Gene Details:
- Gene ID: AT2G33070
- Gene Symbol: ATNSP2, NSP2
- Gene Name: NITRILE-SPECIFIER PROTEIN 2, nitrile specifier protein 2
- Description: nitrile specifier protein 2;(source:Araport11)
- TAIR Accession: locus:2046560
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0009046 — flower — flor (Spanish, exact), 花 (Japanese, exact), floret (related), Asteraceae floret (narrow), basal flower (narrow), double flower (narrow), hermaphrodite flower (narrow), monoclinous flower (narrow), perfect flower (narrow)
- PO:0020100 — hypocotyl — hipocótile (Spanish, exact), 胚軸 (Japanese, exact)
- PO:0020137 — leaf apex — ápice de la hoja (Spanish, exact), 葉先 (Japanese, exact), leaf lamina apex (narrow), phyllid apex (narrow)
Gene Ontology:
- GO:0080028 — acts upstream of or within — nitrile biosynthetic process
- GO:0009845 — acts upstream of or within — seed germination
- GO:0009793 — involved in — embryo development ending in seed dormancy
- GO:0010162 — acts upstream of or within — seed dormancy process
- GO:0005634 — is active in — nucleus
- GO:0019762 — acts upstream of or within — glucosinolate catabolic process
- GO:0080028 — involved in — nitrile biosynthetic process
- GO:0005737 — located in — cytoplasm
- GO:0005783 — located in — endoplasmic reticulum
- GO:0030234 — enables — enzyme regulator activity
Function-related keywords:
Literature:
- Transcriptome analysis of sulfur depletion in Arabidopsis thaliana: interlacing of biosynthetic pathways provides response specificity. DOI: 10.1046/j.1365-313x.2003.01657.x ; PMID: 12609038
- The effect of alpha-amanitin on the Arabidopsis seed proteome highlights the distinct roles of stored and neosynthesized mRNAs during germination. DOI: 10.1104/pp.103.036293 ; PMID: 15047896
- A conserved transcript pattern in response to a specialist and a generalist herbivore. DOI: 10.1105/tpc.104.026120 ; PMID: 15494554
- Patterns of protein oxidation in Arabidopsis seeds and during germination. DOI: 10.1104/pp.105.062778 ; PMID: 15908592
- Expression profiling of metabolic genes in response to methyl jasmonate reveals regulation of genes of primary and secondary sulfur-related pathways in Arabidopsis thaliana. DOI: 10.1007/s11120-005-7386-8 ; PMID: 16307302
- Proteomic analysis and extensive protein identification from dry, germinating Arabidopsis seeds and young seedlings. DOI: 10.5483/bmbrep.2005.38.6.650 ; PMID: 16336779
- Proteomic investigation of the effect of salicylic acid on Arabidopsis seed germination and establishment of early defense mechanisms. DOI: 10.1104/pp.106.082057 ; PMID: 16679420
- Proteomic analysis of seed dormancy in Arabidopsis. DOI: 10.1104/pp.106.087452 ; PMID: 17028149
- Glucosinolate hydrolysis in Lepidium sativum–identification of the thiocyanate-forming protein. DOI: 10.1007/s11103-006-9071-5 ; PMID: 17139450
- Transcription factors relevant to auxin signalling coordinate broad-spectrum metabolic shifts including sulphur metabolism. DOI: 10.1093/jxb/ern144 ; PMID: 18596113
- The genetic basis of constitutive and herbivore-induced ESP-independent nitrile formation in Arabidopsis. DOI: 10.1104/pp.108.130732 ; PMID: 18987211
- Nitrile-specifier proteins involved in glucosinolate hydrolysis in Arabidopsis thaliana. DOI: 10.1074/jbc.M807500200 ; PMID: 19224919
- Characterization of recombinant nitrile-specifier proteins (NSPs) of Arabidopsis thaliana: dependency on Fe(II) ions and the effect of glucosinolate substrate and reaction conditions. DOI: 10.1016/j.phytochem.2012.08.004 ; PMID: 22954730
- NSP-Dependent Simple Nitrile Formation Dominates upon Breakdown of Major Aliphatic Glucosinolates in Roots, Seeds, and Seedlings of Arabidopsis thaliana Columbia-0. DOI: 10.3389/fpls.2016.01821 ; PMID: 27990154
- Genome-Wide Screening for Lectin Motifs in Arabidopsis thaliana. DOI: 10.3835/plantgenome2017.02.0010 ; PMID: 28724081
- Glucosinolate Content in Dormant and Germinating Arabidopsis thaliana Seeds Is Affected by Non-Functional Alleles of Classical Myrosinase and Nitrile-Specifier Protein Genes. DOI: 10.3389/fpls.2019.01549 ; PMID: 31850033
- Transcriptome Meta-Analysis Associated Targeting Hub Genes and Pathways of Drought and Salt Stress Responses in Cotton (Gossypium hirsutum): A Network Biology Approach. DOI: 10.3389/fpls.2022.818472 ; PMID: 35548277
Sequences:
cDNA Sequence
- >AT2G33070.3
GTTTTCCTGGGGCAAATTCTAAATCTGAAACGGTGACCATCTACCTTCCAGGGGTCAATAAATACCCCATGCAATTTTTCCAAAAGGGATCAATGTAACAATCGTTAGTTTCTTTCTCAGCCTCAGGTAAGCTGTCCCCACATATCCCTCCCTCTTTCTAATTATCTGATTGTAGTTTGTATAATGTTTTGTTGTATTCGTAAGACTTGATCAACTTGCAAGCAAAAGAGATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAAACGCTGTTCGGTGACGGTGATGATGAGTGTTTGTAAATATGTGTGTGTGATGCAATAAGGGAGGGTCGTAAATCGTAAGACTATATGATCCTGTATGTTTGTTTGCATGTTTCGTGTACGGTGTACCAATAAATTTCGATAAAATAAAATAAAATAAATGAACAACGATGAATGTGTTTGAAACTAAACCAATTTAGACCAAGACTGCATTTCGATTTATATTAAACCGGTATATGTATGATTTAATGAACCGGATTGTTTGGTTTAAGTCCTCTCTTATTATGAAAACAAGTCGAGAAGGAGATTTTATGGCGCGATAACGGCGGAGTGCGACCACCGTCACTCTCGTCGAGTTTTGGTGGAGGCTTTCAAACTCAATGAGCATCAGGATGCTGGAAGATGACGTCTTGCGTTATAAAGAAAGTTCAGCTCG - >AT2G33070.2
GTTTTCCTGGGGCAAATTCTAAATCTGAAACGGTGACCATCTACCTTCCAGGGGTCAATAAATACCCCATGCAATTTTTCCAAAAGGGATCAATGTAACAATCGTTAGTTTCTTTCTCAGCCTCAGGTAAGCTGTCCCCACATATCCCTCCCTCTTTCTAATTATCTGATTGTAGTTTGTATAATGTTTTGTTGTATTCGTAAGACTTGATCAACTTGCAAGCAAAAGAGATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAAACGCTGTTCGGTGACGGTGATGATGAGTGTTTGTAAATATGTGTGTGTGATGCAATAAGGGAGGGTCGTAAATCGTAAGACTATATGATCCTGTATGTTTGTTTGCATGTTTCGTGTACGGTGTACCAATAAATTTCGATAAAATAAAATAAAATAAATGAACAACGATGAATGTGTTTGAAACTAAACCAATTTAGACCAAGACTGCATTTCGATTTATATTAAACCGGTATATGTATGATTTAATGAACCGGATTGTTTGGTTTAAGTCCTCTCTTATTATGAAAACAAGTCGAGAAGGAGATTTTATGGCGCGATAACGGCGGAGTGCGACCACCGTCACTCTCGTCGAGTTTTGGTGGAGGCTTTCAAACTCAATGAGCATCAGGATGCTGGAAGATGACGTCTTGCGTTATAAAGAAAGTTCAGCTCG - >AT2G33070.1
GTTTTCCTGGGGCAAATTCTAAATCTGAAACGGTGACCATCTACCTTCCAGGGGTCAATAAATACCCCATGCAATTTTTCCAAAAGGGATCAATGTAACAATCGTTAGTTTCTTTCTCAGCCTCAGGTAAGCTGTCCCCACATATCCCTCCCTCTTTCTAATTATCTGATTGTAGTTTGTATAATGTTTTGTTGTATTCGTAAGACTTGATCAACTTGCAAGCAAAAGAGATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAAACGCTGTTCGGTGACGGTGATGATGAGTGTTTGTAAATATGTGTGTGTGATGCAATAAGGGAGGGTCGTAAATCGTAAGACTATATGATCCTGTATGTTTGTTTGCATGTTTCGTGTACGGTGTACCAATAAATTTCGATAAAATAAAATAAAATAAATGAACAACGATGAATGTGTTTGAAACTAAACCAATTTAGACCAAGACTGCATTTCGATTTATATTAAACCGGTATATGTATGATTTAATGAACCGGATTGTTTGGTTTAAGTCCTCTCTTATTATGAAAACAAGTCGAGAAGGAGATTTTATGGCGCGATAACGGCGGAGTGCGACCACCGTCACTCTCGTCGAGTTTTGGTGGAGGCTTTCAAACTCAATGAGCATCAGGATGCTGGAAGATGACGTCTTGCGTTATAAAGAAAGTTCAGCTCG
CDS Sequence
- >AT2G33070.3
ATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAA - >AT2G33070.2
ATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAA - >AT2G33070.1
ATGGTGCAAAAGGTGGAAGCAAGGGGTGGTGAGATAGGAGATGTATGGGATGATGGTGCTTACGACGGTGTTAGAAAAGTATACGTAGGGCAAGGCGAAGATGGTATAGCCTTCGTCAAGTTTGAGTATGTCAATGGTTCTCAAGAGGTTGTTGGAGATGAACGTGGGAAGAAGACTTTGCTAGGAGCTGAGGAGTTTGAGGTTGATCCGGATGACTACATCGTATACGTGGAAGGTTATCATGAGAAAGTTTTTGGGGTAACAACAAAAGAAATCATCTCCACTCTTACTTTCAAGACTTATAAAGGCAAAACTTCTCCGCCGTTTGGAATCGTCTCGGGGACAAAGTTTGTCCTCCAAGGTGGCAAAATCGTTGGGTTTCACGGACGTTCTACCGATGTTTTGCACTCACTTGGAGCCTATATATCATCGCCGGCCACTCCCAAATTGCGTGGAAAGTGGATTAAGGTAGTAGTGGAGCAAAAAGGAGAGGGTCCAGGGCCAAGATGCTCACATGACATAGCACAGGTGGGAAACAAAATTTTCTCATTTGGTGGTGAGCTCACACCAAATCAGCCCATAGACAAACACCTTTACGTTTTTGACCTCGAGACCAGGACTTGGTCCATTTCTCCAGCCACCGGAGACGTTCCAAACCTCTCTTGCTTAGGCGTCCGTATGGTGTCAATTGGATCAAGCCTCTATGTCTTTGGAGGCCGAGACGCTTCACGCAAATACAACGGCTTCTACTCGTTTGACACGACCAAGAACGAGTGGAAACTGCTAACTCCGGTCGAACAAGGACCCACTCCTCGTAGCTTCCACTCGATGACCGCAGATGAGAACAACGTTTACGTTTTCGGTGGAGTGAGTGCTACGGTTCGGCTCAAGACACTAGACGCTTACAACATCGTTGATCACAAGTGGGTGCAGTGTTCGACCCCGGGAGGTTCGTGTAGCGTAAGAGGAGGAGCCGGGCTCGAAGTGGTTCAAGGGAAAGTATGGGTTGTGTATGGATTCAACGGATGTGAAGTAGATGATGTTCATTGCTACGATCCAGCTCAAGACAAGTGGACACAAGTGGAGACGTTCGGTGAGAAGCCTTGCGCTAGGAGTGTGTTCGCTAGTGCGGTTGTTGGGAAACACATTTTGGTCTTTGGAGGTGAGATAGCGATGGACCCAAAAGCTCACGAAGGTCCGGGTCAATTGAGTGGTGGAACTTTTGCGTTGGATACAGAGACGTTGAAGTGGGAGAAGCTGGATAAGTTAGGTGAAGAGGAAGAGACTCCGAGTATCAGAGGTTGGTCTGCGTCCACGACAGGTACCATTGATGGTAAGAAAGGACTGGTGATGTTTGGTGGGAAAGCTCAAACCAATGATCGGTTTGGTGATCTCTTCTTTTATGGAGTTGACTCTGCATAA
Protein Sequence
- >AT2G33070.3
MVQKVEARGGEIGDVWDDGAYDGVRKVYVGQGEDGIAFVKFEYVNGSQEVVGDERGKKTLLGAEEFEVDPDDYIVYVEGYHEKVFGVTTKEIISTLTFKTYKGKTSPPFGIVSGTKFVLQGGKIVGFHGRSTDVLHSLGAYISSPATPKLRGKWIKVVVEQKGEGPGPRCSHDIAQVGNKIFSFGGELTPNQPIDKHLYVFDLETRTWSISPATGDVPNLSCLGVRMVSIGSSLYVFGGRDASRKYNGFYSFDTTKNEWKLLTPVEQGPTPRSFHSMTADENNVYVFGGVSATVRLKTLDAYNIVDHKWVQCSTPGGSCSVRGGAGLEVVQGKVWVVYGFNGCEVDDVHCYDPAQDKWTQVETFGEKPCARSVFASAVVGKHILVFGGEIAMDPKAHEGPGQLSGGTFALDTETLKWEKLDKLGEEEETPSIRGWSASTTGTIDGKKGLVMFGGKAQTNDRFGDLFFYGVDSA - >AT2G33070.2
MVQKVEARGGEIGDVWDDGAYDGVRKVYVGQGEDGIAFVKFEYVNGSQEVVGDERGKKTLLGAEEFEVDPDDYIVYVEGYHEKVFGVTTKEIISTLTFKTYKGKTSPPFGIVSGTKFVLQGGKIVGFHGRSTDVLHSLGAYISSPATPKLRGKWIKVVVEQKGEGPGPRCSHDIAQVGNKIFSFGGELTPNQPIDKHLYVFDLETRTWSISPATGDVPNLSCLGVRMVSIGSSLYVFGGRDASRKYNGFYSFDTTKNEWKLLTPVEQGPTPRSFHSMTADENNVYVFGGVSATVRLKTLDAYNIVDHKWVQCSTPGGSCSVRGGAGLEVVQGKVWVVYGFNGCEVDDVHCYDPAQDKWTQVETFGEKPCARSVFASAVVGKHILVFGGEIAMDPKAHEGPGQLSGGTFALDTETLKWEKLDKLGEEEETPSIRGWSASTTGTIDGKKGLVMFGGKAQTNDRFGDLFFYGVDSA - >AT2G33070.1
MVQKVEARGGEIGDVWDDGAYDGVRKVYVGQGEDGIAFVKFEYVNGSQEVVGDERGKKTLLGAEEFEVDPDDYIVYVEGYHEKVFGVTTKEIISTLTFKTYKGKTSPPFGIVSGTKFVLQGGKIVGFHGRSTDVLHSLGAYISSPATPKLRGKWIKVVVEQKGEGPGPRCSHDIAQVGNKIFSFGGELTPNQPIDKHLYVFDLETRTWSISPATGDVPNLSCLGVRMVSIGSSLYVFGGRDASRKYNGFYSFDTTKNEWKLLTPVEQGPTPRSFHSMTADENNVYVFGGVSATVRLKTLDAYNIVDHKWVQCSTPGGSCSVRGGAGLEVVQGKVWVVYGFNGCEVDDVHCYDPAQDKWTQVETFGEKPCARSVFASAVVGKHILVFGGEIAMDPKAHEGPGQLSGGTFALDTETLKWEKLDKLGEEEETPSIRGWSASTTGTIDGKKGLVMFGGKAQTNDRFGDLFFYGVDSA