Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 874

>Haaura.CG.MTP2014.S2.g00066.01.p
MTRHIVLALLVTTSFLVFSVRDVQSRRPQKGGNRGRFNRYGIGHSKPPIQHLRNGYKGGG
VNLPPRIHPRVFPHYPKNGQHRQQFPHNPYFHIITSQKLTWSREEGWHASKDEYQTEEQS
DEEGEEEEEEAEEESDTVDRENWKSQGSFTGDLRITCMNSQKKSNTKSRSATDSCSEGIV
EMYHKEYEQWGLVCADTWKIGSATVVCKYLNFKKGRASKIRGHQVPIALVDSPRFLREVS
CKGDEWTLTECPGERIKQNYTCRSTKYAAVKCSGNVRKAPKQACASSSLGCELGDRCIEA
SYVCDGMSDCPWGTDEQSCGEASCKKDQYWCGPSGGGCISNKYLCDGDNDCVDNGDERDC
EQYLESFTKTENYKKRKSKYGVAWENTNPYLCAQKCKEEETFVCTGFDFQKKRETCNLIS
SMPSLNLKYHKVWDHYERESMEDCTIANKYRCTDGSCITTDKVCDGRNDCPSGREEKECK
PLLVRLVGGSDSSEGHVEVSKGLKFGLICDTHWTMSEANVICRQIGFIRGAARALKGGSF
QRSDRTYYLDNVFCNGFETNLENCRHDEWSTTSCTVDHEAGVVCQKNGLTTNPTPTTTPS
PASSETNIGIRMRECGVKPDAAVDVGPLARVVGGSRTIPHEWPWQVGIWLPWTYWCGGSL
IDPCWVLTAAHCFTRQYSLDQYTITLGDHAAKMDDGTEQNFKIARVIKHDYDSETKDNDI
ALIQLQSEQGRCAQINDDVRLICLPKSTNQFSGSDICHISGWGKTSSTDTLPYSPVLLEA
PIPIISNDSCESDTVYTGLLTRNMLCAGYLAGGIDTCQGDSGGPLSCQDSNKLYYVWGIV
SWGNGCAKPKSPGIYTKVANYVDWIERNTGIDF*

Nucleotide sequence

Length: 3,162

>Haaura.CG.MTP2014.S2.g00066.01.t
ATGTTAATTTTCTACACAGATGCGTTCCCCACCTCACAGAATTTGCTACGCAATCACGGA
TATGTCCAAAAGCTGAAAGAAGCCGATGGACAACAGAGTAAAAACGTAAAATCTCGAAGG
AAGTATTACGAATGGGATTACACTAAGGCGCTAGGACCAATACATCACACCAAATCTATC
GGAGAAAATCAACGATTTTGGAAACCGATTGAAAGCGTTGTTTCGAGACGATTTGAGAAA
GTCATTTTGCCTAGAATTGAATATTTGTTGGTTTTTGCGTGCACTTCAAGCCAAGTTTAC
GATAGGTTTGAAATACCAGGCGAAAACGCTAGCCTTTATTGAATGCGAGTTTTGTAGATC
TTTTATTTTCGTATCGAACGTATTTACAGTATTTGATTTCAATTAACGACTAGCAGTATT
TGTACACTTCAAGTTTCGAGTACTTCCGTCGATGCAAATTTATTTATTTGGAACGCAAAA
AGAACCGGAAAATCTCTAAATGATATAAAGTTTTTTTTTATAGCTTCTACACCGAAAGGA
ATGACGAGGCACATCGTATTAGCTTTGCTTGTTACTACAAGTTTCTTGGTATTTTCTGTC
AGGGACGTACAGAGTCGAAGACCTCAGAAAGGTGGGAACAGAGGCCGTTTTAACCGTTAT
GGTATAGGGCATTCGAAGCCTCCTATACAGCATCTGCGAAATGGGTATAAAGGAGGAGGA
GTAAATCTCCCACCCAGGATCCATCCTAGGGTCTTCCCACACTACCCTAAAAATGGACAG
CACCGACAACAGTTTCCACACAATCCATATTTTCACATTATTACCAGTCAAAAACTGACG
TGGTCAAGAGAAGAGGGATGGCATGCGTCTAAAGATGAATATCAGACTGAAGAACAAAGC
GACGAAGAAGGGGAAGAAGAAGAAGAAGAAGCTGAAGAAGAGAGTGATACTGTGGATAGG
GAAAATTGGAAAAGTCAAGGAAGTTTCACAGGTGATTTGCGAATAACATGTATGAACAGT
CAGAAAAAGTCCAATACAAAATCAAGATCTGCAACTGATAGCTGCAGTGAAGGAATTGTG
GAAATGTATCACAAGGAGTATGAGCAATGGGGCTTGGTGTGTGCCGACACCTGGAAAATT
GGCTCAGCAACAGTGGTCTGCAAGTATCTCAACTTCAAGAAGGGTAGAGCCTCCAAGATC
CGAGGTCATCAAGTTCCCATTGCATTGGTCGACTCTCCACGTTTTCTTAGGGAAGTATCT
TGCAAAGGAGACGAATGGACGTTGACTGAGTGTCCAGGAGAAAGAATTAAGCAAAATTAT
ACTTGCAGAAGCACCAAATATGCTGCAGTGAAATGCTCAGGTAATGTACGCAAAGCACCC
AAGCAGGCATGTGCATCTTCAAGTCTGGGATGTGAACTTGGAGATAGATGCATAGAAGCA
TCGTACGTCTGTGACGGTATGAGCGATTGTCCATGGGGAACAGACGAGCAAAGCTGTGGT
GAAGCTAGCTGTAAGAAAGACCAGTACTGGTGCGGTCCATCTGGTGGAGGATGCATAAGC
AACAAATATCTGTGCGATGGAGATAACGATTGTGTTGATAATGGAGATGAAAGGGATTGT
GAGCAATATTTGGAATCATTCACGAAGACTGAGAATTACAAAAAGCGAAAAAGCAAATAC
GGTGTCGCATGGGAGAACACGAATCCATACTTATGTGCTCAGAAATGTAAGGAAGAAGAG
ACCTTTGTCTGCACCGGGTTCGACTTCCAGAAGAAACGTGAAACCTGTAACTTGATCTCA
TCAATGCCGAGCCTGAATCTGAAATATCACAAGGTTTGGGATCATTATGAGAGGGAAAGT
ATGGAAGATTGTACTATCGCAAATAAATACAGATGTACCGATGGAAGTTGCATTACTACT
GACAAGGTCTGCGATGGTAGAAACGATTGTCCTAGTGGTCGAGAAGAAAAAGAATGCAAG
CCTCTGCTCGTTCGTTTAGTAGGAGGATCGGATTCGTCCGAAGGCCACGTTGAAGTGTCG
AAAGGATTGAAATTCGGTCTCATTTGCGATACGCACTGGACCATGAGCGAAGCAAACGTC
ATTTGTCGTCAAATTGGATTCATACGTGGTGCCGCTAGGGCGCTCAAAGGTGGAAGTTTT
CAGCGTAGTGATCGTACATACTACCTTGATAACGTATTTTGCAACGGATTCGAAACCAAC
CTTGAAAATTGTCGACACGACGAATGGTCCACGACTTCTTGCACCGTCGATCATGAAGCA
GGCGTAGTTTGCCAGAAAAACGGTCTCACCACCAATCCTACTCCTACCACTACTCCCTCC
CCCGCGTCCTCCGAAACAAATATCGGTATACGGATGAGAGAATGTGGTGTTAAACCGGAT
GCTGCAGTAGATGTCGGTCCTCTCGCTCGTGTTGTAGGAGGTTCGAGAACAATTCCGCAC
GAATGGCCGTGGCAGGTTGGTATATGGCTTCCGTGGACATACTGGTGCGGTGGATCACTT
ATAGACCCTTGCTGGGTGTTGACAGCTGCACATTGTTTTACGCGCCAATATAGCCTTGAC
CAATATACAATTACGCTGGGCGACCACGCTGCAAAGATGGACGATGGGACGGAACAAAAT
TTCAAAATAGCTCGAGTGATAAAACATGATTACGACAGCGAAACTAAGGACAATGACATT
GCGTTGATTCAACTCCAGTCCGAGCAGGGAAGGTGTGCACAAATCAACGACGATGTTCGT
TTAATTTGTTTGCCAAAATCGACCAACCAATTCAGTGGATCTGATATTTGCCATATTTCC
GGATGGGGGAAAACTTCTTCCACTGATACCTTGCCGTACTCACCGGTTCTTCTAGAAGCA
CCCATACCAATCATATCGAATGACTCGTGTGAATCAGATACTGTATACACAGGATTGTTA
ACAAGGAATATGCTTTGCGCAGGATACCTAGCTGGAGGAATAGACACATGTCAAGGAGAC
TCAGGAGGTCCTCTATCCTGCCAGGATTCCAACAAATTATATTATGTGTGGGGCATTGTC
AGCTGGGGAAACGGGTGCGCTAAACCAAAATCACCGGGAATCTACACCAAAGTCGCCAAT
TACGTTGACTGGATTGAGAGAAATACAGGCATCGACTTTTAG

InterProScan

SMART	SRCR-like_dom (IPR017448) - T[153-273] 7.0E-20 - T[484-585] 6.7E-31
ProSiteProfiles	SRCR (IPR001190) - T[153-273] 19.694 - T[484-585] 25.452
Gene3D	SRCR-like_dom_sf (IPR036772) - T[164-279] 3.7E-18 - T[477-591] 3.7E-28
SUPERFAMILY	SRCR-like_dom_sf (IPR036772) - T[173-275] 2.49E-18 - T[483-586] 1.57E-26
Pfam	SRCR (IPR001190) - T[174-273] 1.2E-16 - T[487-585] 5.9E-22
SUPERFAMILY	LDL_receptor-like_sf (IPR036055) - T[280-319] 1.15E-6 - T[323-363] 5.63E-7 - T[448-483] 1.23E-7
Pfam	LDrepeatLR_classA_rpt (IPR002172) - T[283-319] 4.9E-6 - T[323-360] 4.1E-7 - T[443-479] 1.5E-6
SMART	LDrepeatLR_classA_rpt (IPR002172) - T[283-321] 0.0019 - T[323-362] 2.0E-6 - T[443-481] 1.1E-5
ProSiteProfiles	LDrepeatLR_classA_rpt (IPR002172) - T[283-320] 11.387 - T[323-361] 12.4 - T[443-480] 12.25
PRINTS	LDrepeatLR_classA_rpt (IPR002172) - T[295-316] 1.7E-16 - T[336-357] 1.7E-16 - T[455-476] 1.7E-16
CDD	LDrepeatLR_classA_rpt (IPR002172) - T[296-319] 1.57251E-4 - T[324-360] 6.42816E-7 - T[447-479] 2.74575E-6
ProSiteProfiles	Pan_app (IPR003609) - T[360-440] 8.105
PRINTS	SRCR (IPR001190) - T[484-500] 4.4E-12 - T[503-514] 4.4E-12 - T[518-528] 4.4E-12 - T[550-564] 4.4E-12 - T[573-585] 4.4E-12
SUPERFAMILY	Peptidase_S1_PA (IPR009003) - T[626-870] 6.12E-81
SMART	Trypsin_dom (IPR001254) - T[630-865] 7.2E-91
ProSiteProfiles	Trypsin_dom (IPR001254) - T[631-870] 37.515
Pfam	Trypsin_dom (IPR001254) - T[631-865] 2.2E-69
CDD	Trypsin_dom (IPR001254) - T[631-868] 1.16351E-94
ProSitePatterns	TRYPSIN_HIS (IPR018114) - T[667-672] .
ProSitePatterns	TRYPSIN_SER (IPR033116) - T[815-826] .