Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 2,596

>Harore.CG.MTP2014.S443.g07885.01.p
MKLADDWLGVPPVITPEEITNPNVDEHSVMTYLSQFPKAQLKPGAPLRPQTNAKKARAYG
KGVEPTGLKVGMPAPFTVETFAAGNGAVLVYVTDPDGHEEELKASPNNDKIKTYSVVYHP
VVPGEYRVTVLFAGQDIQKSPFVVNVDDTPVDPSQVTAKGPGLQSGNIAGKETYFDVFTT
GAGIGNVDVDVTGPNTNVKCDIRQVDDFVYRVSYLPQTAGPHKIDISFAGFQIPKSPYHV
DISLPLNPSAVWAEGPGIEPEGVVVRHKAIFTVHTENAGDGKLGVKIIGPHGVNEPVGIE
DMKDGTYTCSYLPNKPGLYIVTISYAEKAIPRSPIRVNVSVPADAGKIRVQGPGIEPGNV
VGQQTYLDVIATDAGNGIVEAHIVGPDGCENSVPINIERRPDNVYRCTYIPTVNGKHKIH
VLFGGEQVPKSPFHVDISPDSGLEKQKQPIYENVNPSAVLYPTQKQIQLKSPKAFNAGAC
LAYGRGIQPRGLRVNEKADFFVTTKDAGEAELDVVVKGPRGSTEPVNLKKSRDEPDLYEC
EYYPLKNGDYTVDVTYGGKAIPKSPFKIAIGKEIGPQKVRAYGPGLHGGKVGHSADFVVE
TTGAEVGKLGFSIEGPSQARIECEDKGDGSCDVKYYPLESGEYAVHVICDDEDIKESPFM
ANIEPGDHETFPDKVRAYGPGLEENGPVVGRPTEFTVDAKSAGKLAPLSNILKTADGDNI
PVDVDDNHDGTFTCKYTPKKAVKHTVIPAYDGVAVKKSPFRVLVQEDSHPDRVRVYGPGV
ESGLKAEEPTYFTVDCSKAGFGDISIGLKCSPGITPSQHESDVLFDIIKNDNDTFTVKYT
PPVPGNYVIMVLFADVEIPQSPINVKVASNHNAKRVRADGPGLQKNGVECGKTTHFTIHT
RGAGKAKPDVKFLPPRGEYSAPAKHPEIIHNEDSTYTVNYTPDGKGPMVVQVTYGGDEIP
NSPFHVNVAPSMDIDKVIVRGLADDVKVNELQEFQVETTGVGGKGDLNVLITDPNNQEVP
VRKRDNPDGSNFSYTPKQPGPYRVDVNYDGVPVKNSPFLVEAYIPPDAGKVRAYGPGLKS
GKVGSLAPFTIDTTDAGNGGLGLTVEGPCEAKIECVDNGDGTCSVTYLPTEHGEYNINVL
FADSHIPGSPFTAVIEPVFDALQVTVDGTGLNKGKVGQKSAFAVDCSNAGEAPLTVLVFN
EDGTKVPGIEVCDDGDGKYNASFIPNKPGKATVKVQYGGMDVPNTPRKVDISPDIDTSSV
KTFGPGVEKNGVLADVETEFTVNAKRLAPHGGDHVHAKAVTPSGNELPVSVVDIRDGTYQ
ASYSPFEQGSYDIVVDYDGIAVPGSPFPVEVHEGCDSSKVKAYGPGLEKGKTNQPAKFTV
DTRGAGTGGLGLAVEGPSDAKIVCTDGKDGTCQVEYFPTTPGDYEVNVTYGGDNIPGSPF
VVPISDVVDPSKVICMGPGLSQAVRMNIAQKFTIDCTKAGIAPLDVAVKGPRGTKEPVNI
TDNNDGTFTANYTPTREGPYQISVKYNDEDVPNMPKRLRILPTHDASKVKCSGPGIESGI
PASLPVEFLIDAKDAGNGILAVQITNPKREKVLTEVPARCQNTIEESSEPSSEDEKKFSF
NFTCIISRKIISSLNIVTIKLSKILLTVSKISIKSREDPEGYPKKAKIKDNGDGTYAVSY
VPDIAGRYTVSIKYGGDEVPYSPYRIRAVSSGDASKCIVIGDGTGPTIAVGKEANISVDA
CAAGPGNVNCAVVTPDGDFMDVDVVDNKDGTFNVFYTAPKPGPYTVNIRFGGEMVPDSPF
HIKAVKSEDISPPLVEEDMVQAVDAAPAHAYMNGDDLNTLQQSVDDADELRAVEFVFRLP
KNSGDLTSLVRMPSGQTAVPTITDNHDGTVSISYQPTEPGLHKMDILCDKEHIPGSPVEF
FVDTIASGHVTAHGPGLVTGRVNQPAYFTIVTKDAGAGGLALAVEGPSKAEITCVDNKDG
TCSVNYIPTAPGEYNITVKFDDEQIPGSPFSANITDGTSPKTAKLSHGTTSDVALKINES
NLAALSASITTPSGNEEACQLKRLSEGRIGISFTPHEVGDHYVNVRKRDGRHVTNSPFKI
KVGQSEIGDASKVRVYGEGVEKARACETAEFFVDTRQAGYGGLSLSIEGPSKVDIDCQDE
KDGVCKVTYTPEEPGTYMVNIKFADKHVPGSPFTVKCTGESNLQKESIVRHRKAPSVATV
GSTCDLNLKIPKNWLGAARNKHYSSSAVRKSYSRSERMTYSQSTIGGVKQQQIMQETSCG
GSPFVPVFSHHTGFGTFQHTGQLKEANIGDLTATVTNPSGETKEAQIFENGENTYSIRFV
PKEMGVHTVSVMYLGNHVPGSPFQFTVGPLGEGGASKVTAGGPGLESAVVNIPAEFNIWT
REAGAGGLSIAVEGPCKAEINFEDRKDGSCGVSYIATEPGEYEVSVKFNDEHIPGSPYPV
KVTGIGSGRSPRMRVIHGKSDPSEVTSYGKGLRHAVIGESNTFTVDCSSAGSNMLLVGVH
GPLTPCEEVYVKHIGNRSYSWKSFSCYYPMTDHKIISALQRHHILKSSVQYWIAFQANLV
NRQCILYGLFLKYNLY

Nucleotide sequence

Length: 9,826

>Harore.CG.MTP2014.S443.g07885.01.t
AGCATTTGCGAGTAGATACTACATTTCCCGAGACTTCACTGTTTTATAACAAGTCCTAAA
ATTCGTGTTCAGCATATTCTGATTAACTGTAGTTGTAGTCAATCAATTCGAGCTCGCACA
CACACGCAAACTTTGCGTCAGACTTGAGTTAGCCAATCGTAATCGAATTTGTCGCTGGTA
TATATACCGCTTGCAACGACTATGGAAAACAATGTTGACGGTCTCAGCTCAGGTGGAGAT
TACGACACAGACGAGATGCCGGCTACTGAAAGGGAATTAGCGGAGGACGCCCCGTGGAAA
CAAATCCAGAAAAACACTTTTACTCGTTGGTGTAACGAGCATTTGAAATGTGTGAACAAG
CGAATGGCGAATTTAGAAACCGACTTTTCAGATGGATTGCGGCTCATTAGTCTCTTGGAG
GTATTATCCCAAAAGAAGATGGTCAAGCATAACAAGCGACCTAATTTCCGGCAAATGAAA
TTGGAGAATGTATCAGTTGCTCTGAAATTTTTGGAAAAGGAAAGAATTAAACTTGTTAGC
ATAGACAGCAAGGCTATTGTGGACGGCAACTTGAAACTAATATTGGGCTTAGTATGGACC
CTTATCTTGCATTATTCCATATCTATGCCAATGTGGGATGATGATGATGAGGAAGCTGAA
AAAAACAATGCTACTCCAAAGCAACGCTTGCTTGGTTGGATTCAGAACAAAATTCCCCAA
ATGCCCATTACAAATTTCAACCGCAATTGGCAAGATGGGCGTGCTCTCGGTGCCTTAGTA
GACAACTGCGCTCCAGGCTTATGCCCCCAATGGGAGGATTGGAATCCAGAGAATAAAATA
AGTAATGCCACGGAGGCAATGAACCTGGCGGATAACTGGCTTGATGTAGCCCAGTATAAA
AAAATAACTAAGTATCTTTCTAAAGATATTAAAAGGGATTTAAAATTCTCTCCATATGTT
TTGTCAAGCATACCACCAAGTACATGACTATGTCCTGATTGGGAGGATTGGAGTCCAGAT
GATAGCGTGAGCAACGCCCAGGAAGCCATGAAATTGGCTGACGATTGGCTTGGAGTGCCT
CCGGTCATTACTCCTGAGGAAATCACGAACCCGAACGTGGATGAGCATAGCGTTATGACT
TACTTGTCTCAGTTCCCAAAGGCACAGTTGAAGCCTGGAGCACCTCTTCGTCCTCAAACC
AACGCCAAAAAGGCACGGGCTTACGGCAAAGGTGTTGAACCTACTGGATTGAAAGTGGGA
ATGCCAGCTCCATTCACAGTTGAAACATTTGCTGCTGGTAATGGAGCAGTTCTGGTTTAT
GTTACTGACCCTGACGGCCATGAAGAAGAACTGAAAGCTTCCCCGAACAATGACAAAATA
AAAACTTACTCCGTTGTGTATCATCCCGTGGTTCCTGGGGAGTATAGGGTTACGGTGCTA
TTTGCTGGCCAGGATATCCAGAAAAGTCCATTTGTCGTGAATGTAGACGACACTCCTGTA
GATCCAAGTCAAGTCACTGCGAAAGGTCCAGGTCTTCAAAGTGGGAATATTGCTGGGAAA
GAAACGTACTTTGACGTGTTTACTACTGGTGCCGGAATTGGAAACGTAGATGTGGATGTT
ACTGGACCAAATACAAACGTCAAGTGTGATATTCGCCAAGTGGACGACTTTGTTTACAGG
GTGTCATATTTGCCACAAACGGCTGGCCCTCATAAAATCGATATTTCGTTTGCTGGTTTT
CAAATTCCTAAAAGTCCTTACCACGTTGATATATCATTACCACTGAATCCAAGCGCAGTC
TGGGCTGAGGGACCTGGTATCGAGCCTGAGGGTGTAGTGGTACGACACAAAGCTATCTTC
ACTGTCCACACTGAGAATGCTGGTGATGGGAAACTGGGAGTTAAAATTATTGGACCTCAT
GGTGTTAATGAACCCGTTGGTATAGAAGATATGAAAGATGGAACCTATACTTGCAGCTAT
CTTCCAAACAAGCCTGGGTTATATATTGTTACAATTTCTTATGCCGAAAAAGCAATACCA
AGAAGTCCAATCCGGGTCAACGTCAGTGTTCCAGCGGATGCTGGCAAAATCAGAGTTCAA
GGACCGGGAATAGAGCCAGGAAATGTTGTTGGTCAGCAAACTTACTTGGATGTTATTGCA
ACAGATGCCGGTAACGGAATTGTTGAAGCTCACATAGTCGGCCCCGATGGCTGTGAAAAT
TCAGTACCGATTAATATAGAAAGGCGCCCAGACAATGTGTATCGTTGCACTTACATCCCA
ACTGTGAATGGAAAGCACAAAATCCATGTTTTGTTTGGTGGGGAACAAGTACCTAAGAGT
CCTTTCCATGTAGACATCTCTCCCGATTCAGGTTTGGAAAAGCAAAAGCAGCCAATTTAT
GAAAATGTAAACCCATCAGCTGTATTATATCCAACTCAGAAGCAAATTCAACTAAAATCC
CCGAAAGCGTTTAATGCTGGCGCATGTCTGGCATACGGACGGGGTATTCAGCCTCGAGGA
TTACGTGTAAATGAAAAAGCTGATTTTTTTGTGACAACAAAGGATGCTGGAGAAGCGGAA
CTAGATGTTGTTGTTAAGGGACCAAGAGGAAGCACGGAACCTGTGAATCTGAAGAAAAGT
CGTGATGAACCTGACTTGTATGAATGTGAATATTATCCCCTGAAAAATGGTGACTATACA
GTGGATGTTACATATGGTGGAAAGGCAATACCAAAAAGTCCATTCAAGATCGCAATTGGC
AAAGAGATTGGTCCACAGAAGGTCAGAGCATATGGTCCGGGGCTTCATGGTGGCAAGGTT
GGGCATTCAGCTGATTTTGTGGTTGAAACAACTGGGGCAGAAGTCGGGAAGCTAGGATTT
TCGATTGAGGGGCCTTCACAAGCACGCATAGAGTGTGAAGACAAGGGTGATGGTTCCTGC
GATGTGAAATATTATCCACTGGAATCGGGAGAGTATGCTGTACATGTCATTTGTGATGAT
GAAGATATTAAGGAGTCACCATTTATGGCGAACATCGAACCTGGGGATCACGAAACTTTT
CCGGATAAAGTACGAGCATATGGGCCTGGTTTGGAAGAGAATGGACCGGTGGTAGGAAGA
CCTACTGAATTTACAGTGGATGCTAAATCTGCTGGGAAACTTGCCCCACTATCAAATATC
TTGAAAACTGCTGATGGTGACAACATTCCTGTTGATGTGGATGATAACCATGATGGTACT
TTTACTTGCAAATATACTCCAAAAAAGGCTGTGAAACACACAGTTATTCCAGCTTACGAT
GGTGTAGCAGTAAAAAAGAGTCCCTTCAGGGTTCTTGTTCAAGAAGATTCCCATCCTGAC
CGTGTGCGTGTTTATGGCCCAGGTGTAGAATCTGGCCTTAAGGCAGAAGAACCAACCTAC
TTCACTGTTGATTGTAGCAAAGCTGGATTTGGGGACATTAGTATTGGTCTCAAGTGTTCT
CCTGGAATTACTCCATCTCAACATGAGTCTGATGTTTTATTTGACATCATAAAAAATGAT
AATGATACATTCACTGTGAAATACACTCCTCCTGTACCTGGAAATTATGTGATTATGGTC
TTATTTGCTGATGTTGAGATTCCTCAAAGCCCAATCAATGTTAAAGTAGCCTCCAACCAC
AATGCTAAACGAGTGCGTGCTGATGGACCAGGCCTTCAAAAGAATGGTGTGGAGTGTGGA
AAAACAACCCATTTTACCATTCATACACGAGGTGCTGGTAAAGCCAAGCCGGATGTTAAA
TTTTTACCGCCTCGTGGCGAGTACTCTGCACCAGCGAAACATCCTGAAATAATTCATAAT
GAGGATTCGACCTATACTGTGAATTATACTCCTGATGGGAAAGGTCCTATGGTTGTTCAA
GTAACATATGGTGGTGACGAAATACCAAACAGTCCATTTCATGTCAATGTCGCTCCTTCC
ATGGATATAGATAAAGTTATAGTCAGAGGGCTTGCAGATGATGTGAAGGTGAACGAGCTT
CAGGAATTTCAAGTAGAGACTACAGGAGTAGGTGGAAAGGGAGATTTGAATGTATTGATA
ACTGATCCAAATAACCAGGAGGTTCCCGTAAGAAAAAGGGATAATCCCGATGGATCCAAT
TTTTCATATACTCCAAAACAACCAGGACCTTACCGAGTTGATGTTAATTATGATGGAGTA
CCAGTAAAGAACAGTCCATTTTTGGTTGAGGCCTACATTCCTCCAGATGCTGGAAAAGTG
CGTGCTTACGGGCCAGGTTTGAAGTCAGGAAAAGTTGGATCATTGGCTCCTTTCACAATT
GATACTACTGATGCTGGAAATGGGGGACTTGGTTTAACAGTTGAAGGGCCATGCGAAGCC
AAAATTGAATGTGTAGACAATGGCGATGGCACATGTTCAGTGACATATTTGCCAACAGAA
CATGGTGAATACAATATCAATGTGCTCTTCGCTGATTCACATATCCCAGGATCACCATTC
ACTGCTGTTATAGAGCCAGTATTTGATGCATTGCAAGTCACCGTTGACGGCACTGGTCTT
AATAAAGGCAAGGTTGGTCAGAAATCCGCATTTGCTGTTGATTGCTCTAATGCAGGCGAA
GCACCACTGACTGTACTGGTTTTCAATGAAGATGGTACCAAAGTTCCAGGAATTGAAGTT
TGTGATGATGGAGACGGGAAATATAATGCTTCATTCATTCCAAATAAGCCTGGAAAAGCA
ACCGTGAAGGTTCAATATGGTGGCATGGATGTTCCAAATACCCCAAGGAAAGTTGATATT
TCACCTGATATAGATACAAGCAGTGTGAAAACTTTCGGTCCAGGAGTGGAAAAGAATGGA
GTTTTGGCAGATGTAGAAACTGAATTTACGGTTAATGCCAAGAGACTTGCACCACATGGT
GGTGATCATGTGCATGCCAAGGCAGTTACACCAAGTGGTAATGAATTGCCAGTCAGTGTT
GTAGATATCAGGGATGGTACTTATCAAGCTAGTTACTCACCATTTGAGCAAGGGTCCTAC
GATATAGTTGTCGATTATGACGGAATTGCTGTCCCAGGATCACCTTTTCCTGTTGAAGTC
CATGAGGGTTGCGATTCAAGCAAAGTAAAAGCATATGGCCCAGGGCTAGAAAAAGGGAAA
ACAAACCAGCCTGCCAAATTTACGGTCGATACAAGGGGTGCAGGTACAGGTGGACTTGGA
CTTGCAGTTGAAGGTCCTTCAGATGCAAAGATTGTGTGCACGGATGGAAAGGATGGGACA
TGTCAGGTTGAGTACTTTCCAACTACACCAGGAGATTATGAAGTCAATGTCACGTATGGC
GGTGACAATATTCCTGGTTCACCATTCGTAGTACCAATATCAGATGTTGTAGACCCATCG
AAGGTTATTTGTATGGGCCCTGGTCTTTCTCAAGCTGTCCGTATGAATATCGCACAGAAA
TTCACGATCGATTGCACAAAGGCTGGAATTGCACCATTAGATGTTGCAGTGAAAGGTCCC
AGGGGTACCAAGGAGCCTGTCAACATCACAGACAATAATGATGGCACATTCACAGCCAAT
TATACTCCAACGCGGGAAGGTCCATATCAGATAAGTGTAAAATATAATGATGAAGATGTA
CCAAACATGCCAAAACGTTTACGCATCTTGCCTACTCATGATGCTTCTAAGGTTAAGTGT
TCTGGCCCAGGAATTGAGAGCGGGATTCCTGCTTCTCTTCCGGTAGAATTTTTAATTGAT
GCGAAAGATGCTGGTAATGGAATTCTGGCTGTTCAAATCACGAATCCCAAACGCGAAAAG
GTATTGACTGAAGTTCCTGCCAGGTGTCAAAATACTATAGAAGAGAGCAGTGAGCCCTCT
TCTGAGGATGAGAAGAAGTTTTCTTTTAATTTTACTTGTATTATTAGTAGGAAGATCATT
TCAAGTTTAAATATAGTAACAATTAAATTGTCCAAAATATTGTTAACAGTGAGCAAAATC
AGCATAAAAAGTAGGGAGGATCCTGAAGGTTATCCAAAAAAAGCAAAAATCAAAGATAAT
GGCGATGGAACCTATGCTGTCTCTTATGTGCCTGATATTGCTGGCCGTTACACCGTGTCA
ATTAAATATGGTGGAGACGAGGTGCCATACTCTCCATACCGCATAAGAGCTGTATCCTCG
GGCGATGCTAGCAAATGTATTGTTATAGGAGATGGAACTGGACCTACAATTGCAGTAGGT
AAGGAAGCCAATATATCAGTTGATGCTTGTGCGGCTGGACCTGGCAATGTGAACTGTGCT
GTTGTCACTCCAGACGGGGACTTCATGGATGTTGATGTTGTTGATAATAAAGATGGCACA
TTCAATGTATTCTACACTGCTCCAAAACCTGGACCCTATACAGTTAATATACGGTTTGGT
GGTGAGATGGTCCCCGATAGTCCTTTCCACATTAAGGCAGTAAAATCAGAAGACATCAGT
CCTCCTCTTGTTGAGGAAGATATGGTTCAGGCAGTTGATGCTGCTCCTGCTCATGCTTAT
ATGAATGGTGATGATCTAAACACTTTACAACAGAGTGTGGATGATGCTGATGAACTAAGA
GCAGTGGAATTTGTTTTTAGGCTACCAAAAAATTCTGGAGATCTAACAAGTTTGGTAAGA
ATGCCATCCGGTCAAACTGCAGTACCTACCATAACTGACAATCATGATGGAACTGTTTCT
ATCAGTTACCAGCCAACAGAGCCTGGTCTGCATAAAATGGACATCCTGTGTGACAAGGAG
CATATACCAGGGAGTCCGGTTGAGTTTTTTGTGGATACAATTGCATCAGGTCATGTTACA
GCTCATGGACCTGGGCTTGTTACAGGAAGGGTGAATCAACCTGCATATTTTACTATTGTT
ACGAAGGATGCAGGAGCAGGAGGCCTCGCTCTTGCTGTTGAAGGACCCTCGAAGGCTGAA
ATCACATGTGTTGATAACAAGGATGGAACATGCTCTGTAAACTACATTCCCACTGCACCA
GGAGAATACAATATTACTGTTAAGTTTGATGATGAGCAGATACCAGGAAGCCCTTTCTCA
GCTAATATTACAGATGGAACCAGTCCGAAAACTGCTAAACTCAGTCATGGTACTACCAGT
GATGTTGCTCTAAAAATCAATGAGTCTAACCTTGCAGCACTTTCTGCCAGTATCACAACA
CCATCTGGTAATGAAGAAGCCTGTCAGCTGAAACGCTTGTCTGAAGGTCGAATAGGGATT
TCATTTACACCACATGAAGTTGGTGATCATTATGTTAATGTACGAAAGCGTGATGGAAGG
CACGTCACAAACAGTCCATTCAAAATTAAAGTCGGACAATCGGAGATAGGTGATGCGAGC
AAAGTGCGAGTGTATGGGGAAGGTGTTGAGAAGGCTAGAGCATGTGAGACTGCTGAATTT
TTTGTTGACACAAGACAAGCAGGTTATGGAGGCTTAAGCTTGTCTATTGAAGGCCCAAGC
AAAGTTGATATTGATTGTCAAGACGAAAAAGACGGAGTATGCAAAGTAACTTACACACCA
GAAGAGCCAGGAACATATATGGTCAATATTAAATTTGCAGACAAACACGTACCAGGATCT
CCATTCACAGTCAAATGCACAGGTGAAAGTAACTTGCAAAAGGAAAGTATTGTCAGACAT
CGAAAAGCTCCCTCTGTCGCAACAGTTGGCAGCACATGCGATCTTAATTTGAAGATACCA
AAAAACTGGCTTGGAGCAGCGCGAAACAAACATTATAGCTCTTCTGCTGTTCGTAAATCA
TACAGCAGGTCAGAACGTATGACATACAGTCAATCAACTATAGGAGGTGTTAAGCAGCAA
CAAATCATGCAGGAAACATCTTGTGGCGGTTCACCTTTTGTCCCTGTATTTTCTCACCAT
ACTGGATTCGGAACGTTTCAACACACCGGTCAATTGAAAGAAGCTAACATCGGTGATTTG
ACTGCAACTGTAACTAATCCCTCTGGAGAGACAAAGGAAGCTCAGATATTTGAAAATGGA
GAAAATACATACAGTATTCGCTTTGTTCCAAAGGAAATGGGAGTTCATACTGTCAGTGTT
ATGTACCTTGGCAATCATGTTCCAGGAAGTCCCTTCCAATTCACAGTTGGTCCACTGGGT
GAAGGTGGTGCAAGTAAGGTTACTGCAGGAGGACCTGGTCTTGAATCTGCTGTTGTAAAT
ATTCCAGCTGAATTTAATATTTGGACAAGAGAGGCTGGTGCTGGAGGACTGTCTATTGCT
GTTGAAGGCCCTTGCAAAGCAGAAATAAACTTTGAAGATCGAAAGGATGGATCATGCGGT
GTATCATATATTGCAACAGAACCAGGTGAATATGAAGTCTCTGTTAAGTTCAATGATGAA
CATATTCCTGGCAGTCCTTACCCTGTTAAAGTGACAGGCATTGGAAGTGGACGATCACCA
AGAATGCGGGTCATACATGGAAAATCAGATCCTTCTGAGGTTACATCATATGGAAAAGGT
TTACGGCATGCTGTAATTGGTGAAAGCAACACTTTCACTGTTGACTGTTCAAGTGCAGGT
TCAAACATGCTACTAGTAGGAGTCCATGGACCTTTGACTCCCTGTGAGGAGGTATACGTT
AAGCACATTGGAAACCGATCATATTCCTGGAAGTCCTTTTCATGTTACTATCCCATGACA
GATCATAAAATAATAAGTGCACTGCAAAGACATCACATCCTTAAAAGTAGTGTCCAATAT
TGGATCGCTTTTCAAGCAAATCTTGTTAATAGACAATGTATTCTATATGGACTATTTTTG
AAGTACAATTTATATTGATTTTATTCAATTTGATGCGAGATACTTTGACTGGTAGTCTTA
ATAACTTTCGCTTGGGACTTTTGTTTACTTGGCATGTTGTTTAAAATACGCTGGATATAA
CTTGTACTGCTGTGCACATTCTGCGATTAATTTTGTTCATTATTCAATCTCTACTGCTTT
CGAAAATGTAATAATCCCCGCAATTTCAATGATGTTATTCTAATTCCTAATATGAAAGGA
GTAAATCATCAGAACCTTCGTCAGCACTGTATAATTATCCTAAACTAGCAATTGCAAGTT
TCTGCAAGGACATATATAATTTCGTTAAAATATAGCTGAATTGAAGTAACGCTACCTATT
CTGGTTCTGGTTTAACTGTAAAACTTGTTAACTAATATTTTCAGTTTTTAGTTTCCAACT
TTGTTAGATGCTGTATCCTTCCATGTAATCAGGTGCTGCCAACATATATGTCTGGGGTGG
TCAAACTGTAGGACTGACACTTAAATTCATTTGTAGGATCCTTAAAAGGTTACTACTGTT
AATATTTGAAGTATATTTGAATTTGAACTAATTTCTGTAAATCTCAATTAGGTAGTGTTC
TAATTTTGACTATTGCTTTTGCTACCTGCAGTTTGGCCATCATCAGTGCTGGTCTTATAA
TATTGTCGGTTGTTTTATTTCATTACAAGTACAATACCTGAATTTAATTTAATTAGGCAA
GTGCGGATGTACCAGAATGCCAACAGACCCCCAGCTTCTGAGTTGCCATGTTTATCTTCC
CGGTCACTGCTCCTCTTCAAACCGATGTAAAAACTGATGGTAAATTTCCATGAAATTCCG
GGACCCCTAAGTTGTGGGCCCTTGTTGAAGTTTCACACACCACTAAGATCGGCATTGAAA
CCATTCTTATATGTAATTACATATATCCATATATATATAGTACGCTTTATACATGGCTAA
AATGTCTAATTTGAAATCGGAAAATACATATAATTCATTTAACCGA

InterProScan

Gene3D	CH_dom_sf (IPR036872) - T[1-49] 5.5E-11
PANTHER	FLN_C (IPR032461) - T[1-360] 0.0 - T[344-1588] 0.0 - T[1658-2464] 0.0 - T[2478-2540] 0.0
SUPERFAMILY	CH_dom_sf (IPR036872) - T[2-40] 2.61E-6
ProSiteProfiles	Filamin/ABP280_repeat-like (IPR017868) - T[48-146] 28.801 - T[148-242] 29.664 - T[243-339] 29.726 - T[340-437] 30.178 - T[472-570] 28.123 - T[571-663] 28.74 - T[667-764] 26.479 - T[765-867] 26.685 - T[868-968] 28.801 - T[969-1062] 25.986 - T[1063-1155] 33.301 - T[1156-1251] 28.267 - T[1252-1351] 29.767 - T[1352-1444] 35.562 - T[1445-1540] 32.336 - T[1541-1708] 27.979 - T[1709-1804] 29.849 - T[1820-1922] 18.548 - T[1922-2014] 31.699 - T[2007-2102] 18.26 - T[2105-2197] 34.637 - T[2304-2367] 23.109 - T[2370-2462] 32.418 - T[2477-2540] 14.952
Gene3D	Ig-like_fold (IPR013783) - T[50-146] 4.1E-28 - T[148-245] 1.5E-27 - T[246-341] 8.9E-30 - T[342-455] 1.4E-27 - T[474-572] 2.4E-27 - T[573-669] 3.7E-32 - T[670-766] 2.7E-27 - T[767-870] 2.8E-29 - T[871-973] 6.7E-29 - T[974-1064] 4.0E-20 - T[1065-1158] 3.5E-36 - T[1159-1253] 4.1E-22 - T[1256-1352] 7.4E-26 - T[1353-1448] 3.0E-38 - T[1449-1542] 4.4E-31 - T[1543-1613] 5.3E-11 - T[1642-1711] 1.7E-15 - T[1712-1828] 1.3E-33 - T[1842-1926] 2.6E-19 - T[1927-2026] 8.5E-38 - T[2031-2106] 1.6E-18 - T[2107-2208] 8.6E-39 - T[2308-2366] 4.1E-23 - T[2367-2469] 5.7E-44 - T[2474-2571] 1.6E-15
SUPERFAMILY	Ig_E-set (IPR014756) - T[51-148] 5.48E-24 - T[150-243] 2.47E-23 - T[247-340] 3.4E-25 - T[330-441] 7.92E-28 - T[473-573] 2.6E-23 - T[553-666] 8.67E-31 - T[672-766] 1.2E-21 - T[750-872] 1.2E-26 - T[861-973] 1.4E-24 - T[961-1062] 5.6E-22 - T[1045-1157] 1.2E-34 - T[1148-1256] 4.0E-22 - T[1244-1356] 6.54E-25 - T[1335-1446] 1.8E-35 - T[1437-1542] 3.8E-29 - T[1523-1586] 2.94E-28 - T[1659-1711] 2.94E-28 - T[1702-1809] 2.0E-26 - T[1861-1937] 1.4E-14 - T[1925-2018] 8.67E-29 - T[2024-2103] 3.67E-13 - T[2088-2202] 2.42E-34 - T[2297-2387] 1.4E-21 - T[2374-2464] 1.13E-27 - T[2460-2540] 3.67E-10
Pfam	Filamin/ABP280_repeat-like (IPR017868) - T[51-142] 2.8E-13 - T[150-239] 2.8E-15 - T[246-335] 4.4E-17 - T[343-434] 3.1E-17 - T[476-567] 1.1E-13 - T[574-659] 9.2E-15 - T[670-761] 7.3E-15 - T[768-863] 3.1E-14 - T[872-965] 9.2E-15 - T[972-1058] 7.8E-11 - T[1066-1152] 1.2E-18 - T[1159-1246] 8.5E-11 - T[1255-1347] 2.5E-13 - T[1355-1440] 9.5E-18 - T[1448-1536] 4.6E-17 - T[1545-1705] 1.2E-16 - T[1712-1801] 6.2E-16 - T[1873-1918] 1.4E-9 - T[1929-2010] 3.9E-17 - T[2109-2194] 7.1E-21 - T[2312-2364] 7.1E-7 - T[2375-2458] 8.4E-18
SMART	Filamin/ABP280_rpt (IPR001298) - T[52-149] 2.3E-31 - T[152-245] 2.0E-29 - T[247-342] 8.6E-34 - T[344-440] 1.7E-32 - T[476-573] 1.9E-30 - T[575-666] 2.4E-32 - T[671-767] 3.0E-27 - T[769-870] 9.4E-27 - T[872-971] 2.0E-28 - T[973-1065] 1.3E-22 - T[1067-1158] 1.6E-38 - T[1160-1254] 1.8E-18 - T[1256-1354] 1.4E-25 - T[1356-1447] 5.0E-40 - T[1449-1543] 1.1E-37 - T[1545-1627] 0.0067 - T[1632-1711] 1.1E-6 - T[1713-1807] 1.5E-28 - T[1824-1925] 5.1E-9 - T[1926-2017] 4.3E-40 - T[2019-2105] 2.5E-12 - T[2109-2200] 3.8E-42 - T[2288-2370] 7.5E-11 - T[2374-2465] 2.6E-39 - T[2481-2549] 0.0046

Best Blast Hits in UniProt

Protein Name	Identity	Bit Score
FLNC_HUMAN	40.775 %	1456
FLNA_HUMAN	40.176 %	1558
FLNB_HUMAN	40.907 %	1371

Transcript Model

Transcript Id

Possible name(s)

Gene model

Location

Amino acid sequence

Nucleotide sequence