Gene
KWMTBOMO00191 Validated by peptides from experiments
Pre Gene Modal
BGIBMGA000624
Annotation
titin2_[Bombyx_mori]
Full name
Titin
Alternative Name
D-Titin
Kettin
Kettin
Location in the cell
Nuclear Reliability : 3.198
Sequence
CDS
ATGGCTATCGGTTGTCCGGCTAACATGGCCAGCCCATTGCCACCTCAGCTAACTAATTTGCTGTGCTATGTCTATAGCTCGCTGAGCGACTTTAAGCTTGTAGATCAGCCCAACCATGCTGAATTTAAACCTATAACAGAAGTAATGAAACCTAAAAGTAATGAAAAAGAAGTTCTGAGTGATTCCAGCGAGGACAAAATTATACCTCCGGAAGAACAAAAATCTGAGCCAAAGTTATTATTAAATAATAAAAAAAGTAAAGATAAACCAATTCTCCGAAAACTTCAAATTGAAGAACTAGAAAGTAGTAAACCTCAGCATCCAGAAGAAATGACCGTGCCGCAATTCTCTAAACTGAAACTAAAAAAATCTTCTGTTTTACCTAAACAAGAGCCTGCAGTTGTTAAACTTCCTAAATTCCAACTAAAAAGTCGCATTAAATTCATAAGAGACTGGCCACCTCAAGAAATGAAACCAATAGTTACTTATCTAGGCAGTATTAAACAAAATGGAGAGTTATCGAGAAACGTAAAAGAAGCAAATAAAATCAAAAAGAAAAAGCTGAAACTGCCCAAAATTCCCGACTTAGAAAGAGTGACATTGGAAAAATCGGACTTATTTGATTCCCAAGAGGATGAATCAAAACCAGATGTGAGTCAACCGCCCCAAAATATAATTGAAGAAGCGAAAAGCGAACCAAAACTAATAGAAGAATCCGAACAACCAATTGCAAAAACATCAGAAATTGACAATGAAGTACCAGAAAAAATAAATGTTCCTGATGATAAAGAAACTTCACAAACTCCTACTTCATTTAACAAGAGATCTAAACTCACCCCTATTAAAATAGAGCGAAAAGAAATGGAAGTAAGTACACCACAACACGCAGAAACTGTAGATGGGCCTCAATTCACCCTGCCTAAATTGAAGAAAACTGCAGTAAAACCCAAAAAGGAAACTAGCCTTGTTAAATTACCTAAATTTCAATTAAAAAGCAGAATTAAATATATTACTAGCTGGCCCCCTGAATCCATCAAACCTCTTATTTCATACATGGGTAGCATAAAACAAAATGGAATTTTATCGAGAAATATAAAAGAGGCCGCCAAAGTTAAAAAACAAGTGTTCGTACCTCCAAAATTGCCCGATGTAGAAAAAACAGAATTAGAACAACCGTTATTTAGTTATGAAGACATTGTAGAAAGTAAAAAAGATGAAAATGAAATTATTCAAGAAAAACAAACTCTTGAGGAATTGCCTAAAGAAGATGTGCCTGAACAGTATACTATAACTCCTAGAAAATCAAGCGCACAAAAGATTGATGAGATAGTAGATGAAGTAACTATTAAAAAGAGATTGAAACCCGTTCGAAAATCTTCTGTAACTTTACCTGAAATAACAGAACCTGAAGTAGTAACATTTAGGCCAAAAATTACGAAAACCAAAGAAGATGTGGAGCAGGAATTTAACATCCAGTTAGACTCTTATGCTGAAGAAGAAATTTCAATGTCAAGCAAAGTAAAACTAAAGCCTCAAAAACAACTGACATTTAAAGAAGAAGATGCTGAAACATCTATTCAATTTTATGAGAAAGGCCAAGACGAAAGTCCAGAAATAATTGAAATAGTAGACAGTGACGTTGAAAAAGAAGAATCAGAATCAGCCAACATTATGATACCGCTCAAGAAAAAGCTTGAAACTAAGAATGTCTTAGAAACCGTTGAATCTGTAGTGACTTTATCTAAACCTAAGCTACAAAACGATAATGAAATATCCGAAGTTGTATGTATTGAACTAGAGAAAAAGCCAAAGTACATCGTAGATGACCAAGATGAAGTGCAATTTGAAGTAAAACCTCGTGCTACCGAAGTTACTACCTTTTCAAGCAATATTAAAGTTAAGCCGAAAAAGAAAATGTCAATTATAGAAGCTGCAGATGAAACTTTGTTGCAAATCCATAAGGAAATTGATGATGAAAGTCAACCTGAAGAAATTATCATGAGTGATGGTGACACTGAAGAAAACATCGAAATGATTATAAAAAGAAAACCGAAAAAACCAACATACGAAATAAGCGAAGTGGAAGAACTAAGCGTCGAATTCAAACCAAAACAAATGAAGGATGAAAATAATGAAGGTGAACTTACTATTTCAACAAAACGAAAACCAAAGTCTCTTATAATACAAGAAGCTGACGCGACGATGAGTATTTCGCGAGAACAAGAATTCCCAGATACGCCCGTTGAAGTCCGCTGTGGTGACACAGTATTTGCTGTATATTCGTACGTGGCAGAAACTGATGAAGCTATAAATCTTGTTGAGGGCGAACGACTATATATCCTTGACACTTCCAATCAAGATTGGTGGTACGTACAAAAACATTTAACGGAAGAGAAAGGCTGGGTACCTGCACAATATCTCATGGATGAAAATAATTACACGCAATATCTGCAGAAAAAATTGAACGAGAAAATAGATAAACTACCTGTTTTCGAAAAACCGACGTCAGAAGAACAATCCATGGCTCCAATATTTGTTGAGAAATTACGTCCAAAACATACTCCCGATGGATCAACAGTGCAATTCGAATGTCAAGTTGAAGGTTATCCTAGGCCACAGATAACATGGTTCCGACAAACAGCTATAATCAAGCCTTCGCAGGATTTCCAAATGTATTATGATGATGATAACGTGGCTACATTGGTAATTCGTGAGGTGTTCCCTGAAGATGCCGGTACTTTTACATGCGTAGCGAAGAATGCGGCAGGATTTGCTTCCAGCACTACAGAACTAATTGTGGAAGCTCCTCTTTCTGATCACGGTTCTGAAATGACTGTATTATCAAGGAAAAGCTTATCTAGAGAATCATCGTTGGCTGATATTTTGGAAGGGATACCACCAACCTTTTCTAAAAAACCAAAAGCACAATACGTTGATGAAGGATCGGATATATTATTAGAATGTAGACTTGTGGCTATACCAGAGCCAGATATAGCGTGGTTATTCAAAGGCGAAGAAATAGTACCCGATGAAAATATCTCTGTAGCCATAGAGTCCGATATGCACATGTACTGCAGTGTTCTAAAAATAACAAATGTTAAAAAATTCCAAGAGGGTACTTATACTGTGGTGGCCGTCAATAGAGAAGGCGAAGCCAGTCTTCCTATTGTTCTAAAAATTAAAACGGGAGAAAAAGAACCGCCTCAAGTTATTGAGCCGCTAAAAAGCATGATTGTTAGACAAGGTGAAAGTGTTATACTATCAGCACAAGTGGTTGGTAATCCCCGACCAACAATTACCTGGTGTAAAAATAATAAACCTGTTAAGGCCTTGCCAACCAAATCAGATGGTGATACACACAGTATAACAATTCTTAAGCCAAAGAAAGTTAAAGATGAAGGGGTTTATACATTAAAAGCTGAGAATTCTGAAGGTATTGCGGAAACCAGTGCTGTTATTACTGTTGAAGAACCAACAGAGGAAAATGCTGAACCCCCACTTTTTATTAATCGATTCCAAGAAATCACGGTGAAAGAAAAGGGTACCATAAAATTAGTCGCTAGAGTAACAGGGAATCCAGTTCCATCAATAACGTGGTATAGAAACAATGAAATTATTAGCCCATCGGAAACGATTACTCAAAACTTTGACGGTGAAAATATTGAGCTTGTTATAACAAACGTAGATTCAGAGATTGATTCAGGCGATTATAAATGTGTTGCCTCGAACAGTGCTGGTAAATCATCTCACGGAGCCCGAGTCACTATCGATGTTGAGAAAGTAACATTCGTTAAGCATCTACAGAAATCTTACGAAACCGAGGAAGGTAAAACTGTGATTTTAGAATGTCAAACATCGCATACTGTTTCTACAAAATGGTATCACAACAAAAAAGAAATTAGTGGAATGGACCACAGAGAAATAATTCAGGAAGGTAGAATTCATAAATTAAAAATAAAGAAAACTAAGCTTACTGATGTTGGTGTTATAAAATGTATCGTAAAAGATCAAGAGACAAGCACAATGTTAGTTGTAAAAGAAACCATTCCTGAATTTATACGAAAACTTCAAGACTTCGAAGTTAAAGAAAAGGACGTAGCTATTTTGGAAGTTGAAATTAATTCTGAAACTGCTGATGTCGTATGGGAAAGAGACGGCGAAATAATAAAACCAAAGAAAAATAAATATGATTTTGAAAAACGAGGTCATATTCGCAAACTTTATATTAGAAACACTTCTGTTCATGATGAGGGTGAATATTCATGCATTTTGCGTGACGAATCTTGTACTGCTGAAGTAACAGTAGTGGAACTACCCCCTGAAATCATTACACGCCTACAAAATCAGAAGGTAAACAAAGGTAACAAAGCAACATTTGAAATAGAGCTGACCAAAGGCGATGCTCTAGTGAGGTGGTTTAAAGATGGCTCTGAAATTCAATTTTCTAATCACATACAGTTAACCATAGATGGTAAAAAACAAAAACTGAAGATATACGACTGTGATTTAGATGACGCAGGGGAATATTCTTGTGAGGTTGGAAACAGTAAATGCACAGCGATACTTACAGTAGAAGAACCTTCTATCAACTTTACTCTGCGACTTCCAGAATTTATACTGGTTCCAGCAAATACAGACGCCTATTTGACAGTTGAAATTCCTGATGAAACATTAGATGTAACATGGTACAAAAAGAAATCCGTAATCGAAGATACTGAAAAGTTCACTCTAATATCAGATGTAAAGAAGCGAACATTAATTATAAGAAAATGTACAGAGGATGATCAATGCGAATATACGTGTGTACTACTCGATGCGAAGAGCTCTACAAAATTAAAAGTAGAAGTGGTTGAGTTTCCTCCAAAAATTGTTGATTATGAACGAGAATATAGAATTAAACGGGGAAGCGACGTCACTCTACTTGTGGACTATCAAGCTTTCCCACAACCAAATGACGAATGGATCGTAAACTCTAAAATAATAAAGAAATGTAAACATACTAAGCCAAGTATAGATTCAAAATCGGCAAGCTTGACAATTAAAAAAGTAGAAAACACTGATGCTGGTATCTACAAACTACGTCTTGAAAATAATTGTGGTCATGCTGATGTTGAAATGAATGTGACAATACTTGATAAACCATCTCCGCCAGGGAAACCTAATATTTTAGAAATAGATTCTAGTTCGATTAACATATGTTGGGACGAACCAGAAAATACAGGAAATTCAACTATCATATACTATGTTGTCGAATATCAGGAAATTGATACAACAGAGTGGATATCGGTTAAAAATATAACCAAAACGCAAACCTCTATTCAGAACTTGAAAACAAACTCCTCATATAGATTCCGTGCTTATGCCGTAAATGAAGTGGACATTAGTGATGCTTCAGAAACAACAGAATATTATAAAGTAATAAAAGAAACGAAAATCCAATCTCCGACTGTAGAAAAACCATTGAAAAATATAACAACGGAACCAAATGAGGATATTGAACTAACGTGTATTTTCGGTGGAGTTCCTCAACCTAAGGTTACATGGTACAGAGACGGAAAGAAACTTAAAACTGCTAAAGCAACATATGAAAACAGAGTAGCAACATTAGTTGTAACTGTAACTGAAACAACTATTGGAACCTACAAATGTATAGCTTTTAATGATCATGGAGAAGTTGAAACGTCTTGCGTCGTTGGAATACAACAAAAACCTGTAATTACCATTTCTAATGAGGATATCAAACAGAAGCATAAAGTTGGAGATGAATGGTTGGTAACAGCTGTAATAGAAGGAATACCGCCACCTGAAGTAATATGGTATAAGAATGGAAATAAATTAGAAAATGATAAAGAATATAATATAACAACAAAAGAAAAAACTAGCGTAATTCGAATTAAAGAATTGAAGCGCTCTCATTCAAGTAAATATACTATTGAAGCTTCCAATACCGCTGGAACTTCTTCAGTTGAGGTCACACTAAAGGTCTACGATAAACCTAGTAAACCAGAAGGCCCTGTTATAATGCGCGAAATAAGTCGTGAATCAGTTACAATTGAATGGAAACCACCTTTAGATGACGGAGGTCTAGAGCTAACAAAATACGCCATCGAAAAACATGAACCCGATAATAATCGATGGATAAAAGTGGCAGATGTAGACAGAGACGTCGAAACATATTGCATACAAAAACTCAATGAAAACTGTGAATATATGTTCCGCGTTATAGCACAAAACCCTGTTGGATTTTCGGAAGCTCTTGAAAGTGAACCGATTGTTATAAAAACTGCATTAGACGTTCCTTCGCCGCCACTGGGCCCACTAGGTTTGTATGGTATCGATAATGAATCCGTGTATATAACATGGTTCCCGTCTGAGAAAAACGGCGGATCACCAATAATCGATTACAAGGTTGAAATAAAACAAGAAGGGAAGAAATGGAAAACCATCACAACTGTTACTGAAACAACAGCTAGAATCCAAAAGTTATCGATAAACACTACATATCAGTTCAGAATATACGCTAGAAACGAAATCGGAACGAGTCTTCCGTACACATCAGATGACAAAATAACAATTGGAAAAACGCTAACACCGCCGTCCCAGCCACGGAATTTCGTAGTGAGTGAGTCTACGTCACGATCAGTAACGCTAAAATGGACAGAGCCAGAGAGTAATGGCGGCAGTCCAATTACCAACTATATAATTGAATTTAAGACAGTCAAAGGAAAATCGTGGACTAAAATAGTCACCGTAGGTGGTTCAGTTCATGAACATTGTATTGAAAATATTAAGGAAAAAGATGAAATAATCTTCCGAATCTCAGCAGAAAATACTGTTGGTGTTAGTTTGCCAACAGAATCACAATCAGTACGATTAGAGAAACATGCAACTGTGCCATCGCCGCCGACGGCTCCTCTTGAAATAAGAATGGTTGGTAGCAACATCGTTATGACTTCATGGGGTACACCAGAATGGGATGGTGGGGCTCCACTTCTCGGTTACAACATCGCTATCAGGGATGTTACAAAAACAATGTGGATGGAAGTTGGAAAAGTCGATGTCAACACGCTTAAATTCAACATTAGAGATTTGAGCGAAAACCACACCTACATGATCAGAATCTACGCACGAAATGAGATTGGTCTCAGCGAGCCCCTGGAGTCAGATGAACCCTTTAAAGTTATACCAGGAGAAGGTTCCCATGCCGACGAGGAGCCAGGCGAACAGACTGAGGTCACGGAGCCAACATCGTTCAGTACTCAGACCACGACTTCGTGGCTGCGGGAGCACAACATGGATGCTGATATACGATCGTACGCGCGCGGTTCCCTGCTACGTCGCGACGAATACTTCTTTAGAATATGGCACTACGCTAAACAGCTATTTAAGTGA
Protein
MAIGCPANMASPLPPQLTNLLCYVYSSLSDFKLVDQPNHAEFKPITEVMKPKSNEKEVLSDSSEDKIIPPEEQKSEPKLLLNNKKSKDKPILRKLQIEELESSKPQHPEEMTVPQFSKLKLKKSSVLPKQEPAVVKLPKFQLKSRIKFIRDWPPQEMKPIVTYLGSIKQNGELSRNVKEANKIKKKKLKLPKIPDLERVTLEKSDLFDSQEDESKPDVSQPPQNIIEEAKSEPKLIEESEQPIAKTSEIDNEVPEKINVPDDKETSQTPTSFNKRSKLTPIKIERKEMEVSTPQHAETVDGPQFTLPKLKKTAVKPKKETSLVKLPKFQLKSRIKYITSWPPESIKPLISYMGSIKQNGILSRNIKEAAKVKKQVFVPPKLPDVEKTELEQPLFSYEDIVESKKDENEIIQEKQTLEELPKEDVPEQYTITPRKSSAQKIDEIVDEVTIKKRLKPVRKSSVTLPEITEPEVVTFRPKITKTKEDVEQEFNIQLDSYAEEEISMSSKVKLKPQKQLTFKEEDAETSIQFYEKGQDESPEIIEIVDSDVEKEESESANIMIPLKKKLETKNVLETVESVVTLSKPKLQNDNEISEVVCIELEKKPKYIVDDQDEVQFEVKPRATEVTTFSSNIKVKPKKKMSIIEAADETLLQIHKEIDDESQPEEIIMSDGDTEENIEMIIKRKPKKPTYEISEVEELSVEFKPKQMKDENNEGELTISTKRKPKSLIIQEADATMSISREQEFPDTPVEVRCGDTVFAVYSYVAETDEAINLVEGERLYILDTSNQDWWYVQKHLTEEKGWVPAQYLMDENNYTQYLQKKLNEKIDKLPVFEKPTSEEQSMAPIFVEKLRPKHTPDGSTVQFECQVEGYPRPQITWFRQTAIIKPSQDFQMYYDDDNVATLVIREVFPEDAGTFTCVAKNAAGFASSTTELIVEAPLSDHGSEMTVLSRKSLSRESSLADILEGIPPTFSKKPKAQYVDEGSDILLECRLVAIPEPDIAWLFKGEEIVPDENISVAIESDMHMYCSVLKITNVKKFQEGTYTVVAVNREGEASLPIVLKIKTGEKEPPQVIEPLKSMIVRQGESVILSAQVVGNPRPTITWCKNNKPVKALPTKSDGDTHSITILKPKKVKDEGVYTLKAENSEGIAETSAVITVEEPTEENAEPPLFINRFQEITVKEKGTIKLVARVTGNPVPSITWYRNNEIISPSETITQNFDGENIELVITNVDSEIDSGDYKCVASNSAGKSSHGARVTIDVEKVTFVKHLQKSYETEEGKTVILECQTSHTVSTKWYHNKKEISGMDHREIIQEGRIHKLKIKKTKLTDVGVIKCIVKDQETSTMLVVKETIPEFIRKLQDFEVKEKDVAILEVEINSETADVVWERDGEIIKPKKNKYDFEKRGHIRKLYIRNTSVHDEGEYSCILRDESCTAEVTVVELPPEIITRLQNQKVNKGNKATFEIELTKGDALVRWFKDGSEIQFSNHIQLTIDGKKQKLKIYDCDLDDAGEYSCEVGNSKCTAILTVEEPSINFTLRLPEFILVPANTDAYLTVEIPDETLDVTWYKKKSVIEDTEKFTLISDVKKRTLIIRKCTEDDQCEYTCVLLDAKSSTKLKVEVVEFPPKIVDYEREYRIKRGSDVTLLVDYQAFPQPNDEWIVNSKIIKKCKHTKPSIDSKSASLTIKKVENTDAGIYKLRLENNCGHADVEMNVTILDKPSPPGKPNILEIDSSSINICWDEPENTGNSTIIYYVVEYQEIDTTEWISVKNITKTQTSIQNLKTNSSYRFRAYAVNEVDISDASETTEYYKVIKETKIQSPTVEKPLKNITTEPNEDIELTCIFGGVPQPKVTWYRDGKKLKTAKATYENRVATLVVTVTETTIGTYKCIAFNDHGEVETSCVVGIQQKPVITISNEDIKQKHKVGDEWLVTAVIEGIPPPEVIWYKNGNKLENDKEYNITTKEKTSVIRIKELKRSHSSKYTIEASNTAGTSSVEVTLKVYDKPSKPEGPVIMREISRESVTIEWKPPLDDGGLELTKYAIEKHEPDNNRWIKVADVDRDVETYCIQKLNENCEYMFRVIAQNPVGFSEALESEPIVIKTALDVPSPPLGPLGLYGIDNESVYITWFPSEKNGGSPIIDYKVEIKQEGKKWKTITTVTETTARIQKLSINTTYQFRIYARNEIGTSLPYTSDDKITIGKTLTPPSQPRNFVVSESTSRSVTLKWTEPESNGGSPITNYIIEFKTVKGKSWTKIVTVGGSVHEHCIENIKEKDEIIFRISAENTVGVSLPTESQSVRLEKHATVPSPPTAPLEIRMVGSNIVMTSWGTPEWDGGAPLLGYNIAIRDVTKTMWMEVGKVDVNTLKFNIRDLSENHTYMIRIYARNEIGLSEPLESDEPFKVIPGEGSHADEEPGEQTEVTEPTSFSTQTTTSWLREHNMDADIRSYARGSLLRRDEYFFRIWHYAKQLFK
Summary
Description
Key component in the assembly and functioning of adult and embryonic striated muscles and muscle tendons. By providing connections at the level of individual microfilaments, it contributes to the fine balance of forces between the two halves of the sarcomere. The size and extensibility of the cross-links are the main determinants of sarcomere extensibility properties of muscle. In non-muscle cells, seems to play a role in chromosome condensation and chromosome segregation during mitosis. Might link the lamina network to chromatin or nuclear actin, or both during interphase.
Similarity
Belongs to the protein kinase superfamily. CAMK Ser/Thr protein kinase family.
Keywords
Alternative splicing
Cell cycle
Cell division
Chromosome
Coiled coil
Complete proteome
Cytoplasm
Developmental protein
Disulfide bond
Immunoglobulin domain
Mitosis
Muscle protein
Nucleus
Reference proteome
Repeat
SH3 domain
TPR repeat
Feature
chain Titin
splice variant In isoform B.
splice variant In isoform B.
Uniprot
Q8T101
Q8MMJ9
A0A2W1BR33
A0A2A4JA34
A0A2A4JBM0
A0A2H1WA57
+ More
A0A194R013 A0A194PRX9 A0A212EMM0 A0A0L7LK08 A0A088A9C6 A0A026VUD4 E2BM24 A0A154PJP5 A0A2J7QZK4 A0A195FZ63 A0A2J7QZK5 A0A0N0BEG5 A0A151I9J5 A0A1B6DP09 A0A151WT55 F4X806 A0A1S4FA74 Q17AF2 A0A336LNI7 A0A336LSE4 A0A182JZ59 A0A336LRC6 A0A182RB00 A0A158NVR6 A0A182MBM1 A0A182WJ12 A0A182GES9 A0A182FI83 A0A182XZ30 A0A0K8UMT2 W5JCS9 A0A146M3F4 A0A0K8VP60 A0A034V2U6 A0A0A1XPH8 E0VZZ8 A0A084VEZ0 A0A034V0P5 A0A2P8Z6P9 A0A0Q9WW89 A0A0P8XSQ8 A0A0Q9WIS3 A0A0P8Y833 A0A0Q9WIY4 A0A069DY97 A0A3B0KJX7 A0A224X960 A0A0P8XSF0 B4N316 A0A0P9AID6 A0A1W4W593 A0A0M5J037 A0A146LRT9 A0A310S8S3 A0A0R1DUN8 M9PDZ6 M9PGZ0 M9PBJ0 B4QN22 M9PDS3 M9PDZ9 M9PBI9 M9PEA5 A0A0R1E0V7 M9PEA0 A0A0J9RMQ2 A0A0R1DUV4 A0A0J9RNP6 A0A0R1DY47 M9PDS8 A0A1A9XBG4 Q9I7U4-5 A0A1A9WLT4 Q9I7U4 A0A0Q5UH56 Q9I7U4-4 A0A0J9UCP5 A0A0J9RM79 A0A0R1DWF4 A0A0R1DUJ0 A0A1A9UCU1 A0A0R1DUI7 A0A1A9Z6R8 A0A0J9RNQ2 A0A0Q5U8V9 A0A0J9RNP1
A0A194R013 A0A194PRX9 A0A212EMM0 A0A0L7LK08 A0A088A9C6 A0A026VUD4 E2BM24 A0A154PJP5 A0A2J7QZK4 A0A195FZ63 A0A2J7QZK5 A0A0N0BEG5 A0A151I9J5 A0A1B6DP09 A0A151WT55 F4X806 A0A1S4FA74 Q17AF2 A0A336LNI7 A0A336LSE4 A0A182JZ59 A0A336LRC6 A0A182RB00 A0A158NVR6 A0A182MBM1 A0A182WJ12 A0A182GES9 A0A182FI83 A0A182XZ30 A0A0K8UMT2 W5JCS9 A0A146M3F4 A0A0K8VP60 A0A034V2U6 A0A0A1XPH8 E0VZZ8 A0A084VEZ0 A0A034V0P5 A0A2P8Z6P9 A0A0Q9WW89 A0A0P8XSQ8 A0A0Q9WIS3 A0A0P8Y833 A0A0Q9WIY4 A0A069DY97 A0A3B0KJX7 A0A224X960 A0A0P8XSF0 B4N316 A0A0P9AID6 A0A1W4W593 A0A0M5J037 A0A146LRT9 A0A310S8S3 A0A0R1DUN8 M9PDZ6 M9PGZ0 M9PBJ0 B4QN22 M9PDS3 M9PDZ9 M9PBI9 M9PEA5 A0A0R1E0V7 M9PEA0 A0A0J9RMQ2 A0A0R1DUV4 A0A0J9RNP6 A0A0R1DY47 M9PDS8 A0A1A9XBG4 Q9I7U4-5 A0A1A9WLT4 Q9I7U4 A0A0Q5UH56 Q9I7U4-4 A0A0J9UCP5 A0A0J9RM79 A0A0R1DWF4 A0A0R1DUJ0 A0A1A9UCU1 A0A0R1DUI7 A0A1A9Z6R8 A0A0J9RNQ2 A0A0Q5U8V9 A0A0J9RNP1
Pubmed
12715162
28756777
26354079
22118469
26227816
24508170
+ More
20798317 21719571 17510324 21347285 26483478 25244985 20920257 23761445 26823975 25348373 25830018 20566863 24438588 29403074 17994087 26334808 17550304 10731132 12537568 12537572 12537573 12537574 16110336 17569856 17569867 22936249 10629221 10934048 9548712 10669599 9917396 8335002 11062264 12537569 22467859 26251439
20798317 21719571 17510324 21347285 26483478 25244985 20920257 23761445 26823975 25348373 25830018 20566863 24438588 29403074 17994087 26334808 17550304 10731132 12537568 12537572 12537573 12537574 16110336 17569856 17569867 22936249 10629221 10934048 9548712 10669599 9917396 8335002 11062264 12537569 22467859 26251439
EMBL
AB079867
BAB85198.1
AB090308
BAC10620.1
KZ150006
PZC75220.1
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NWSH01002247 PCG68831.1 PCG68830.1 ODYU01007290 SOQ49940.1 KQ461108 KPJ09186.1 KQ459594 KPI96201.1 AGBW02013811 OWR42750.1 JTDY01000849 KOB75679.1 KK107899 EZA47270.1 GL449100 EFN83273.1 KQ434938 KZC12045.1 NEVH01009068 PNF34018.1 KQ981193 KYN45099.1 PNF34017.1 KQ435828 KOX71854.1 KQ978274 KYM95733.1 GEDC01009890 JAS27408.1 KQ982761 KYQ51092.1 GL888900 EGI57423.1 CH477336 EAT43208.1 UFQT01000086 SSX19500.1 SSX19499.1 SSX19501.1 ADTU01027389 ADTU01027390 ADTU01027391 ADTU01027392 ADTU01027393 ADTU01027394 ADTU01027395 ADTU01027396 ADTU01027397 ADTU01027398 AXCM01005178 JXUM01058620 KQ562010 KXJ76922.1 GDHF01024639 GDHF01014413 GDHF01003054 JAI27675.1 JAI37901.1 JAI49260.1 ADMH02001532 ETN62157.1 GDHC01004325 JAQ14304.1 GDHF01011647 JAI40667.1 GAKP01022123 JAC36829.1 GBXI01001522 JAD12770.1 DS235854 EEB18954.1 ATLV01012355 KE524785 KFB36534.1 GAKP01022121 JAC36831.1 PYGN01000172 PSN52174.1 CH940647 KRF84565.1 CH902618 KPU77609.1 KRF84569.1 KPU77605.1 KRF84568.1 GBGD01000009 JAC88880.1 OUUW01000009 SPP85451.1 GFTR01008992 JAW07434.1 KPU77608.1 CH964062 EDW78755.2 KPU77607.1 CP012525 ALC42874.1 GDHC01009173 JAQ09456.1 KQ769940 OAD52761.1 CM000159 KRK00825.1 AE014296 AGB94000.1 AGB94006.1 AGB94007.1 CM000363 EDX08904.1 AGB94003.1 AGB94005.1 AGB94002.1 AGB94004.1 KRK00839.1 AGB93999.1 CM002912 KMY97017.1 KRK00829.1 KMY97014.1 KRK00835.1 AGB94008.1 AB026845 AJ238575 AJ238577 AJ271740 AJ400900 AJ400901 AJ400902 AF045775 AF045776 AF045777 AF045778 AJ245406 AJ012279 AJ012280 AF135062 AF135167 AF241648 AF241649 BK000146 AY094749 AAC23966.1 AAF47604.1 AAG40155.1 AAM11102.1 BAA90301.2 CAA09971.1 CAB76253.1 CAB93524.1 CAB96426.1 DAA00021.1 CH954178 KQS43158.1 KMY97025.1 KMY97018.1 KRK00830.1 KRK00832.1 KRK00827.1 KMY97019.1 KQS43149.1 KMY97009.1
NWSH01002247 PCG68831.1 PCG68830.1 ODYU01007290 SOQ49940.1 KQ461108 KPJ09186.1 KQ459594 KPI96201.1 AGBW02013811 OWR42750.1 JTDY01000849 KOB75679.1 KK107899 EZA47270.1 GL449100 EFN83273.1 KQ434938 KZC12045.1 NEVH01009068 PNF34018.1 KQ981193 KYN45099.1 PNF34017.1 KQ435828 KOX71854.1 KQ978274 KYM95733.1 GEDC01009890 JAS27408.1 KQ982761 KYQ51092.1 GL888900 EGI57423.1 CH477336 EAT43208.1 UFQT01000086 SSX19500.1 SSX19499.1 SSX19501.1 ADTU01027389 ADTU01027390 ADTU01027391 ADTU01027392 ADTU01027393 ADTU01027394 ADTU01027395 ADTU01027396 ADTU01027397 ADTU01027398 AXCM01005178 JXUM01058620 KQ562010 KXJ76922.1 GDHF01024639 GDHF01014413 GDHF01003054 JAI27675.1 JAI37901.1 JAI49260.1 ADMH02001532 ETN62157.1 GDHC01004325 JAQ14304.1 GDHF01011647 JAI40667.1 GAKP01022123 JAC36829.1 GBXI01001522 JAD12770.1 DS235854 EEB18954.1 ATLV01012355 KE524785 KFB36534.1 GAKP01022121 JAC36831.1 PYGN01000172 PSN52174.1 CH940647 KRF84565.1 CH902618 KPU77609.1 KRF84569.1 KPU77605.1 KRF84568.1 GBGD01000009 JAC88880.1 OUUW01000009 SPP85451.1 GFTR01008992 JAW07434.1 KPU77608.1 CH964062 EDW78755.2 KPU77607.1 CP012525 ALC42874.1 GDHC01009173 JAQ09456.1 KQ769940 OAD52761.1 CM000159 KRK00825.1 AE014296 AGB94000.1 AGB94006.1 AGB94007.1 CM000363 EDX08904.1 AGB94003.1 AGB94005.1 AGB94002.1 AGB94004.1 KRK00839.1 AGB93999.1 CM002912 KMY97017.1 KRK00829.1 KMY97014.1 KRK00835.1 AGB94008.1 AB026845 AJ238575 AJ238577 AJ271740 AJ400900 AJ400901 AJ400902 AF045775 AF045776 AF045777 AF045778 AJ245406 AJ012279 AJ012280 AF135062 AF135167 AF241648 AF241649 BK000146 AY094749 AAC23966.1 AAF47604.1 AAG40155.1 AAM11102.1 BAA90301.2 CAA09971.1 CAB76253.1 CAB93524.1 CAB96426.1 DAA00021.1 CH954178 KQS43158.1 KMY97025.1 KMY97018.1 KRK00830.1 KRK00832.1 KRK00827.1 KMY97019.1 KQS43149.1 KMY97009.1
Proteomes
UP000218220
UP000053240
UP000053268
UP000007151
UP000037510
UP000005203
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UP000053097 UP000008237 UP000076502 UP000235965 UP000078541 UP000053105 UP000078542 UP000075809 UP000007755 UP000008820 UP000075881 UP000075900 UP000005205 UP000075883 UP000075920 UP000069940 UP000249989 UP000069272 UP000076408 UP000000673 UP000009046 UP000030765 UP000245037 UP000008792 UP000007801 UP000268350 UP000007798 UP000192221 UP000092553 UP000002282 UP000000803 UP000000304 UP000092443 UP000091820 UP000008711 UP000078200 UP000092445
UP000053097 UP000008237 UP000076502 UP000235965 UP000078541 UP000053105 UP000078542 UP000075809 UP000007755 UP000008820 UP000075881 UP000075900 UP000005205 UP000075883 UP000075920 UP000069940 UP000249989 UP000069272 UP000076408 UP000000673 UP000009046 UP000030765 UP000245037 UP000008792 UP000007801 UP000268350 UP000007798 UP000192221 UP000092553 UP000002282 UP000000803 UP000000304 UP000092443 UP000091820 UP000008711 UP000078200 UP000092445
Interpro
IPR001452
SH3_domain
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IPR003598 Ig_sub2
IPR036179 Ig-like_dom_sf
IPR003961 FN3_dom
IPR039696 MFAP3-like
IPR003599 Ig_sub
IPR007110 Ig-like_dom
IPR013783 Ig-like_fold
IPR036028 SH3-like_dom_sf
IPR036116 FN3_sf
IPR013098 Ig_I-set
IPR010939 Titin-rpts
IPR006623 THEG
IPR018159 Spectrin/alpha-actinin
IPR013106 Ig_V-set
IPR003598 Ig_sub2
IPR036179 Ig-like_dom_sf
IPR003961 FN3_dom
IPR039696 MFAP3-like
IPR003599 Ig_sub
IPR007110 Ig-like_dom
IPR013783 Ig-like_fold
IPR036028 SH3-like_dom_sf
IPR036116 FN3_sf
IPR013098 Ig_I-set
IPR010939 Titin-rpts
IPR006623 THEG
IPR018159 Spectrin/alpha-actinin
IPR013106 Ig_V-set
Gene 3D
CDD
ProteinModelPortal
Q8T101
Q8MMJ9
A0A2W1BR33
A0A2A4JA34
A0A2A4JBM0
A0A2H1WA57
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A0A194R013 A0A194PRX9 A0A212EMM0 A0A0L7LK08 A0A088A9C6 A0A026VUD4 E2BM24 A0A154PJP5 A0A2J7QZK4 A0A195FZ63 A0A2J7QZK5 A0A0N0BEG5 A0A151I9J5 A0A1B6DP09 A0A151WT55 F4X806 A0A1S4FA74 Q17AF2 A0A336LNI7 A0A336LSE4 A0A182JZ59 A0A336LRC6 A0A182RB00 A0A158NVR6 A0A182MBM1 A0A182WJ12 A0A182GES9 A0A182FI83 A0A182XZ30 A0A0K8UMT2 W5JCS9 A0A146M3F4 A0A0K8VP60 A0A034V2U6 A0A0A1XPH8 E0VZZ8 A0A084VEZ0 A0A034V0P5 A0A2P8Z6P9 A0A0Q9WW89 A0A0P8XSQ8 A0A0Q9WIS3 A0A0P8Y833 A0A0Q9WIY4 A0A069DY97 A0A3B0KJX7 A0A224X960 A0A0P8XSF0 B4N316 A0A0P9AID6 A0A1W4W593 A0A0M5J037 A0A146LRT9 A0A310S8S3 A0A0R1DUN8 M9PDZ6 M9PGZ0 M9PBJ0 B4QN22 M9PDS3 M9PDZ9 M9PBI9 M9PEA5 A0A0R1E0V7 M9PEA0 A0A0J9RMQ2 A0A0R1DUV4 A0A0J9RNP6 A0A0R1DY47 M9PDS8 A0A1A9XBG4 Q9I7U4-5 A0A1A9WLT4 Q9I7U4 A0A0Q5UH56 Q9I7U4-4 A0A0J9UCP5 A0A0J9RM79 A0A0R1DWF4 A0A0R1DUJ0 A0A1A9UCU1 A0A0R1DUI7 A0A1A9Z6R8 A0A0J9RNQ2 A0A0Q5U8V9 A0A0J9RNP1
A0A194R013 A0A194PRX9 A0A212EMM0 A0A0L7LK08 A0A088A9C6 A0A026VUD4 E2BM24 A0A154PJP5 A0A2J7QZK4 A0A195FZ63 A0A2J7QZK5 A0A0N0BEG5 A0A151I9J5 A0A1B6DP09 A0A151WT55 F4X806 A0A1S4FA74 Q17AF2 A0A336LNI7 A0A336LSE4 A0A182JZ59 A0A336LRC6 A0A182RB00 A0A158NVR6 A0A182MBM1 A0A182WJ12 A0A182GES9 A0A182FI83 A0A182XZ30 A0A0K8UMT2 W5JCS9 A0A146M3F4 A0A0K8VP60 A0A034V2U6 A0A0A1XPH8 E0VZZ8 A0A084VEZ0 A0A034V0P5 A0A2P8Z6P9 A0A0Q9WW89 A0A0P8XSQ8 A0A0Q9WIS3 A0A0P8Y833 A0A0Q9WIY4 A0A069DY97 A0A3B0KJX7 A0A224X960 A0A0P8XSF0 B4N316 A0A0P9AID6 A0A1W4W593 A0A0M5J037 A0A146LRT9 A0A310S8S3 A0A0R1DUN8 M9PDZ6 M9PGZ0 M9PBJ0 B4QN22 M9PDS3 M9PDZ9 M9PBI9 M9PEA5 A0A0R1E0V7 M9PEA0 A0A0J9RMQ2 A0A0R1DUV4 A0A0J9RNP6 A0A0R1DY47 M9PDS8 A0A1A9XBG4 Q9I7U4-5 A0A1A9WLT4 Q9I7U4 A0A0Q5UH56 Q9I7U4-4 A0A0J9UCP5 A0A0J9RM79 A0A0R1DWF4 A0A0R1DUJ0 A0A1A9UCU1 A0A0R1DUI7 A0A1A9Z6R8 A0A0J9RNQ2 A0A0Q5U8V9 A0A0J9RNP1
PDB
6FWX
E-value=8.94448e-40,
Score=418
Ontologies
GO
GO:0016301
GO:0016787
GO:0051301
GO:0007498
GO:0040011
GO:0000794
GO:0045214
GO:0007520
GO:0007517
GO:0007076
GO:0031674
GO:0007525
GO:0003779
GO:0016203
GO:0007519
GO:0008307
GO:0030018
GO:0005863
GO:0030017
GO:0035206
GO:0007062
GO:0007522
GO:0005515
GO:0004177
GO:0005737
GO:0008235
GO:0019538
GO:0030145
GO:0005622
GO:0006508
GO:0007169
GO:0016021
PANTHER
Topology
Subcellular location
Cytoplasm
Nucleus
Chromosome
Colocalizes with ball and mask in Z-lines of indirect flight muscle (PubMed:26251439). In the embryo, localizes across the muscles in a striped pattern positioned at the sites at which muscles are attached to the epidermis. In the larval body wall muscles, localizes to the Z line and is still present as a doublet at the muscle-epidermal attachment sites. During pupa development, progressively forms broad striations at the Z line which become more defined after the pupa eclosion. With evidence from 12 publications.
Nucleus
Chromosome
Colocalizes with ball and mask in Z-lines of indirect flight muscle (PubMed:26251439). In the embryo, localizes across the muscles in a striped pattern positioned at the sites at which muscles are attached to the epidermis. In the larval body wall muscles, localizes to the Z line and is still present as a doublet at the muscle-epidermal attachment sites. During pupa development, progressively forms broad striations at the Z line which become more defined after the pupa eclosion. With evidence from 12 publications.
Length:
2463
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.00978
Exp number, first 60 AAs:
0.00266
Total prob of N-in:
0.00013
outside
1 - 2463
Population Genetic Test Statistics
Pi
0.502203
Theta
2.556556
Tajima's D
-2.260229
CLR
1.370248
CSRT
0.000999950002499875
Interpretation
Possibly Positive selection
