Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 906

>Moocul.CG.ELv1_2.S37723.g01859.01.p
MNTSFGHHGLRLADAIRMSTSEVIQELQADTKWGLSDGEVTRRRKVHGFNEFRIDEDDPL
WKKYIGQFKDPLILLLLASAFISICMKQFDDAFSITVAIVIVVTVAFVQEYRSEKSLQEL
TKLVPPTCNCLRGGKIQNFLARELVPGDVISLNIGDRVPADIRLITAVELHIDESSFTGE
TVPAMKCAELPNKPMTQDEQKANVAFMGTLVRSGKGTGIVISIGEHSEFGEVFKMMQAEE
APKTPLQKSMDALGKMLSFYSFCIIGGIVILGYFEGRRIVDMFTIGVSLAVAAIPEGLPI
VVTVTLALGVMRMANKNAIIKKLPIVEALGCVNVICCDKTGTLTKNEMTCTHVYTSDGTE
AAVTGMGYNRHGHVTVNDEIIMAPQYPSLWKLVEAGVVCNNAVISNGQLMGQPTEGAILA
VAMKLDMEGIAHEYQRVSEKPFTHEQKWMSVTCRNKEGGLVTFAKGATERIIDKCVGYFA
CNGQPTIEEMTNKDKERFTNQAHYMGSMGLRVLAIASSESDEVFTFLGLVGIIDAPREGM
YDVIQTLKGGGVNVKMITGDARETAVAISSRLGITAGKSRALSGTEVEQIDTNTLATIVP
NVSVFYRASPKHKLKIVKALQAGGSIVGMTGDGVNDAVALRKADVGIAMGKIGTDVCKEA
ADMIIVDDNLNTILNAIEEGKGIFYNIRNFVTFQLSTSIAALTLIGLATMFKLPNPLNAM
QILWINIIMDGPPAQSLGVEPVDHDVIKQPPRKVAEPIITRSLITRVLMAAAFIVIGTLY
VFWGEIRDNEITKHDTTMTFTCFVFFDMFNALSCRSQRKSLCEIGLFSNRLFLAAVGGSI
LGQMLVIYFPPLQAVFLTEALSLQDLGFLVLITSSVFVASEIFKFILRKQEKSNTTSSRY
NDSELV

Nucleotide sequence

Length: 3,713

>Moocul.CG.ELv1_2.S37723.g01859.01.t
AAATCATACTTTGGAAAATTGTTTCATGCACAGGGAAAATCACAACCGCAAGACCCAAAG
GAAGTTGACAACATGAACACATCATTTGGACATCATGGTTTGCGATTGGCAGATGCCATT
CGTATGTCAACTTCTGAGGTCATTCAAGAACTGCAGGCTGACACCAAGTGGGGGTTAAGC
GATGGCGAAGTGACACGTCGACGGAAAGTTCATGGTTTCAATGAGTTCCGCATCGATGAA
GATGATCCTCTGTGGAAGAAATATATTGGACAGTTCAAAGATCCGTTGATTTTGCTTCTG
CTTGCGTCAGCTTTCATCAGCATCTGCATGAAACAATTCGACGATGCATTCAGTATCACC
GTGGCGATAGTCATTGTGGTTACGGTCGCGTTTGTTCAGGAATATCGATCAGAGAAATCA
TTACAGGAACTGACCAAGCTTGTTCCGCCAACTTGTAACTGCCTTCGTGGTGGAAAGATC
CAGAATTTTCTCGCTCGTGAATTGGTTCCCGGTGATGTGATTTCATTAAATATCGGAGAT
CGTGTTCCTGCGGACATCAGGCTGATTACAGCCGTTGAACTTCATATTGATGAAAGCAGT
TTTACGGGTGAAACTGTTCCGGCGATGAAATGTGCTGAACTTCCAAACAAACCGATGACG
CAGGACGAGCAGAAAGCAAATGTTGCGTTTATGGGAACACTCGTTCGATCTGGCAAGGGA
ACGGGAATCGTCATTAGTATTGGGGAACATTCCGAGTTCGGGGAGGTATTCAAGATGATG
CAGGCCGAAGAAGCTCCTAAAACCCCTCTTCAGAAAAGCATGGATGCGTTGGGGAAGATG
TTAAGCTTCTACTCATTCTGCATAATTGGTGGGATTGTTATTTTGGGATACTTTGAAGGT
CGAAGAATCGTGGACATGTTTACGATAGGAGTGAGTTTGGCGGTTGCAGCGATACCGGAA
GGATTGCCTATCGTTGTCACGGTTACGCTCGCTCTTGGAGTGATGCGGATGGCGAATAAG
AACGCGATTATAAAGAAACTTCCAATCGTGGAAGCTCTTGGATGCGTGAATGTGATATGT
TGCGATAAAACTGGCACATTGACGAAGAACGAGATGACGTGTACACACGTTTACACGAGT
GACGGTACCGAGGCTGCTGTTACTGGGATGGGTTACAACAGACATGGTCATGTGACAGTC
AATGATGAAATCATAATGGCGCCACAGTATCCATCGCTATGGAAACTAGTTGAGGCTGGA
GTGGTATGCAACAATGCGGTCATCAGTAATGGGCAGTTAATGGGTCAACCAACCGAAGGT
GCTATACTGGCTGTCGCTATGAAGTTGGATATGGAAGGGATTGCACATGAATACCAGCGC
GTTTCAGAGAAACCTTTCACTCATGAGCAGAAGTGGATGTCAGTGACATGTAGGAATAAG
GAAGGTGGTTTGGTGACGTTTGCGAAAGGTGCAACAGAGCGTATCATTGATAAATGTGTG
GGATACTTCGCATGTAACGGACAACCAACAATTGAAGAAATGACCAACAAGGACAAAGAA
CGATTCACAAATCAAGCACATTACATGGGCTCAATGGGTTTACGAGTTCTGGCGATCGCA
AGCAGTGAAAGCGATGAAGTTTTTACTTTCCTCGGATTGGTTGGAATTATCGATGCTCCT
CGTGAAGGCATGTATGATGTCATACAGACGTTAAAAGGAGGCGGAGTCAATGTTAAAATG
ATCACTGGAGATGCTAGAGAGACTGCTGTGGCTATAAGTTCACGGCTTGGCATCACAGCA
GGGAAGAGTCGTGCGTTATCAGGCACAGAAGTTGAACAAATTGACACAAACACACTCGCA
ACCATTGTTCCAAATGTGTCGGTGTTCTACCGTGCAAGCCCAAAACACAAACTTAAAATT
GTTAAGGCCTTGCAAGCAGGTGGTTCAATAGTTGGGATGACAGGAGATGGGGTAAATGAT
GCTGTGGCGCTTCGAAAGGCTGATGTTGGCATAGCGATGGGGAAAATAGGAACAGATGTA
TGCAAAGAAGCTGCTGACATGATCATCGTGGATGATAATCTAAACACAATATTAAATGCA
ATTGAAGAAGGGAAAGGAATCTTTTACAACATTCGAAACTTTGTGACATTTCAACTCAGC
ACGAGCATCGCAGCGCTTACTCTCATCGGACTCGCCACGATGTTTAAACTCCCTAATCCA
CTCAACGCCATGCAAATACTTTGGATTAATATCATAATGGATGGACCACCGGCACAAAGT
TTGGGTGTGGAACCAGTGGACCATGATGTGATAAAGCAGCCACCTCGTAAAGTGGCAGAG
CCAATCATAACACGCTCGTTAATCACGCGTGTGTTGATGGCAGCTGCGTTCATCGTTATT
GGAACGCTGTATGTGTTCTGGGGAGAGATCCGTGACAACGAAATTACGAAGCATGACACA
ACGATGACGTTCACATGTTTTGTTTTCTTCGACATGTTCAACGCGCTCAGTTGTCGATCA
CAACGCAAGTCTTTATGTGAGATCGGTTTATTTTCAAATCGTTTGTTTCTTGCGGCAGTT
GGTGGTTCAATCCTTGGTCAAATGCTCGTTATTTACTTTCCGCCATTACAAGCCGTGTTC
CTCACCGAAGCACTTTCATTGCAAGATCTTGGATTTTTGGTTCTGATAACATCGAGCGTG
TTTGTCGCTTCAGAAATTTTCAAATTTATTTTACGAAAACAAGAGAAGAGCAATACAACA
TCTTCACGCTACAATGATTCAGAACTTGTTTGAACATAGAAATCAAAAAGTATTTTCTAG
TTCAATATCCTATGCCTCACAGCAGTAAATGAACTCCTTAGTTTGCCAACATTCAAAAGT
GAAGCAACACGTACAAAGAAGCTGTTTTTATTTAACCAAGCTAATTTATCTTTCTTATGT
CCGTTCAATATTAGATTGTAGTATACTTTATGCATGCAGAGTCAACTAAGACAGTATTAT
TGCTTATATCATTGAGTTTTGCGATATTATCCATTTGGTAGGCCTATAGAATATTTTTTA
CCCTCCCCCATGTCATATATCTAAAACAAAGAAATCAATTTTGTTTATTACAACTTCATT
TAGTGCCTCGTGGTTGCGTAAAAGCATTTCCATGTTACTCCAAATCACAAATTTGTATTC
GTTGTGGACTAGAAGTCCGACAGATAACATAAACTTCCCCAAATGCCATGGTAAAGCACA
ATGTTGCGATTATATTGTAAACGAGTGTATGAGCTTGATCTATAAGAAAAGCTCTAATTC
ACAGTAAAAAATGTCAAGCTCTGGGTGCCGGCACATTTAAAAATGCCTTGTTTTACTAAT
TTTCATTAAAAACAACCAATTTCTAAAATTGTGTTCCTGTGCCTATTACGTATTACTGCT
TGCTAAAATATTTTCTGTTCCAAACATTTGTTCCTTCAATTAACTGATATTTATTCTGGT
TTTGTGATGTTTTAGTTTTATTCTTTGCAATATTTCTTCGTACTTTTATTGTGTTTGTCA
TTGTTACCTAATAATAATATACAGCAATGTATTTGCATGTTATTTTCAAGACACACCGAT
GCAATATATAGATAAAAAATCAATTGGGTGTTATAATTTTTTAATAAAACAAAAAATGGA
AACAACAGCTAAATTCTCTGAAGAGGGCTTTTAAGTAAGTTCCAGTGACAAGT

InterProScan

SMART	ATPase_P-typ_cation-transptr_N (IPR004014) - T[14-88] 5.7E-12
TIGRFAM	P-type_ATPase_IIA_PMR1 (IPR006413) - T[15-890] 0.0
SUPERFAMILY	ATPase_P-typ_TM_dom_sf (IPR023298) - T[15-126] 1.2E-120 - T[237-330] 1.2E-120 - T[680-890] 1.2E-120
Pfam	ATPase_P-typ_cation-transptr_N (IPR004014) - T[18-83] 8.7E-15
SUPERFAMILY	ATPase_P-typ_transduc_dom_A_sf (IPR008250) - T[125-236] 2.62E-26
TIGRFAM	P_typ_ATPase (IPR001757) - T[237-357] 3.3E-26 - T[595-719] 1.9E-28
Gene3D	HAD_sf (IPR023214) - T[333-345] 1.0E-271 - T[536-675] 1.0E-271
SUPERFAMILY	HAD-like_sf (IPR036412) - T[334-354] 6.01E-55 - T[495-733] 6.01E-55
ProSitePatterns	ATPase_P-typ_P_site (IPR018303) - T[338-344] .
SUPERFAMILY	ATPase_P-typ_cyto_dom_N (IPR023299) - T[343-532] 6.54E-43
Gene3D	ATPase_P-typ_cyto_dom_N (IPR023299) - T[346-535] 1.0E-271
PRINTS	P_typ_ATPase (IPR001757) - T[498-516] 1.9E-15 - T[602-618] 1.9E-15 - T[630-646] 1.9E-15 - T[662-687] 1.9E-15
Pfam	ATPase_P-typ_cation-transptr_C (IPR006068) - T[714-886] 1.7E-45