Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 1,103

>Boleac.CG.SB_v3.S696.g13230.01.p
MPSPEILWSLDGEEISDGDSLYKNNIATLVLNNVSMSSSGQYMCTAINDVGSDSAACRVR
VKQKILNIAPEFTSPLSDIKTKEGEDIRLQCAVTGTPTPRVQWCLNEELLQPGDGLEMSF
ENGDAVLTLEQVTPEDTGTYSCTATNNEGRATTSCQVLVSELPENAPSVVKRPPEFVSRF
SDYTRAMEGDAVTFECQVRGDPEPEITWCIEKKPIKGATQSFENGRAILTIQSVSSDQGG
CVTCSAVNEAGSNVHEGRLYIRTKREAPSFVTELPETVKVSEGEEVTFGCHVKGHPQPRV
TWTRNGRSLSVLNSETSYEEGQASVRIRKAGNSDAGKYVCTARNLSGESETSCTVVVCSK
EEVREPKFTKSLEDFSIVVGQDIRLECTLADXAGTDXFWTLDGQRLESEDGEASFKNGVA
RMVLEDAMTEDSGVYQCVVKFGGGEIRSGCTVTVTEKKKPVEEAPSFPVQLEDMTVDQDK
DIHLLCQVKGIPRPTITWLIDGDPLDADFKYADDGTXDVLLPDAMPDDEGVYTCIAQNTL
KRVMCSCKVTVKPKPKPPKTSKFSTDAKDAKKPAPISTNSARRRSQEKVEAPASAEVEEE
HRGPDKPPVFLEKLADRVVPDGSINYKLTARVTGMPPPSATWYIDGVEIEDSDDFKYETD
AETRSLIFAEIFPEDSGLYACVARNVAGEERVEMKMTVEEIDGDPPSFIMKPRPLTVNAG
EDAVLNCKVDAYDFAFVVEYSVRSYELTSLFSNRPIEGNERVIISTPTSSNNHTHILQIL
SAKSEDAGRYAACCSPEPPTSKKDSEQQPDFREALSRNVKTKVLSEEERKTFKAEQKDFR
ANLVRKVETKAVTNDAIKSKQAEQKDFRDEAIKTKVRTKSFQEEAIKSKQAEQKDFRAEA
LKTKVVTKAFKEEQLKLKKAEQVDFREVLSPTKRXPSKGDDELMSPTSESAKFEIPSTPA
KLKITKDHTTVATRRSRTRGGDSAQRKARTPEVETPAEFAPEFTEELKNVKVKDQHPFEL
ECRVIGNPEPKITWYLDGEVVTAETDIKILRQGDLCKLTVAESFPDDEGAYVCMAENEHG
VVKCSAHVTVISSGESKYDEQDA

Nucleotide sequence

Length: 5,272

>Boleac.CG.SB_v3.S696.g13230.01.t
CATCAATTTTAGCGAAACAAAGACAAGCAAAACCGAAGTTTATAAGACCACCCAAAGATG
TTCGCATTGAGGAAGGGCAAAAGCTAACGTTGGACGCTGAAGTTTCCGGAATGCCGTCTC
CTGAGATTTTATGGTCCTTGGATGGGGAAGAAATTTCTGATGGTGATTCACTCTACAAGA
ATAATATAGCAACGTTGGTGTTGAACAACGTTTCCATGTCAAGCAGTGGGCAGTACATGT
GCACTGCAATCAATGATGTCGGCTCAGACTCAGCNGCATGCAGGGTTCGTGTAAAACAAA
AAATCCTCAACATCGCTCCTGAATTCACATCTCCTTTGTCTGACATCAAAACGAAAGAAG
GCGAAGATATTCGTTTGCAATGTGCTGTCACTGGGACCCCAACTCCACGCGTGCAATGGT
GCTTGAACGAAGAATTGCTTCAGCCTGGTGATGGCTTGGAAATGTCTTTCGAAAATGGTG
ATGCTGTTCTTACTTTGGAACAAGTTACCCCTGAAGATACAGGAACTTACAGCTGCACTG
CAACTAACAATGAAGGACGAGCGACAACGAGTTGTCAAGTACTGGTTTCAGAATTGCCAG
AAAATGCTCCATCCGTGGTGAAAAGACCTCCCGAATTTGTGTCACGGTTCAGTGACTACA
CTCGCGCTATGGAAGGTGACGCCGTGACTTTCGAGTGTCAAGTTCGGGGTGATCCAGAAC
CGGAAATCACATGGTGCATCGAAAAGAAGCCGATCAAAGGCGCGACGCAGTCTTTTGAGA
ACGGTCGTGCAATCTTGACTATTCAATCGGTTTCGTCTGATCAAGGCGGATGCGTCACTT
GCAGTGCTGTCAATGAGGCGGGATCGAACGTTCACGAAGGACGCCTCTACATTAGAACTA
AAAGAGAGGCTCCGAGCTTTGTTACCGAATTGCCGGAAACNGTGAAGGTCAGCGAAGGCG
AAGAAGTCACTTTTGGATGTCATGTCAAAGGTCATCCTCAACCACGCGTGACGTGGACTA
GAAACGGACGATCACTAAGCGTACTGAACTCTGAAACATCGTATGAAGAAGGGCAAGCAA
GCGTACGAATTCGCAAGGCTGGAAATTCTGATGCGGGCAAGTACGTTTGCACGGCAAGAA
ATTTATCTGGAGAGTCGGAGACTTCGTGCACAGTTGTGGTCTGCTCAAAGGAGGAAGTTA
GAGAACCGAAATTTACAAAATCATTGGAAGATTTTTCAATCGTAGTCGGACAAGATATCA
GGCTCGAATGCACCTTAGCTGATCANGCTGGTACTGACATNTTCTGGACTCTGGACGGGC
AGCGTCTGGAATCTGAAGACGGTGAGGCATCGTTTAAAAATGGAGTAGCTCGAATGGTGT
TGGAGGATGCTATGACTGAAGATTCGGGAGTCTATCAATGCGTTGTGAAATTTGGTGGCG
GAGAAATACGTTCCGGATGCACTGTTACCGTAACCGAGAAAAAGAAACCTGTGGAAGAAG
CGCCATCATTTCCCGTGCAGCTCGAGGATATGACCGTTGATCAAGATAAGGACATCCATC
TCTTATGTCAAGTCAAGGGAATCCCAAGACCAACGATAACCTGGCTTATCGACGGTGATC
CGCTTGACGCCGATTTCAAATACGCCGATGACGGGACGNTTGACGTGTTGTTGCCTGATG
CAATGCCTGATGATGAAGGTGTCTACACTTGCATTGCTCAGAATACTCTGAAAAGAGTGA
TGTGCTCCTGCAAAGTTACTGTCAAACCAAAGCCAAAGCCGCCGAAGACTTCCAAATTTA
GCACCGATGCAAAAGACGCAAAGAAACCGGCCCCGATAAGCACAAATTCAGCAAGAAGAC
GATCTCAAGAAAAGGTTGAAGCCCCAGCAAGTGCTGAAGTTGAAGAGGAGCACAGAGGAC
CTGACAAACCACCAGTGTTCTTGGAAAAGTTGGCAGATCGTGTCGTGCCAGACGGATCTA
TCAACTACAAACTAACGGCGAGAGTGACTGGCATGCCACCACCCTCGGCAACTTGGTATA
TTGATGGAGTTGAAATTGAGGATTCTGATGATTTCAAATACGAAACCGACGCAGAGACTC
GGTCTCTTATTTTCGCTGAGATCTTTCCTGAAGACAGCGGTCTTTACGCGTGTGTCGCCA
GGAACGTTGCTGGTGAAGAAAGAGTGGAGATGAAAATGACAGTTGAGGAAATCGATGGAG
ATCCGCCCAGTTTTATTATGAAGCCCCGACCTCTTACTGTAAATGCTGGCGAGGACGCTG
TGCTAAATTGCAAAGTAGACGCGTACGATTTCGCTTTCGTCGTTGAATATTCAGTAAGAA
GCTATGAATTGACATCTTTGTTCAGTAACCGACCCATCGAAGGGAATGAACGTGTAATCA
TCTCTACACCTACCAGCAGTAATAACCACACGCATATTCTACAAATCTTGAGTGCGAAGA
GTGAAGACGCCGGGCGCTACGCTGCTTGTTGCAGTCCGGAACCACCAACTTCTAAGAAAG
ATAGTGAGCAGCAACCGGATTTCAGGGAAGCGCTGTCGAGAAATGTCAAAACGAAAGTAT
TATCTGAGGAAGAACGCAAGACTTTCAAAGCGGAACAGAAAGATTTTCGGGCGAACTTGG
TCCGGAAAGTTGAAACCAAAGCTGTTACGAATGATGCCATCAAATCGAAGCAAGCAGAGC
AAAAAGACTTCAGAGACGAAGCCATTAAAACTAAAGTCCGAACAAAATCATTTCAAGAAG
AGGCGATCAAATCGAAACAGGCGGAACAAAAAGATTTCCGAGCTGAGGCTTTGAAAACTA
AGGTTGTGACCAAGGCTTTCAAAGAGGAACAACTGAAGCTCAAGAAAGCGGAACAAGTAG
ATTTCCGTGAAGTTTTATCGCCTACGAAACGAANTCCTAGCAAGGGCGATGATGAGCTGA
TGTCGCCGACTTCGGAATCCGCCAAATTCGAAATACCGTCCACTCCAGCGAAATTGAAAA
TCACAAAGGACCACACGACTGTCGCGACAAGAAGGTCGAGAACTCGCGGTGGTGACTCGG
CGCAGAGAAAAGCGAGGACACCAGAAGTGGAAACTCCTGCTGAATTCGCACCGGAATTCA
CAGAGGAATTGAAAAACGTCAAGGTCAAAGATCAACATCCTTTCGAACTGGAATGCCGCG
TCATAGGAAATCCAGAGCCCAAAATCACGTGGTATCTCGACGGTGAAGTAGTGACTGCGG
AAACTGACATTAAAATTTTGCGGCAAGGCGACCTTTGCAAGCTGACCGTGGCAGAAAGCT
TCCCAGACGATGAAGGAGCGTACGTTTGTATGGCAGAAAACGAACATGGCGTCGTCAAAT
GCTCGGCTCACGTCACCGTGATATCCTCCGGTGAGTCAAAGTACGATGAGCAAGACGCCT
GAGTGTGTATGGAATGTTGACGGACACCCTCGTCAGCCGCCGCATACGCTGCTGAGCGTG
TCGATTCGACCAGCCATCAACGGACTACCGAGACGATCATTTTGAGCAATAGACAACTAC
AAGACAACTTGTTACCGCAAAGCATATTAATACAGAATAAAATGTCTCTACCCAGCGACA
TGTTATCTGTAACTTGCTGATACGGCATTCGCTTCATTCTATGCACACCCAGGGTGGCTT
TCTCAAGCACATAAACTCCGCTTATTAGTAAGACGTTAGTCTGTATATGCATGCATATAC
TGGATGATATTTGAAAATCAATTGCAATATTCAAGGCGGTAGTGTGATNTAGCAGTCGTG
TTTGCAACTCTCAACTGTAGAAAAGATTCGGTAGCGCAATGCATGAGTTGTTCGGAACAC
GATTGCGTTGAGAGAAAGCACCTTGGCGGTGGCTAAACTCTAACACTATCCCTTGCGTTA
ATAATTCTTGATTTCTTCTCTTCTAGTCAAATGCTTCTTTTAGCTCTCCTTGATTATTTA
GAGGTGCTTATAGGTGCTTTAATTAATCATAGGGTAGATTTTGTAGATGGTGACTAAAGT
TAATCGCTGATTGTGTGTTTGAATAGTGATACGCGACAAATTCTAACTACGAAAGCTGAT
ATTACTGCTGTTGGTTCAAATTTGGGCCGTCTGGAACTGAAACTGCATCATTCCTGTGCA
TAAGACATTGTGAAATTCCTAATCAATGATTAACATTAATCACCATCTATGAAACATACC
TGTATTAACTAATAGTGTTTACTTGGCTAAATGCAGGCTCCTGAATTCTAATCAAGTGTA
CAATTTTTTAGAGGTAGGCAGGCTATTTTGTAAATTGTGTAATCATCTATTAAATTACGT
TTATATGCACCCCTATACGAAACAGCGGTGGGTGATTTAGGTAAGAAAAATAATTTGCGT
CACAAAAATTCCTGTGATTGTAATTTCGCATAATTATCACTAACGATGGATGTTTCAAGA
GGGGATTAGCCATGTCGCTTATTGGTCGAAATTTCGCATTGTCCATCACTATAACTTCTA
TAGTTTTATGCGGTCTTTATGTGCGCTGGTGCCTAAAATAGCAGGGGTGGGTTAGATAAA
AAATTGCCATGTCGAATTCACTAAACTTCACTAAACAATTCATGTGACCTATTTTGCAAA
CCCCGAGTGCGTTTGCCAATATATTTTTTTGCCTTACAAACCCAACCCTCCACGTTCTTA
TTTCAATGACGTCATTGAATCGTTCGACGCGAACAACATAGGGAATATACGCGGCGAAAA
AAGCGCAATGAACAGCTCATAGTTTTTTTTCTGGTGATTTTACGCAGGTCGCAATGCAAA
GGAACCACACAATTCCGCTTCTCGTGGGTCGCATTGACCCGCTAACTCATGATCCTGGCT
ACTGGCATATGCCTTTTGCTTGATATATTGAGCATGAGTCGGGCGTTGATAGGAAAGTGC
AAATACCTTTTGGGTTATGAACCATACCTTCGGCCTTTATGTGTCTGGTCGTCTGGTTCT
TGCGCATCTTTGACAGTCGGGTTCGACATCTAAAAGTCTTGGCCCCCATAACAATTGACA
AACCATGTTTCCCGGTTTCAAACCGCTGTTGATTACTAACTCCTACCGAATTGTTGGCTA
CCACGCTTTGAATCGACGCAGTAGTCTTCCCTTATATATATATATATACATGATAATTCT
GCAGTGGACGTTGCGATATATAAGTTTATTGAAGCAAATATTGTTAACCGAATTTCTTGT
GATGAAATGCCTTGTCTGGTGATTACAGCGTCGTTAGAGTAGGTAGATATGT

InterProScan

Gene3D	Ig-like_fold (IPR013783) - T[1-63] 7.5E-12 - T[66-167] 1.1E-26 - T[168-261] 2.5E-18 - T[262-360] 8.7E-23 - T[361-461] 4.1E-15 - T[462-566] 7.9E-22 - T[603-702] 1.6E-19 - T[703-802] 1.9E-8 - T[997-1090] 3.0E-24
SMART	Ig_sub2 (IPR003598) - T[1-51] 0.7 - T[82-149] 6.1E-15 - T[187-251] 1.2E-9 - T[281-347] 4.6E-11 - T[378-444] 0.024 - T[477-541] 1.4E-7 - T[619-688] 0.008 - T[1013-1080] 6.2E-9
ProSiteProfiles	Ig-like_dom (IPR007110) - T[1-62] 8.593 - T[70-160] 15.236 - T[167-260] 12.096 - T[268-356] 15.508 - T[366-453] 11.479 - T[465-550] 12.277 - T[607-697] 11.098 - T[1001-1089] 12.713
Pfam	Ig_I-set (IPR013098) - T[2-61] 2.2E-7 - T[70-159] 9.8E-23 - T[181-256] 7.2E-13 - T[270-357] 3.8E-20 - T[366-454] 2.9E-10 - T[465-551] 3.3E-14 - T[608-698] 3.4E-14 - T[1001-1090] 1.1E-19
SUPERFAMILY	Ig-like_dom_sf (IPR036179) - T[2-61] 4.97E-12 - T[70-163] 3.32E-25 - T[170-263] 1.29E-15 - T[266-357] 1.1E-20 - T[366-461] 2.54E-15 - T[465-559] 2.68E-20 - T[607-700] 8.04E-18 - T[705-791] 1.7E-9 - T[1001-1092] 2.21E-22
SMART	Ig_sub (IPR003599) - T[4-62] 16.0 - T[76-160] 9.1E-13 - T[181-262] 3.5E-6 - T[275-356] 5.7E-10 - T[372-455] 2.5E-8 - T[471-552] 1.9E-6 - T[614-699] 4.8 - T[712-824] 0.018 - T[1007-1091] 3.2E-7

Best Blast Hits in UniProt

Protein Name	Identity	Bit Score	e-value
HMCN1_HUMAN	24.231 %	192	2.63E-49
TITIN_HUMAN	25.881 %	223	5.81E-59
MYLK_HUMAN	30.795 %	246	1.64E-66

Transcript Model

Transcript Id

Possible name(s)

Gene model

Location

Amino acid sequence

Nucleotide sequence