATCGTTCAACCAAGGAGATGGTGTCAATATAACTGTAACCGGTGGTAATAGGAATATTTCTAGAAGCATACTGAGTTCCAATCAAGGTCACGCCGTAGCCGTTTGGCTAAATGATACTTCGGAGACTGAATATGTAGCATTGAACCAAACAACAGTAATCGAATATTCAGAAATATTTAAAAACCTTGACGTGGGAATAATGCACGGAAACTTTTGTGGCAATAGTTGGGTAAACATTACAGGTAATTGGTTTAATACGAGCAGCGAAAGTACAATAAATATCTTAACTTGTTGGAGACTCAACAACCCGATCAAATTATTGAACCTTCAAATCGGACACAATAGGTTTTATGAAAATCAAAAAGTCCCGGTGAAAATACAACCTGCACTGAATGTGAACGGTAGAATCGAACACAATTATTTTGAACAAGGAAGTTATGGTGCCATAGTTATACTAAATAGGATAGAAGGAAACTATATTGAAGAATTCGAAATGTTACCGGCTAATTTTCGTATCCAACAAAATTATTTTTTTGGCAATCGAGGCCCTTTCGTTGTCAACCTGGGCTTATCGCCCTACAGTGATATTCAATACATATTGTTCACTCGTAACTACCTAAGAGACAACAAAATAAAACAATCTTTTGAGCCTATAGAAGGTCAGAATACTCGGCTAACTCCTAGAAGTAGAGTGGCCGCTACCATAGTATTATCTTCTAGCAATATTGACGTTTTTAGAAACATAATTAGCAATCCTGAAGCTCAGTACGAAATCGGTTCCCATGTTGAAGATCAAAGCAAAATCCTGAACTGTACATATAATTGGTTGGGTTTTGGTGAAGAGGAGAAAGTCTATAACAGACTCTTCCACAGGAAAGACAGATATAATCTGGCGAAAATTGTTTACATGCCTTATTTATTGCATAGCAGCAACCCTGGTGCTACTCAAATTAATTTTAATTCCTTACACGTTCCTCAGTTTAATGTTCCTGGTACGTTTGTTGTTGGTGGTGAAGTGGAAGGTATAGAAGTATTAAAACAAGGAGAATATGATGTAGATAAAGATATTAATATTCGCCCAGGCGGTAAACTTGTTCTGAAGTCTGGTGTGACTTTGAAATTTCCACCTGCTATTGGTATGATGGTGGCAGGAAAACTAGAAGCAAGAGGGAACCGGCCCAATGATATAACTTTCACTCTTAAAGAAGAAATAGTTATGTCAAATGAAACTTATTGTGAAACGGACTCTGAACCAACGACTCCTGGATACATAGATCCCGTAGTACCAATAAGACTTTTGGGCGGGAGAAATCCAAATGAAGGAAGATTACAAGTGAGGATAGATGATAAATGGGGCACTGTGTGTAACTACCGTTGGAATATTATCAATGCAGCATTAGTTTGCAATCAATTAGGCCTTGCTTTGAACCCAGATGATTGGTTCTTAGAGCCAAGTGAAATACCAATTGCAGGAATCACTGAAGACATTATTTTATCAAATGTAGAATGCACTGAATTTGACAATGATATTACAAAATGTAAAGCAGAAACCAGAGACCATTTTGAAAATTCATGTACGCATGATAATGATGTGGGAATCAGATGCTACGAAACAAGTTGGGCGGGAATTAGATTTAGCGTAATATCAGAACGTTCTGATTTACAATATGTTACAATTGAGAAATCTGGACTGTTAGATTATTCTTCGAACCTCTTTAAGCCAGCACTTCAAATTGATTTTGCTAGACACAGTTTGGAAAGCGTTAAAATTGCAAATAATTATCATGATGGGTTGGGTATACTCTATTCTGACTTGTATGGAGCCGATGCGATCAATACCGTCCGAAATTCAGAATTCAGTAACAATAAAGGTAGCGGTATCAGCTTTAAGCAGTTAGGTTTAAAAGTGTATGGATCTACCATAGAAAATAACAATGTGGCCGGCGTATATCACAATCCTCACATCACAGGACCACAGCAAAGAGAAATAGCTGGATGGTTTAATTTAGATGTAGGATTTAACTTCGATGAGTCGAATTACCGTCCCATTATTATTCCCGATTATGAAACCGACATTTCTTTAGTAAACGGTGAAACAAGACATATTGTTTTCGCGAAAAGTCACGGAGAGAATATCGCGAAAACTTATAATATAAAGTGCAATCCTGGTTACGTGCTAGGTTTGCAGTTATTGAATCCAATTCACAACTTCTCGACTGAACGCATTTGTATTTATGATTCTCAAAATATCAACGAAGGGAGTACGCAGTGGTGTCTTGATCGAGACTTATCTACATTTCCTACAACAAGTAATAGTTTTGGCATAGTGCTTACTTACGAGAGTGGTACGTCGGCTTTAGGAGGTGTGGTTTTGGTTGTTAGTACAATTGTAGCTCCAGTACAAAATCTGAGAAACAGAATAATCAAAGGACCAGTACCGACTCTTCAACTGATAAATACAAAAATTAAAGGAAACACAAAAGGTATAAAAGCGCTATACTACAATCGTTATTTAAATGAATTAGGAGATCACTTCTTAAGAAAAGCAAACGAAAGCATCAAAATATTCAATTGCGAAATAGCTCATAATAAGGAAGAAGCTATTTACGTCAATACACCGTTTTGGGATATCCACGAAAGTAACATCACTGAGGTAACTATTATGGTTAACAATAGTCTAATAACAGACAATGGAAAAGGTATATATCACTTTGCCAGAGATCTGAGAAGCTCTAACAATCTGTACCACTATCTCATGCAAGATAATACCATAGAAAGAAATAAACTTGGTGGCTTTGATGTAAGTTTACCGTACGTTTGGCAATACAATGAAAATTTCACACATTCGGTTTACATGTACAATAATACGTGGAGAAACAATCAGAATTTCGGTTTAGTAATAGATGGACATTTCGCTGAAGTGAACCTAACAAAAAATATCTTCACCGATAACAACTGCAAATACGGTCTCATATCGATTCGAGGAATGGAAAAGAAGATGATGGTTGATGGAAATCTTATAGAAAGGAATAATGGTCAATTTATGGTCCAATTCCATATGGACAGTCAAAGTGAAATTATGGGCTTAGTCTATGCTGTTTTTGTTTACAATAAAGTTAAAAATAATCAATACGCGAGCTTCGTTAATCGGGGAGCACAACTTAAGACGGTAGACCCAACATGTGTCATCGGTTTCAAAGGAATTCAAAAAGTGAAAGTGAGCAGAAATTTATTTGGGGGTAATGCTTTAGAATACACCCTTGTGGCTGGCATAAAAACAGCGAAAATAAATAATTTATTAGATGTTACCGAGAATTGGTGGGGCAGTACCATAGAACAGGAAATCAAAAAGCAAATATTTGACTTTGACGACTGGAATAATCATGCTATAGCGGTTTATTTACCGTATCTACTAGAAGAAGATTTCGAAGCAAGCCTTTCACCAACATTTAGTCCTGATAGTGTTATAGATTTAAATGAACTAGGTGGAAGACTGACATCCAATTTAACTATAGAAGCTAGATTAGCTCCGTATGTAATTAGATCAGATATAACAGTAATGCCAGATGTAACTTTGATTATCAACCCTGGTGTAGTAATGGAATTTGCACCGAATGTTGGTATTCTTGTAATGGGTATATTGCAGGCTGCAGGTCACATTCAATTGCCGATCGTAATGAGACCAATAACAACGGCTAGCAATGTGGAAATTAGTAGAAAAGAAAGAGAAGTCGGATTGTATTCCTCAATACACCATCAATATAGGAGACAATTGGAATCGTTCACGTTGCCGAATTCTATTAGGCTTTGCACGGGAAGGAATTGTTCCATTAATGATAATATCGCTGAAAAGCGTAACGAAGGATTTCTCGAATATTACAACAAAACTACACTTCAATGGGTGCCGATGTGTGACAATCGCTTCACAGAAAGGAACGCTCAAGTAGTATGTAGAGAATTGGGTTTTGATCCCATTAATGTATTCTTTTCACATGACCGCCGAGTGGAATATCACAGTAATTCCTTATCTAGAATCTGGTCTTGGCCGGAGCCTTTGCAATGCGTTGGGACTGAGAATCGCTATGACGATTGCCCAATAAGATTAAACGGACAACTATACGGTCATCGGCACGAGTGTAAATGGGATTCTGAATACGTTTTTATACATTGCGGAATGAGGAACCTCGAAGAGGTCTACGACTATTGGGGTGGCATAAGGTTTGCCAATCCTGAATTTGAATATTCACTATACGAACATCGAATTCACGACCATCATACGCACGAAACAATGAAGAAGATGGAAAGCGAGCTTCGCCATCTGCAGATCACTGGTGCAGGATTACTTCACAATGAAAAATCACCAGCAGTTCAAAGTATCGTCAAGAATCCCGTCATAAGGAATGTTAATATAACCAAATGTGCTCATCATGGTATCAATTTAATATCACCGACAGATACTATGAGTATCATGTTTAATTCCGTGAATGACGTACTAGGTGAAGGCGTAAGTGCTATATCTTTGAACGGAGAAGGCAGAGAATCTGAAGAATCTAGTTTTACACCTTTGAAGGATTTAAATCTACCATATCATATGTTTTCGCTGATTGATATTTGTGATAGTACAAAAATGATTACCGTCGAAGAAAGAGTGCTCGTTTATTACAAATACGACAACAATCCAGTCAATTGTGTGAAAATATTCAAGAGTATGTACAGGGTGAAACCGTTCGGATTTCGTCTGCTGCAATTCAATTTATTCAATCATACGACGAATTATGGGAAAAGGGACTCTCTGACTTTGTATGACGGTGACATTTACAACATAACGGCTCCGATGATTGGATATTTAGAAAACGGTTCGCCCGACGAAAAGAAACTGTTTAGAACAGAAGGTGCAAGCTTGAGTATCAAGTTGTTTGCTAATGGCGCTTCGGCTGTTCACGGATTCATAGCTGAAGTCGTAACACTGCCTATATCCGCAATAGGATTCAATCGCGACGTCCAACATAACATATCGAACAGCGAATTCATAAAGAACAGAGACGGCGCGATCACGTATCAATCTGTCGGCGAAGTGAATCCTCTGGTCGCGATCACTAGGAACGAGATCATAGGAAACTGTCTCAAGCTGTACGGAAACTTCACGACCTGCCAGTCCGTTGTTAGAGTGGACGTACAGAATACGCAAACGCTGGTGTTTAGGAATAATTTGGTGCGAGATAACGTCGGCGGGTTGCTCGTTAGGGCAGATTCAAGAGGCTCGGCTACATCCCTTCGCGGCTGGATTCACAATAATCTCTTCTTCAGGAACCACGATTTACCATGTCTTAAAGTGGAAGGTCGTCAGTCCTCGCCGTATCAAGAGGTGACGATATACCGCAATTACTTCACCAGGAATCGGGTGCCGTTCGATGACGTCATCGTTCTGCGTCAAGTCGTCTCCAACTTCACGTACAACTACGTACACGACAACACCGGCCTCCGGATCCTCGAGGTGTCGGGCTTCGATAAAGTCAGACTTCCGATTTATCAGACCACTTCGCATAACGGTTTCTATAAGAACTACGCAACAGATCGCGAAGGCCGAGCCACTATAGTCGCGGGAACAGCCGGTCAGAGCTACGTCGACAATATATTTTTCAATCCCGACAACGACTACGAAATGATTACCGTTAATCGATCTATTTCATTAGACCTATGGCGAACCCGTATCGACGCGAAGCACAACTACTGGAGTTACAACGTGACGTTGGCGGTGGCCGGCCGCATCAGGGACCAGGCCGACGACCCCTCGCTCGTGGAGGTGGACTATCGTCCGTTCTACATGAACAACCTGACGGTGCTGGGGGGCGGGAAGTGTCCCCCGGGCTGGGACGCGCTCGCCGGCACCTGCTACATGTACGTCGGGGCTCCCATGACGTACGACGAAGCCAGACAGTTCTGCTTGTCCGACAACGCGTCGATGCCGTACGTGACGGGCAAGTACGAGGTGCTGTACGACTTCATCCACCGTCAGAACCAGTGGTTCCAGTACGGGGACAGGGTCTGGGTCAACCACATCGATTACGTCACGCAGTGCACCTCGTTCGCCTTCTCCTCAGTCGAGATCACCGACTGTAATCAGAAGAACGCTTTTATTTGCGAGATCGATCCGAAAATAGTGATAGACCCGATGTCTTGGCGTGGGGACTCTCTGGCGGTGGCGTTTATCGGCGTGCTGGTAGCAGCCGTGCTGCTGGTAGGCGCGGCGCTCGTCTGCTGGTACACCAAGTCGAAGCACAGACACGTTCAGAGATTAGAGAGGCGAAATTCAATCAGACAGTCGCTGCATTCGGTGCGGTCTATTGGAAGCATCAACGGGGGATTCCCCGATACGAACTACAGAAGGAAGATGGCGCAAATGAGCACCCGTTCCACGGAAACCCTTACGAAGGGCTCTGATTACCGCAAGATGTTGGCTTCAACCGTCTCAATGGAGTCGATGGAGAAGAGTCAATTCAATTCCTCGATCGAAGACAACCAAAGCTTCGACGTTTACGAAGCTCACAACCTGAACAACATAATACAGCTGAAGCACAGTAATTTCGTTAAGAAACCGAACAGTCCAGAATATTCTGTGCCCCAAAACAACGCTAGGCCCTTTAATTTAGCGTTTAGGAACGACGGCTACAGAGACTCCGGTCAGAATAGTGGTGCACCCTCAATCAGCACGGTGATGACCGAAGAAATCCCGATCATTCATCATCCGGGTGGAATGAGTTCGCCTCAGGACGACGAGATGTTGTCTCCTACAAATAACGCGCAATATTACGCATCGGACACTCTGCCGCTGCGAGATCTCGGCAGATCTGATGATAATCTAGAATTCAAGAGGGATCCGGATAAAGAAGGGAAAATGTATGGGCCCTACGGTGCGCCTAATTACGGGGGTCAACCGAAGCTCTCGTTCTTGATGGAGTTGAGGTCGAAAATGCCCGATCAGCCACAAGCCGGTTCCACGCCGACCACTACGTTTGGTCAGAGAAATAATATTCCAGATCATCAGCCATACTACGAAGATAATCTACCTTCCCCTCAGCCGCCGGTATACTCCAGTCCCTACAGCGACAACACGCAATCCGAGATGATACCGAGCTACGACTCGAGTCCGCAGGATTTATCCAGAGAGTTCGACGAGTCGCCACTACCCGAACTACACCACAAATCAAAGTCCGAAGCGTTACTGGAAACGAATTTCGATTTTGACGACGACACCAGCCCTTTGCCGATTTCGGAAGCCTGTCGCTCGCACAGTCAACCTTTAGAAACGGCAATGTAA
Protein
MKCSKETSVQKKHSQFSDTKYKWRTVIVILCCFIECKGQELSATDPYLVNKSTGLTELPGGVLAGGRTVWKPDNSPYLLRDDLLLERDAELVIEPGVEVRFAPMIGITVRGKLIAVGDHQSKVTFTSTEEIVTEAKPIPDIRLVDGPSILVGRVQLLHRGQWRSVCTNSRNWTINDMETACRQLGFVGGSFYNWIDRQPGRRARLLYEEPKCKGTEYDLFQCDWNSRQLGSGVCDYHPDFALRCLPRHDVNGNPARHWRGIRFENAVFERVLTLSNTLYVPTSMSRLSHVVIKNAGLGRDNTATSALDVVGVPPEMNDLEVSNSAFNAINVTSPNAPIVINNCTIQNNRGYGVYVNSTYGMVKIENCMIHDNGGDGVRYVVHEINLDERFDRSEIFDLCTLASTPSQTFPIQMSIEQSRYSNMERDCNQKFYTISDHVLTLSFLKILTNQNDTGEIYVYDGLTTDDRLLLSFSLRNFTRPQSVTSTRNRMYVRFRANTRTDITGFLRLTSGVSKTYDLNVTDTIISDNNGRGVAIENLRSQIHIHRTSISNNNHVAGLHVVSGAGDVNVTESRISFNQGDGVNITVTGGNRNISRSILSSNQGHAVAVWLNDTSETEYVALNQTTVIEYSEIFKNLDVGIMHGNFCGNSWVNITGNWFNTSSESTINILTCWRLNNPIKLLNLQIGHNRFYENQKVPVKIQPALNVNGRIEHNYFEQGSYGAIVILNRIEGNYIEEFEMLPANFRIQQNYFFGNRGPFVVNLGLSPYSDIQYILFTRNYLRDNKIKQSFEPIEGQNTRLTPRSRVAATIVLSSSNIDVFRNIISNPEAQYEIGSHVEDQSKILNCTYNWLGFGEEEKVYNRLFHRKDRYNLAKIVYMPYLLHSSNPGATQINFNSLHVPQFNVPGTFVVGGEVEGIEVLKQGEYDVDKDINIRPGGKLVLKSGVTLKFPPAIGMMVAGKLEARGNRPNDITFTLKEEIVMSNETYCETDSEPTTPGYIDPVVPIRLLGGRNPNEGRLQVRIDDKWGTVCNYRWNIINAALVCNQLGLALNPDDWFLEPSEIPIAGITEDIILSNVECTEFDNDITKCKAETRDHFENSCTHDNDVGIRCYETSWAGIRFSVISERSDLQYVTIEKSGLLDYSSNLFKPALQIDFARHSLESVKIANNYHDGLGILYSDLYGADAINTVRNSEFSNNKGSGISFKQLGLKVYGSTIENNNVAGVYHNPHITGPQQREIAGWFNLDVGFNFDESNYRPIIIPDYETDISLVNGETRHIVFAKSHGENIAKTYNIKCNPGYVLGLQLLNPIHNFSTERICIYDSQNINEGSTQWCLDRDLSTFPTTSNSFGIVLTYESGTSALGGVVLVVSTIVAPVQNLRNRIIKGPVPTLQLINTKIKGNTKGIKALYYNRYLNELGDHFLRKANESIKIFNCEIAHNKEEAIYVNTPFWDIHESNITEVTIMVNNSLITDNGKGIYHFARDLRSSNNLYHYLMQDNTIERNKLGGFDVSLPYVWQYNENFTHSVYMYNNTWRNNQNFGLVIDGHFAEVNLTKNIFTDNNCKYGLISIRGMEKKMMVDGNLIERNNGQFMVQFHMDSQSEIMGLVYAVFVYNKVKNNQYASFVNRGAQLKTVDPTCVIGFKGIQKVKVSRNLFGGNALEYTLVAGIKTAKINNLLDVTENWWGSTIEQEIKKQIFDFDDWNNHAIAVYLPYLLEEDFEASLSPTFSPDSVIDLNELGGRLTSNLTIEARLAPYVIRSDITVMPDVTLIINPGVVMEFAPNVGILVMGILQAAGHIQLPIVMRPITTASNVEISRKEREVGLYSSIHHQYRRQLESFTLPNSIRLCTGRNCSINDNIAEKRNEGFLEYYNKTTLQWVPMCDNRFTERNAQVVCRELGFDPINVFFSHDRRVEYHSNSLSRIWSWPEPLQCVGTENRYDDCPIRLNGQLYGHRHECKWDSEYVFIHCGMRNLEEVYDYWGGIRFANPEFEYSLYEHRIHDHHTHETMKKMESELRHLQITGAGLLHNEKSPAVQSIVKNPVIRNVNITKCAHHGINLISPTDTMSIMFNSVNDVLGEGVSAISLNGEGRESEESSFTPLKDLNLPYHMFSLIDICDSTKMITVEERVLVYYKYDNNPVNCVKIFKSMYRVKPFGFRLLQFNLFNHTTNYGKRDSLTLYDGDIYNITAPMIGYLENGSPDEKKLFRTEGASLSIKLFANGASAVHGFIAEVVTLPISAIGFNRDVQHNISNSEFIKNRDGAITYQSVGEVNPLVAITRNEIIGNCLKLYGNFTTCQSVVRVDVQNTQTLVFRNNLVRDNVGGLLVRADSRGSATSLRGWIHNNLFFRNHDLPCLKVEGRQSSPYQEVTIYRNYFTRNRVPFDDVIVLRQVVSNFTYNYVHDNTGLRILEVSGFDKVRLPIYQTTSHNGFYKNYATDREGRATIVAGTAGQSYVDNIFFNPDNDYEMITVNRSISLDLWRTRIDAKHNYWSYNVTLAVAGRIRDQADDPSLVEVDYRPFYMNNLTVLGGGKCPPGWDALAGTCYMYVGAPMTYDEARQFCLSDNASMPYVTGKYEVLYDFIHRQNQWFQYGDRVWVNHIDYVTQCTSFAFSSVEITDCNQKNAFICEIDPKIVIDPMSWRGDSLAVAFIGVLVAAVLLVGAALVCWYTKSKHRHVQRLERRNSIRQSLHSVRSIGSINGGFPDTNYRRKMAQMSTRSTETLTKGSDYRKMLASTVSMESMEKSQFNSSIEDNQSFDVYEAHNLNNIIQLKHSNFVKKPNSPEYSVPQNNARPFNLAFRNDGYRDSGQNSGAPSISTVMTEEIPIIHHPGGMSSPQDDEMLSPTNNAQYYASDTLPLRDLGRSDDNLEFKRDPDKEGKMYGPYGAPNYGGQPKLSFLMELRSKMPDQPQAGSTPTTTFGQRNNIPDHQPYYEDNLPSPQPPVYSSPYSDNTQSEMIPSYDSSPQDLSREFDESPLPELHHKSKSEALLETNFDFDDDTSPLPISEACRSHSQPLETAM
Summary
Description
Required for the maturation but not the establishment of septate junctions in developing epithelial cells and is involved in epithelial cell adhesion during septate junction maturation (PubMed:25704509). Plays a role in the proper localization of the septate junction core components pck/mega, kune, Nrx-IV and Nrg during late embryogenesis (PubMed:25704509). Involved in the formation of tricellular junctions which mediate cell contact where three epithelial cells meet but not of bicellular junctions (PubMed:25982676). Required for the accumulation of Gli at tricellular junctions.
Miscellaneous
The name 'bark beetle' derives from the convoluted tracheal branches seen in mutant embryos which resemble the tracks of bark beetle larvae (PubMed:25704509). The name 'anakonda' is also based on the convoluted tracheal tube phenotype of mutant embryos (PubMed:25982676).
Keywords
Alternative splicing
Cell junction
Cell membrane
Complete proteome
Disulfide bond
Glycoprotein
Membrane
Reference proteome
Repeat
Signal
Tight junction
Transmembrane
Transmembrane helix
Feature
chain Protein bark beetle
splice variant In isoform A.
splice variant In isoform A.
Uniprot
H9J6Q7
A0A2A4JNJ3
A0A2A4JQC2
A0A3S2P127
A0A0L7LC19
A0A194PVR5
+ More
A0A194REM0 A0A212EXL4 A0A1E1WD89 D2A2I4 A0A139WIK5 A0A1Y1LA89 A0A1Y1LA78 A0A0C9R744 A0A0C9QHQ1 K7IQQ0 A0A3L8DW41 E2ABC5 E2C1W1 U4U677 A0A158NXS4 A0A182KUJ7 Q7PVZ0 A0A1Y9IZW8 A0A182V412 A0A182U9D8 A0A232FG24 A0A182Q5T5 A0A084WC34 A0A2J7RC52 A0A1S4F063 A0A088ADS2 Q17JT6 A0A2M4B834 A0A2M4B829 A0A182I534 A0A182JJ94 A0A182YCJ1 A0A182RIY4 A0A182WH37 A0A182MWF6 A0A182F2F8 A0A182PFN8 A0A182K017 A0A182NF14 F4W9C8 A0A2M4A0E5 B0XJU0 E0W3B4 W5JL77 A0A1Y1LCE8 A0A026WQ57 A0A0A1WLP3 A0A0A1WT14 A0A0K8VEU6 W8B9B7 A0A0K8VVP7 A0A1I8PUF3 A0A1I8MTD3 Q29MF6 A0A3B0K232 A0A1Y1LA72 B3MLR8 B4KJY2 M9NDE3-2 A0A1W4UTU6 B4MVA7 A0A0J9QVB4 B3N380 M9NDE3 B4NYF6 A0A0J9QVF5 A0A023F071 B4I339 B4LRR1 B4JQJ9 A0A1A9XV75 A0A2M4CZ74 A0A0M4EBM5 A0A2M4CNW9 A0A1A9WLV8 A0A146LCT9 A0A1B0FNK6 A0A1W7R6W2 A0A1B0A603 T1HH96 A0A0A9YQ84 A0A151J475 A0A1B0BTP4 A0A1V1FT29 A0A1V1FIQ1 A0A226DCY5 A0A182T3A6 A0A1L8DN04 A0A1B0BC75 A0A0P5Q056 A0A0P5JFA7 A0A0P6GPK0
A0A194REM0 A0A212EXL4 A0A1E1WD89 D2A2I4 A0A139WIK5 A0A1Y1LA89 A0A1Y1LA78 A0A0C9R744 A0A0C9QHQ1 K7IQQ0 A0A3L8DW41 E2ABC5 E2C1W1 U4U677 A0A158NXS4 A0A182KUJ7 Q7PVZ0 A0A1Y9IZW8 A0A182V412 A0A182U9D8 A0A232FG24 A0A182Q5T5 A0A084WC34 A0A2J7RC52 A0A1S4F063 A0A088ADS2 Q17JT6 A0A2M4B834 A0A2M4B829 A0A182I534 A0A182JJ94 A0A182YCJ1 A0A182RIY4 A0A182WH37 A0A182MWF6 A0A182F2F8 A0A182PFN8 A0A182K017 A0A182NF14 F4W9C8 A0A2M4A0E5 B0XJU0 E0W3B4 W5JL77 A0A1Y1LCE8 A0A026WQ57 A0A0A1WLP3 A0A0A1WT14 A0A0K8VEU6 W8B9B7 A0A0K8VVP7 A0A1I8PUF3 A0A1I8MTD3 Q29MF6 A0A3B0K232 A0A1Y1LA72 B3MLR8 B4KJY2 M9NDE3-2 A0A1W4UTU6 B4MVA7 A0A0J9QVB4 B3N380 M9NDE3 B4NYF6 A0A0J9QVF5 A0A023F071 B4I339 B4LRR1 B4JQJ9 A0A1A9XV75 A0A2M4CZ74 A0A0M4EBM5 A0A2M4CNW9 A0A1A9WLV8 A0A146LCT9 A0A1B0FNK6 A0A1W7R6W2 A0A1B0A603 T1HH96 A0A0A9YQ84 A0A151J475 A0A1B0BTP4 A0A1V1FT29 A0A1V1FIQ1 A0A226DCY5 A0A182T3A6 A0A1L8DN04 A0A1B0BC75 A0A0P5Q056 A0A0P5JFA7 A0A0P6GPK0
Pubmed
19121390
26227816
26354079
22118469
18362917
19820115
+ More
28004739 20075255 30249741 20798317 23537049 21347285 20966253 12364791 28648823 24438588 17510324 25244985 21719571 20566863 20920257 23761445 24508170 25830018 24495485 25315136 15632085 17994087 10731132 12537572 25704509 25982676 22936249 17550304 25474469 18057021 26823975 25401762 28410430
28004739 20075255 30249741 20798317 23537049 21347285 20966253 12364791 28648823 24438588 17510324 25244985 21719571 20566863 20920257 23761445 24508170 25830018 24495485 25315136 15632085 17994087 10731132 12537572 25704509 25982676 22936249 17550304 25474469 18057021 26823975 25401762 28410430
EMBL
BABH01038116
BABH01038117
BABH01038118
NWSH01000898
PCG73645.1
PCG73643.1
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RSAL01000060 RVE49659.1 JTDY01001732 KOB73052.1 KQ459592 KPI96854.1 KQ460325 KPJ15735.1 AGBW02011721 OWR46233.1 GDQN01006157 JAT84897.1 KQ971338 EFA02868.2 KYB27838.1 GEZM01061338 JAV70554.1 GEZM01061341 JAV70549.1 GBYB01008622 GBYB01008623 JAG78389.1 JAG78390.1 GBYB01000097 JAG69864.1 QOIP01000003 RLU24532.1 GL438237 EFN69246.1 GL452008 EFN78073.1 KB631697 ERL85455.1 ADTU01003477 ADTU01003478 ADTU01003479 ADTU01003480 AAAB01008984 EAA15063.5 NNAY01000250 OXU29704.1 AXCN02000834 ATLV01022554 ATLV01022555 KE525333 KFB47778.1 NEVH01005887 PNF38410.1 CH477230 EAT46976.1 GGFJ01000010 MBW49151.1 GGFJ01000009 MBW49150.1 APCN01003774 AXCM01002204 GL888002 EGI69310.1 GGFK01000932 MBW34253.1 DS233614 EDS30785.1 DS235882 EEB20120.1 ADMH02001245 ETN63519.1 GEZM01061343 GEZM01061340 JAV70551.1 KK107151 EZA57239.1 GBXI01014530 JAC99761.1 GBXI01012729 JAD01563.1 GDHF01014913 JAI37401.1 GAMC01020191 JAB86364.1 GDHF01009689 JAI42625.1 CH379060 EAL33738.3 OUUW01000004 SPP79061.1 GEZM01061345 GEZM01061344 GEZM01061342 GEZM01061339 JAV70544.1 CH902620 EDV30789.2 CH933807 EDW12585.2 AE014134 CH963857 EDW76452.2 CM002910 KMY87988.1 CH954177 EDV57679.2 CM000157 EDW87589.2 KMY87986.1 KMY87987.1 GBBI01003822 JAC14890.1 CH480820 EDW54184.1 CH940649 EDW64663.2 KRF81776.1 KRF81777.1 CH916372 EDV99179.1 GGFL01005980 MBW70158.1 CP012523 ALC38872.1 GGFL01002836 MBW67014.1 GDHC01012476 JAQ06153.1 CCAG010015957 GEHC01000753 JAV46892.1 ACPB03024982 GBHO01008409 GBHO01008407 JAG35195.1 JAG35197.1 KQ980168 KYN17335.1 JXJN01020293 FX985262 BAX07275.1 FX985261 BAX07274.1 LNIX01000025 OXA42694.1 GFDF01006317 JAV07767.1 JXJN01011878 GDIQ01131108 JAL20618.1 GDIQ01203135 JAK48590.1 GDIQ01030601 JAN64136.1
RSAL01000060 RVE49659.1 JTDY01001732 KOB73052.1 KQ459592 KPI96854.1 KQ460325 KPJ15735.1 AGBW02011721 OWR46233.1 GDQN01006157 JAT84897.1 KQ971338 EFA02868.2 KYB27838.1 GEZM01061338 JAV70554.1 GEZM01061341 JAV70549.1 GBYB01008622 GBYB01008623 JAG78389.1 JAG78390.1 GBYB01000097 JAG69864.1 QOIP01000003 RLU24532.1 GL438237 EFN69246.1 GL452008 EFN78073.1 KB631697 ERL85455.1 ADTU01003477 ADTU01003478 ADTU01003479 ADTU01003480 AAAB01008984 EAA15063.5 NNAY01000250 OXU29704.1 AXCN02000834 ATLV01022554 ATLV01022555 KE525333 KFB47778.1 NEVH01005887 PNF38410.1 CH477230 EAT46976.1 GGFJ01000010 MBW49151.1 GGFJ01000009 MBW49150.1 APCN01003774 AXCM01002204 GL888002 EGI69310.1 GGFK01000932 MBW34253.1 DS233614 EDS30785.1 DS235882 EEB20120.1 ADMH02001245 ETN63519.1 GEZM01061343 GEZM01061340 JAV70551.1 KK107151 EZA57239.1 GBXI01014530 JAC99761.1 GBXI01012729 JAD01563.1 GDHF01014913 JAI37401.1 GAMC01020191 JAB86364.1 GDHF01009689 JAI42625.1 CH379060 EAL33738.3 OUUW01000004 SPP79061.1 GEZM01061345 GEZM01061344 GEZM01061342 GEZM01061339 JAV70544.1 CH902620 EDV30789.2 CH933807 EDW12585.2 AE014134 CH963857 EDW76452.2 CM002910 KMY87988.1 CH954177 EDV57679.2 CM000157 EDW87589.2 KMY87986.1 KMY87987.1 GBBI01003822 JAC14890.1 CH480820 EDW54184.1 CH940649 EDW64663.2 KRF81776.1 KRF81777.1 CH916372 EDV99179.1 GGFL01005980 MBW70158.1 CP012523 ALC38872.1 GGFL01002836 MBW67014.1 GDHC01012476 JAQ06153.1 CCAG010015957 GEHC01000753 JAV46892.1 ACPB03024982 GBHO01008409 GBHO01008407 JAG35195.1 JAG35197.1 KQ980168 KYN17335.1 JXJN01020293 FX985262 BAX07275.1 FX985261 BAX07274.1 LNIX01000025 OXA42694.1 GFDF01006317 JAV07767.1 JXJN01011878 GDIQ01131108 JAL20618.1 GDIQ01203135 JAK48590.1 GDIQ01030601 JAN64136.1
Proteomes
UP000005204
UP000218220
UP000283053
UP000037510
UP000053268
UP000053240
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UP000007151 UP000007266 UP000002358 UP000279307 UP000000311 UP000008237 UP000030742 UP000005205 UP000075882 UP000007062 UP000076407 UP000075903 UP000075902 UP000215335 UP000075886 UP000030765 UP000235965 UP000005203 UP000008820 UP000075840 UP000075880 UP000076408 UP000075900 UP000075920 UP000075883 UP000069272 UP000075885 UP000075881 UP000075884 UP000007755 UP000002320 UP000009046 UP000000673 UP000053097 UP000095300 UP000095301 UP000001819 UP000268350 UP000007801 UP000009192 UP000000803 UP000192221 UP000007798 UP000008711 UP000002282 UP000001292 UP000008792 UP000001070 UP000092443 UP000092553 UP000091820 UP000092444 UP000092445 UP000015103 UP000078492 UP000092460 UP000198287 UP000075901
UP000007151 UP000007266 UP000002358 UP000279307 UP000000311 UP000008237 UP000030742 UP000005205 UP000075882 UP000007062 UP000076407 UP000075903 UP000075902 UP000215335 UP000075886 UP000030765 UP000235965 UP000005203 UP000008820 UP000075840 UP000075880 UP000076408 UP000075900 UP000075920 UP000075883 UP000069272 UP000075885 UP000075881 UP000075884 UP000007755 UP000002320 UP000009046 UP000000673 UP000053097 UP000095300 UP000095301 UP000001819 UP000268350 UP000007801 UP000009192 UP000000803 UP000192221 UP000007798 UP000008711 UP000002282 UP000001292 UP000008792 UP000001070 UP000092443 UP000092553 UP000091820 UP000092444 UP000092445 UP000015103 UP000078492 UP000092460 UP000198287 UP000075901
Interpro
IPR039448
Beta_helix
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IPR017448 SRCR-like_dom
IPR016187 CTDL_fold
IPR006626 PbH1
IPR036772 SRCR-like_dom_sf
IPR012334 Pectin_lyas_fold
IPR001190 SRCR
IPR016186 C-type_lectin-like/link_sf
IPR011050 Pectin_lyase_fold/virulence
IPR035914 Sperma_CUB_dom_sf
IPR008646 Herpes_UL45-like
IPR000859 CUB_dom
IPR000095 CRIB_dom
IPR017448 SRCR-like_dom
IPR016187 CTDL_fold
IPR006626 PbH1
IPR036772 SRCR-like_dom_sf
IPR012334 Pectin_lyas_fold
IPR001190 SRCR
IPR016186 C-type_lectin-like/link_sf
IPR011050 Pectin_lyase_fold/virulence
IPR035914 Sperma_CUB_dom_sf
IPR008646 Herpes_UL45-like
IPR000859 CUB_dom
IPR000095 CRIB_dom
CDD
ProteinModelPortal
H9J6Q7
A0A2A4JNJ3
A0A2A4JQC2
A0A3S2P127
A0A0L7LC19
A0A194PVR5
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A0A194REM0 A0A212EXL4 A0A1E1WD89 D2A2I4 A0A139WIK5 A0A1Y1LA89 A0A1Y1LA78 A0A0C9R744 A0A0C9QHQ1 K7IQQ0 A0A3L8DW41 E2ABC5 E2C1W1 U4U677 A0A158NXS4 A0A182KUJ7 Q7PVZ0 A0A1Y9IZW8 A0A182V412 A0A182U9D8 A0A232FG24 A0A182Q5T5 A0A084WC34 A0A2J7RC52 A0A1S4F063 A0A088ADS2 Q17JT6 A0A2M4B834 A0A2M4B829 A0A182I534 A0A182JJ94 A0A182YCJ1 A0A182RIY4 A0A182WH37 A0A182MWF6 A0A182F2F8 A0A182PFN8 A0A182K017 A0A182NF14 F4W9C8 A0A2M4A0E5 B0XJU0 E0W3B4 W5JL77 A0A1Y1LCE8 A0A026WQ57 A0A0A1WLP3 A0A0A1WT14 A0A0K8VEU6 W8B9B7 A0A0K8VVP7 A0A1I8PUF3 A0A1I8MTD3 Q29MF6 A0A3B0K232 A0A1Y1LA72 B3MLR8 B4KJY2 M9NDE3-2 A0A1W4UTU6 B4MVA7 A0A0J9QVB4 B3N380 M9NDE3 B4NYF6 A0A0J9QVF5 A0A023F071 B4I339 B4LRR1 B4JQJ9 A0A1A9XV75 A0A2M4CZ74 A0A0M4EBM5 A0A2M4CNW9 A0A1A9WLV8 A0A146LCT9 A0A1B0FNK6 A0A1W7R6W2 A0A1B0A603 T1HH96 A0A0A9YQ84 A0A151J475 A0A1B0BTP4 A0A1V1FT29 A0A1V1FIQ1 A0A226DCY5 A0A182T3A6 A0A1L8DN04 A0A1B0BC75 A0A0P5Q056 A0A0P5JFA7 A0A0P6GPK0
A0A194REM0 A0A212EXL4 A0A1E1WD89 D2A2I4 A0A139WIK5 A0A1Y1LA89 A0A1Y1LA78 A0A0C9R744 A0A0C9QHQ1 K7IQQ0 A0A3L8DW41 E2ABC5 E2C1W1 U4U677 A0A158NXS4 A0A182KUJ7 Q7PVZ0 A0A1Y9IZW8 A0A182V412 A0A182U9D8 A0A232FG24 A0A182Q5T5 A0A084WC34 A0A2J7RC52 A0A1S4F063 A0A088ADS2 Q17JT6 A0A2M4B834 A0A2M4B829 A0A182I534 A0A182JJ94 A0A182YCJ1 A0A182RIY4 A0A182WH37 A0A182MWF6 A0A182F2F8 A0A182PFN8 A0A182K017 A0A182NF14 F4W9C8 A0A2M4A0E5 B0XJU0 E0W3B4 W5JL77 A0A1Y1LCE8 A0A026WQ57 A0A0A1WLP3 A0A0A1WT14 A0A0K8VEU6 W8B9B7 A0A0K8VVP7 A0A1I8PUF3 A0A1I8MTD3 Q29MF6 A0A3B0K232 A0A1Y1LA72 B3MLR8 B4KJY2 M9NDE3-2 A0A1W4UTU6 B4MVA7 A0A0J9QVB4 B3N380 M9NDE3 B4NYF6 A0A0J9QVF5 A0A023F071 B4I339 B4LRR1 B4JQJ9 A0A1A9XV75 A0A2M4CZ74 A0A0M4EBM5 A0A2M4CNW9 A0A1A9WLV8 A0A146LCT9 A0A1B0FNK6 A0A1W7R6W2 A0A1B0A603 T1HH96 A0A0A9YQ84 A0A151J475 A0A1B0BTP4 A0A1V1FT29 A0A1V1FIQ1 A0A226DCY5 A0A182T3A6 A0A1L8DN04 A0A1B0BC75 A0A0P5Q056 A0A0P5JFA7 A0A0P6GPK0
PDB
5ZE3
E-value=6.21475e-09,
Score=153
Ontologies
GO
Topology
Subcellular location
Cell membrane
Found at tricellular contacts. With evidence from 6 publications.
Cell junction Found at tricellular contacts. With evidence from 6 publications.
Septate junction Found at tricellular contacts. With evidence from 6 publications.
Adherens junction Found at tricellular contacts. With evidence from 6 publications.
Tight junction Found at tricellular contacts. With evidence from 6 publications.
Cell junction Found at tricellular contacts. With evidence from 6 publications.
Septate junction Found at tricellular contacts. With evidence from 6 publications.
Adherens junction Found at tricellular contacts. With evidence from 6 publications.
Tight junction Found at tricellular contacts. With evidence from 6 publications.
Length:
3012
Number of predicted TMHs:
1
Exp number of AAs in TMHs:
23.62813
Exp number, first 60 AAs:
0.14084
Total prob of N-in:
0.00709
outside
1 - 2639
TMhelix
2640 - 2662
inside
2663 - 3012
Population Genetic Test Statistics
Pi
24.448045
Theta
24.32537
Tajima's D
-1.075825
CLR
0.950886
CSRT
0.12374381280936
Interpretation
Uncertain
