Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 2,792

>Harore.CG.MTP2014.S30.g01378.01.p
MSASVKSPTVQTPGSEPRTPRSSIGSMDYSYRRYSRGIEDFPDHPISPLSVTAMEGRFKQ
LQDEREAVQKKTFTKWVNSHLQRVSLRIQDLYMDLRDGKNLMKLLEVLSGEKLPKPTRGK
MRIHCLENTDKALKFLKEKKVHLENMGPHDIVDGNHRLILGLIWTIILRFQANISVETED
NRETRSAKDALLLWCQMKTAGYPNVNVHNFTTSWRDGLAFNAIIHKHRPDLIDYEKLKKS
NAMNNLHNAFNVAENQLGLTKLLDPEDVAVEHPDEKSIITYVVTYYHYFSKMKAIAVEGK
RIGKVLDSVIDSDKMVEKYNKIASDLLEWIEQTVMILNDRNFANSLTGVQQQLTAFSTYR
TVEKPTKFEEKGNLEVLLFTLQSKMRANNQKPYTPKEGKLVFDINKAWGGLEKAEHGREI
DLRNELIRQERLEQLSSRFDRKAAMRETWLSDNQKLVSQDNFGIDLPAVEAATKKHEAIE
TDVKAYEERVQAVVAVANELDTENYHDIKRIIDRKENILNLWEYLLELLRGRRARLELNV
ELQQMFQEMGSLVDWMEEMKAQLQSEDYGQHLMGVEDLIQKHTLLEQDIAVHGDRVKVLE
AQSSKFMEKQDGDYLPCDTTVVEDRRNLVSSTYADLCQLAAQRKVKLDESRRLHQFFAEM
SEEMAWAREKESVLNSDDIGRDLTSVQSLLNKHKALEDEMNGRKMMLDQSIKAGELLVEQ
EHFASDDIQEKIKDVEQQWKNLEDLAKARRKRLGEASDIYQFLVDADDVDTWLVDTLRLV
STEDCGRDEASVEILLKKHSQVEVELKDFAEAIEALHEQAGKLPEHDRESTEVQERLRSI
DGRYKELLKLAKLRKEKLIDSRSLYKFFSEADTVLVWIDEKEQVLRTMSIPDNIEDMELI
RHRFDGYEKEINKQAPQIAVVNQVARQLLHMQHPNSDEIVEKQNHLNTRWSELRALLDDR
REALSSAQGIHSFRLECDETMSWIREKSRLVGSTEDLTNDLAGVMALQRKLSSMERDLAA
IQAKLDNLQEEADKLAAEHPEEADDIRKKFEEISKVWQELKELLKKREDSLGEAGNLQKF
LQNLDDFQAWLTKTQTAIASEDLPQTLSEAEKLLQHHNAIKLEIDNYEDDYQKIKETGAE
VTQGHEEDPQYMFLAQRLQALDQGWDELQKMWENRNNFLTQAHQYQAFLRDCKQAEQLLS
NQEYALASTRTQASIGSPGIQEEEGQDVVDSGPRTLMASPDAADEALKKHEAFVASMAAN
DERISAVLRSAEALSNPEHEHYAADKIKERAERVDERQKKNKLEAQAVTDLLQENLAMQK
FYADCEELNEWINEKMLTAKDATYDDARNLHSKWQKHQAFAAELAANKDRLTRLEEEGHT
LAEAKPERTNEIEDRLEELRRKWAELESSTANKEKTLFEAHKAELFTQTCEELEKFVTRM
DQQLNSVEYGKDLASVNALLKNHSADSDEIEVRKQEVEELESQANALRDEGSDVDDMDKK
QKEVKTRIEELIEPLSRRKQMLDASKQLHQFYRDIEDEKLWVDEKLPQAVSTELGSSLQE
VQTLEKKNQSLKAEIDGHEPRIEAVCTRGQEMATEDNPHSDKINDKIYEIQDKWNVLNEE
VEARQNRLAEAERAQRYYFDASEAEQWMGEQELYMMSEEKAKDAQNATNMLKKHTVQEQS
IEDYAETIQQLSQTSRKLAEDQHPESEQITERQVQVDKLYAGLKDLASERRHKLVERCDL
FRLGREIDDLEQWIAEREVVASSQELGQDYEHVTTLQEQFQVFRRDTIKTGEERVGEANK
FADRLIDNGHIDGVLIGEWRDRVNDAWADLLELIETRVQLLAASYSLHKFYHDSEETLAR
ISEKRKQIPEEMGGDCLSVEDYQRKHEIFTQDIQAIGSQVNAICGTGKSLEASYAGEKKQ
QIIDRGDEVKKAWEDLLKSVDYRRESLVDTHDKFCFFNMVRDLLAWMATVMRQIDSQEKP
KDVSGVEMAISAHQGIKSEIDARDGSFEECTKLGEELLEREHCASEEISLKMKELYEIRN
KMVDKWQMKWEWLQLMLEVYQFAHDASVCEAWLSQQQGIARGDVESETERSIAETEQMLR
KLDGFEKAAVPWESRFMALEKLTVLEVKEVEEKKKAEEEAERKRIQDEEDERRRKQEQEE
NDERMRIEAELAAAAAAQQPLVNGDGSHDEEGVREVPEIHIIEEVQQQADAVVNGDDEEA
AAGGDATHDDSTLDTSAYADSKFEGHLQRKQEFDNEGKKSSNSSQMTSSDNWSLLPNCPS
FSESEESPQKSSQYEEFFNGLLPVTPEENDLGSMKPPWLRKKTKKAKPSILDEICKTRDE
QEVAGDNGTPRKVEKKTVSFLRKRLFLSESKKESSPEKAVIFGGNFIKDTENISVCSSSN
YLELGSESDSRIEELSCSLDSSSVITPNFLMSTSSEETSYFTSSSSSCFTLPSDSATSHN
PSMDDSESPQNYLNSSNSKKISTSTPSDPDSKTSPLSWDNSRILSKSSSLKISESFTRNS
SKRSSSTSSSSSHDDKARKERKPRSKSAIIPKMRDRVKDPKPDSKSDDEGVPLDADTPVK
MRNKPQTDLEDFRGYLHRKYVMFSPVKKASNRSWNNVFCSISDRQLKFFKDQKSAKTDTL
FHGESPMDLKDAKCEIANDYKKRKHVFRLKLPTGLEFLFQAKDDEEMQNWIGRLQSLDVS
VGSALSTPTRQSLNADPSPKSKKRRSWRCSLESSWQCCIIASVEYVKAPQILGYFLSSCL
KGCCPLYKIYIRAELFSIAFIQHFALSLKIVT

Nucleotide sequence

Length: 8,379

>Harore.CG.MTP2014.S30.g01378.01.t
ATGAGTGCATCCGTAAAATCACCCACGGTACAAACCCCGGGGTCCGAACCGCGGACCCCG
AGGAGTAGCATAGGATCAATGGATTACTCGTACAGGAGATACAGTCGTGGAATAGAGGAT
TTTCCAGATCACCCAATATCACCATTGTCTGTTACAGCTATGGAAGGGAGGTTTAAACAA
CTCCAAGATGAAAGAGAAGCTGTACAAAAGAAAACATTCACAAAATGGGTGAATTCTCAT
CTTCAGAGAGTGTCACTACGTATTCAAGATCTTTACATGGATCTTCGGGATGGAAAAAAT
CTCATGAAGCTTCTTGAAGTTTTGTCAGGAGAAAAATTGCCGAAACCGACCCGTGGCAAA
ATGAGAATCCATTGCTTGGAGAACACGGACAAGGCTTTGAAATTTCTCAAAGAAAAGAAA
GTGCATCTGGAAAACATGGGACCTCATGACATTGTCGATGGCAACCATCGTCTCATACTC
GGTCTCATCTGGACGATCATTCTGCGTTTCCAGGCAAACATCAGCGTGGAAACTGAAGAC
AATCGTGAGACTCGATCTGCTAAGGACGCATTGCTCCTCTGGTGTCAAATGAAAACAGCT
GGTTATCCCAACGTCAACGTGCATAACTTCACCACTAGCTGGCGTGATGGACTGGCATTC
AATGCCATTATCCATAAACACAGACCTGATCTCATTGATTACGAAAAACTGAAGAAGTCA
AATGCGATGAACAACTTGCACAATGCATTCAATGTTGCAGAAAATCAACTTGGTCTCACC
AAGTTATTGGATCCAGAAGATGTGGCCGTCGAACATCCTGATGAAAAATCCATCATTACT
TATGTCGTCACTTATTATCATTACTTTTCCAAGATGAAAGCTATTGCTGTTGAGGGAAAG
AGAATTGGAAAGGTATTGGACAGTGTGATTGACAGCGATAAAATGGTCGAGAAGTACAAT
AAAATCGCATCTGATCTTCTCGAGTGGATCGAACAAACAGTGATGATACTCAATGACAGA
AATTTTGCAAATTCTCTAACAGGAGTTCAGCAACAGCTGACAGCATTCAGTACTTACCGG
ACAGTGGAAAAACCTACTAAATTTGAAGAGAAAGGCAACCTTGAAGTTCTCCTTTTCACT
CTGCAAAGTAAAATGAGAGCAAACAATCAGAAACCATATACCCCAAAAGAGGGAAAATTG
GTTTTTGATATAAACAAGGCATGGGGAGGTCTAGAAAAAGCAGAGCATGGACGAGAAATT
GATCTGAGAAATGAACTGATTCGTCAGGAACGCCTCGAACAGCTTTCTAGCAGATTTGAT
AGGAAGGCCGCAATGAGAGAGACATGGCTTAGCGACAACCAGAAACTTGTCTCCCAGGAT
AACTTTGGCATCGATCTTCCTGCCGTGGAAGCGGCGACGAAGAAGCACGAAGCTATCGAG
ACGGACGTCAAGGCGTACGAAGAACGAGTGCAAGCTGTTGTTGCCGTCGCCAATGAACTG
GACACTGAAAATTATCACGATATCAAAAGAATTATCGACAGAAAGGAAAATATTCTCAAC
CTTTGGGAATACCTGCTTGAGTTGCTTAGAGGACGCAGAGCAAGACTTGAATTAAATGTT
GAACTTCAACAAATGTTCCAAGAAATGGGGTCACTGGTTGACTGGATGGAAGAAATGAAG
GCTCAGCTACAGTCAGAGGATTATGGACAGCACTTGATGGGCGTCGAAGACCTGATACAA
AAGCACACCTTACTTGAGCAGGATATAGCTGTGCATGGAGACAGAGTGAAAGTACTCGAA
GCACAGAGTTCAAAGTTCATGGAAAAACAAGATGGTGATTACCTGCCTTGTGACACTACT
GTGGTTGAAGACAGAAGAAACCTTGTATCTTCGACATACGCCGATCTTTGTCAGCTTGCA
GCTCAACGTAAAGTGAAACTCGACGAATCTCGACGTTTGCATCAGTTCTTTGCCGAAATG
TCTGAAGAAATGGCCTGGGCAAGAGAAAAAGAGAGCGTATTGAACTCAGATGACATAGGT
CGTGACCTCACAAGCGTCCAATCGCTGCTCAATAAGCATAAGGCTCTCGAAGATGAAATG
AACGGACGTAAGATGATGCTCGATCAATCGATCAAAGCTGGAGAACTTCTCGTGGAACAG
GAACATTTTGCTTCAGATGACATCCAGGAAAAGATCAAGGATGTAGAACAGCAATGGAAA
AACCTGGAGGATTTGGCGAAGGCGAGACGAAAGAGATTGGGGGAAGCGAGTGATATCTAC
CAGTTCCTCGTTGATGCTGATGATGTCGACACTTGGCTAGTGGACACTCTCCGTCTGGTC
TCCACGGAAGACTGCGGACGTGACGAAGCTTCAGTGGAAATCTTGTTGAAGAAACATTCA
CAGGTTGAGGTTGAACTGAAAGATTTTGCTGAGGCGATTGAAGCGCTTCACGAACAAGCT
GGTAAACTACCTGAGCATGACAGAGAATCAACAGAAGTACAAGAACGTCTTCGCAGCATT
GATGGACGATACAAGGAACTATTGAAACTGGCGAAGCTAAGAAAAGAGAAATTGATTGAT
AGCAGATCACTTTACAAGTTCTTCAGCGAAGCCGACACTGTCCTTGTGTGGATTGATGAA
AAAGAACAAGTTCTCCGTACTATGAGTATTCCTGATAATATTGAAGACATGGAACTTATT
CGGCACAGATTTGATGGCTATGAGAAGGAGATCAACAAACAAGCACCGCAAATTGCAGTT
GTAAATCAAGTTGCCAGGCAATTGCTTCACATGCAGCATCCTAATTCAGATGAGATTGTT
GAAAAACAAAATCATCTCAATACGAGATGGAGCGAACTCCGCGCTCTCCTTGACGACCGT
CGTGAAGCTCTATCCTCCGCTCAAGGTATCCATAGTTTCCGCCTGGAATGCGACGAAACT
ATGAGTTGGATCAGAGAAAAATCGCGATTGGTCGGTTCTACAGAGGATTTGACCAATGAT
CTAGCTGGAGTGATGGCTTTGCAACGCAAGCTGTCGAGTATGGAAAGAGATTTGGCTGCG
ATACAAGCAAAGCTGGATAACCTGCAAGAAGAGGCTGATAAACTAGCGGCGGAACATCCA
GAGGAAGCCGATGACATCCGGAAGAAATTTGAAGAAATCTCTAAGGTTTGGCAAGAGCTG
AAAGAGCTCTTGAAGAAACGTGAAGATTCTCTTGGAGAAGCAGGAAACTTACAGAAGTTC
CTGCAGAATCTTGATGACTTCCAGGCATGGCTTACAAAGACACAAACTGCTATCGCATCT
GAAGATCTCCCGCAAACTCTATCTGAAGCAGAAAAACTACTCCAGCATCATAATGCTATC
AAGCTTGAAATCGACAATTATGAGGACGATTATCAAAAGATCAAAGAGACAGGCGCTGAA
GTAACACAAGGTCATGAAGAAGACCCGCAGTACATGTTTCTCGCTCAAAGATTGCAGGCT
CTCGACCAAGGTTGGGACGAACTTCAGAAAATGTGGGAAAACCGAAACAATTTCTTGACA
CAAGCACATCAGTATCAGGCTTTTCTTCGTGACTGTAAACAGGCTGAACAACTTCTCAGC
AATCAGGAGTATGCTCTCGCCAGCACACGCACCCAGGCATCCATTGGTTCTCCTGGCATT
CAGGAAGAAGAAGGTCAAGACGTAGTCGACAGTGGACCAAGAACGCTGATGGCGTCGCCA
GATGCAGCGGATGAAGCTCTCAAGAAACATGAGGCGTTTGTGGCATCAATGGCTGCAAAT
GATGAACGTATAAGTGCAGTGTTAAGATCTGCCGAAGCTTTGAGCAATCCTGAGCATGAG
CATTATGCCGCAGATAAAATCAAGGAAAGAGCCGAGAGAGTAGATGAAAGACAGAAAAAG
AATAAACTTGAAGCTCAAGCTGTTACTGACCTGTTGCAGGAAAACCTCGCGATGCAAAAG
TTCTATGCTGATTGTGAAGAACTGAACGAATGGATCAATGAGAAAATGTTGACGGCAAAA
GACGCAACTTATGACGATGCAAGAAACCTCCATTCTAAATGGCAGAAGCATCAGGCATTT
GCGGCAGAACTCGCTGCCAACAAAGACAGACTGACTCGTCTTGAAGAAGAGGGGCATACG
CTCGCCGAAGCAAAACCAGAACGGACCAATGAAATCGAAGACAGGCTTGAAGAACTCAGA
AGAAAGTGGGCGGAGCTTGAATCAAGCACTGCCAACAAAGAAAAGACATTGTTCGAGGCT
CACAAGGCAGAGCTATTCACTCAAACTTGTGAAGAACTGGAAAAATTCGTCACGCGGATG
GATCAACAGCTGAACTCTGTCGAATACGGAAAAGACTTGGCCAGTGTCAACGCGCTATTG
AAAAATCACTCAGCCGACTCGGATGAAATTGAAGTTCGTAAACAGGAGGTCGAAGAGTTG
GAAAGTCAAGCGAATGCTTTACGTGATGAAGGTAGCGATGTTGATGATATGGACAAGAAA
CAAAAAGAAGTTAAAACAAGAATTGAAGAACTAATAGAGCCACTGAGCAGAAGAAAACAA
ATGCTAGATGCCAGCAAACAACTTCATCAATTTTACAGGGATATCGAAGATGAAAAATTA
TGGGTCGATGAAAAGCTACCACAAGCTGTCTCAACAGAGCTCGGATCAAGCCTTCAGGAA
GTCCAAACGCTGGAAAAGAAAAACCAATCGCTCAAGGCTGAGATTGACGGTCACGAACCC
CGGATCGAGGCTGTGTGCACTCGCGGACAGGAGATGGCTACAGAGGATAATCCCCATTCT
GATAAAATTAATGACAAGATCTATGAAATCCAGGACAAATGGAATGTACTCAACGAAGAA
GTAGAAGCTCGTCAAAACAGACTTGCCGAAGCTGAGCGAGCTCAGAGATATTACTTCGAT
GCCTCTGAGGCTGAGCAATGGATGGGAGAACAGGAATTATATATGATGTCTGAAGAAAAA
GCAAAGGATGCACAGAATGCTACCAACATGTTAAAGAAGCACACAGTGCAGGAACAGAGT
ATCGAAGACTACGCAGAAACGATCCAACAGTTGTCGCAAACTAGCAGAAAACTTGCTGAA
GATCAACATCCAGAAAGTGAACAAATCACGGAGCGCCAGGTACAGGTCGATAAACTATAC
GCCGGACTGAAAGATCTCGCATCAGAGCGTCGACATAAACTCGTGGAACGCTGCGACCTG
TTCCGTTTAGGCAGAGAAATCGATGACCTCGAACAGTGGATTGCTGAACGCGAGGTCGTT
GCGTCTTCCCAAGAACTTGGACAAGATTATGAACATGTTACGACCCTGCAAGAGCAATTC
CAAGTTTTCCGCCGGGACACTATCAAAACGGGGGAAGAACGGGTCGGAGAAGCGAACAAA
TTTGCAGACAGACTTATCGATAACGGACACATAGACGGAGTTTTGATCGGTGAATGGCGA
GATCGTGTGAATGATGCATGGGCCGATCTGCTTGAGTTGATAGAAACAAGAGTGCAGTTG
CTGGCCGCTTCCTACTCCCTTCACAAGTTCTATCACGATTCGGAAGAGACCCTCGCTCGC
ATCAGCGAGAAGCGGAAGCAGATTCCTGAAGAAATGGGAGGAGACTGTTTGTCTGTCGAA
GATTATCAGAGAAAGCATGAAATATTTACCCAAGACATTCAAGCTATTGGAAGTCAGGTA
AACGCTATCTGCGGGACTGGAAAGTCTTTGGAAGCTTCCTACGCCGGTGAAAAGAAACAA
CAGATCATTGACAGAGGAGATGAAGTCAAAAAAGCTTGGGAAGATCTTCTAAAATCAGTT
GATTATCGTCGCGAGTCACTCGTCGACACTCATGATAAATTTTGTTTCTTCAATATGGTT
CGTGATCTGCTTGCGTGGATGGCAACTGTGATGAGACAAATAGATTCCCAGGAAAAACCA
AAGGATGTGTCTGGAGTAGAAATGGCAATAAGTGCCCATCAAGGCATCAAATCGGAGATC
GACGCAAGAGACGGAAGTTTTGAAGAATGCACGAAACTCGGAGAGGAGCTGCTCGAACGC
GAGCATTGCGCTTCGGAGGAAATCAGTCTTAAGATGAAGGAACTCTATGAAATCAGAAAC
AAAATGGTCGACAAATGGCAAATGAAATGGGAATGGTTGCAGCTTATGCTCGAAGTTTAC
CAATTCGCTCACGACGCTTCTGTTTGCGAAGCCTGGTTGTCACAGCAACAGGGGATCGCC
CGAGGCGACGTGGAGTCAGAAACGGAGCGCAGCATCGCAGAGACCGAGCAGATGCTGCGA
AAACTCGACGGTTTCGAGAAGGCAGCGGTTCCATGGGAGTCGAGATTTATGGCTTTGGAG
AAGTTGACAGTTCTGGAAGTCAAGGAAGTAGAAGAAAAGAAGAAAGCAGAGGAGGAAGCA
GAGCGGAAACGAATCCAGGATGAGGAAGATGAGAGACGAAGGAAACAAGAACAAGAGGAG
AACGATGAAAGAATGAGAATTGAGGCGGAGCTTGCAGCCGCTGCAGCAGCTCAACAGCCA
TTGGTTAACGGAGATGGTAGTCATGACGAAGAAGGTGTGAGAGAGGTTCCAGAGATTCAT
ATTATTGAAGAAGTTCAACAGCAAGCAGATGCTGTTGTTAACGGTGATGATGAGGAGGCG
GCCGCGGGAGGAGATGCTACGCACGACGATTCCACCCTTGACACGTCTGCATATGCAGAT
TCAAAGTTCGAAGGTCATCTGCAAAGGAAACAGGAATTTGACAATGAAGGAAAGAAATCC
AGTAACAGCTCTCAAATGACGTCCTCTGATAATTGGAGTCTGCTTCCAAACTGCCCGTCT
TTTTCCGAGTCTGAGGAGAGTCCACAAAAGTCGAGCCAATATGAAGAATTTTTCAACGGT
TTACTTCCGGTCACTCCAGAAGAAAATGACCTTGGTTCTATGAAGCCGCCTTGGCTTCGA
AAAAAGACTAAAAAGGCTAAACCTTCCATTTTGGATGAAATATGCAAGACCAGAGATGAG
CAGGAAGTGGCTGGTGATAACGGAACACCGAGAAAAGTAGAAAAAAAAACTGTTTCTTTT
CTTCGGAAAAGGTTATTCCTCTCTGAGAGTAAAAAGGAATCTTCGCCAGAGAAGGCTGTG
ATATTTGGTGGAAATTTCATTAAAGATACAGAAAATATTTCTGTATGCAGTAGTAGTAAT
TACTTGGAACTTGGAAGTGAGTCTGACTCGAGAATTGAAGAGCTCTCATGTTCCCTGGAT
TCATCCTCTGTGATTACACCTAATTTTCTAATGTCAACCTCATCAGAAGAAACTTCATAT
TTCACTTCATCGAGTTCATCTTGTTTCACTCTACCGAGTGACTCTGCCACATCTCACAAT
CCATCGATGGATGACTCCGAGTCACCACAGAATTACTTAAACTCTTCGAACAGTAAAAAA
ATTTCAACCAGTACTCCGAGCGACCCGGACTCCAAAACATCCCCGCTCTCCTGGGATAAT
TCGAGGATTCTGAGCAAGTCCTCTTCTCTGAAGATATCTGAAAGCTTTACAAGGAACAGT
AGCAAAAGATCGAGCAGTACATCATCTTCGTCTTCGCACGATGACAAAGCACGTAAAGAA
CGCAAACCACGTTCTAAATCGGCCATCATACCCAAAATGAGGGACCGGGTCAAGGACCCC
AAGCCTGACTCTAAATCTGACGACGAGGGGGTTCCCTTGGATGCAGACACCCCTGTTAAA
ATGAGAAACAAGCCCCAGACGGATCTGGAGGATTTCAGGGGATACCTCCACCGGAAATAT
GTCATGTTTAGTCCGGTCAAAAAGGCCTCGAACAGATCGTGGAACAATGTTTTCTGCTCG
ATTTCCGACAGACAACTCAAGTTTTTCAAAGATCAGAAAAGCGCAAAGACCGATACACTT
TTCCACGGGGAATCTCCGATGGATCTGAAAGACGCTAAGTGTGAAATAGCCAATGACTAC
AAGAAACGAAAACATGTCTTCAGACTCAAACTACCAACTGGATTAGAATTTCTTTTCCAA
GCAAAAGATGATGAGGAAATGCAAAATTGGATCGGCCGACTGCAAAGCTTAGACGTTTCT
GTCGGCAGTGCCCTTAGCACTCCCACTCGCCAGTCGCTTAACGCAGACCCGAGCCCTAAG
TCCAAGAAACGTAGAAGTTGGAGATGTTCTTTAGAATCTAGTTGGCAATGCTGTATCATT
GCAAGTGTTGAATATGTAAAGGCACCACAAATTCTAGGATATTTTTTAAGTTCCTGTCTA
AAAGGTTGCTGTCCCCTGTATAAAATTTACATAAGAGCTGAGTTATTTTCAATTGCGTTC
ATTCAGCACTTTGCTTTATCCCTGAAAATTGTTACCTGA

InterProScan

Gene3D	CH_dom_sf (IPR036872) - T[50-175] 1.7E-47 - T[176-296] 1.4E-48
SUPERFAMILY	CH_dom_sf (IPR036872) - T[54-288] 7.66E-88
ProSiteProfiles	CH-domain (IPR001715) - T[67-171] 17.76 - T[185-287] 15.793
Pfam	CH-domain (IPR001715) - T[68-171] 1.4E-22 - T[186-290] 3.2E-26
CDD	CH-domain (IPR001715) - T[68-171] 5.73156E-24 - T[186-289] 4.00924E-28
SMART	CH-domain (IPR001715) - T[69-169] 4.7E-27 - T[187-285] 1.6E-23
ProSitePatterns	Actinin_actin-bd_CS (IPR001589) - T[69-78] . - T[143-167] .
Pfam	Spectrin_repeat (IPR002017) - T[315-423] 1.1E-12 - T[436-537] 8.7E-17 - T[541-649] 2.8E-20 - T[652-755] 2.4E-23 - T[758-858] 1.7E-16 - T[864-964] 2.5E-20 - T[970-1073] 2.8E-20 - T[1076-1179] 3.3E-17 - T[1317-1418] 1.0E-18 - T[1422-1523] 1.1E-12 - T[1526-1630] 1.5E-20 - T[1633-1735] 1.3E-18 - T[1740-1841] 1.2E-17 - T[1846-1947] 5.4E-14 - T[1956-2054] 6.4E-15
SMART	Spectrin/alpha-actinin (IPR018159) - T[317-423] 0.93 - T[437-537] 2.0E-23 - T[543-648] 2.5E-25 - T[654-754] 6.9E-30 - T[760-859] 7.8E-22 - T[865-965] 7.0E-27 - T[971-1072] 4.1E-23 - T[1078-1180] 1.7E-20 - T[1186-1313] 1.1E-4 - T[1319-1418] 2.6E-22 - T[1424-1523] 1.7E-16 - T[1529-1629] 1.5E-26 - T[1635-1735] 1.3E-24 - T[1741-1842] 1.1E-22 - T[1848-1948] 7.0E-16 - T[1954-2054] 2.5E-17 - T[2060-2157] 2.0
Gene3D	PH-like_dom_sf (IPR011993) - T[2586-2698] 2.0E-33
ProSiteProfiles	PH_domain (IPR001849) - T[2589-2699] 12.189
SMART	PH_domain (IPR001849) - T[2590-2701] 4.2E-9
PRINTS	PH_dom-spectrin-type (IPR001605) - T[2592-2611] 7.8E-22 - T[2612-2633] 7.8E-22 - T[2654-2671] 7.8E-22 - T[2674-2692] 7.8E-22