Gene Details:
- Gene ID: AT4G18350
- Gene Symbol: ATNCED2, NCED2
- Gene Name: NINE-CIS-EPOXYCAROTENOID DIOXYGENASE 2, nine-cis-epoxycarotenoid dioxygenase 2
- Description: nine-cis-epoxycarotenoid dioxygenase 2;(source:Araport11)
- TAIR Accession: locus:2124489
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000025 — root tip — punta de la raíz (Spanish, exact), 根端 (Japanese, exact)
- PO:0000258 — root cortex — cortex de la raíz (Spanish, exact), portion of root cortex tissue (exact), 根皮層 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- PO:0006203 — pericycle — periciclo (Spanish, exact), portion of pericycle tissue (exact), portion of pericyclic tissue (exact), 内鞘 (Japanese, exact)
- 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:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0025195 — pollen tube cell — célula del tubo polínico (Spanish, exact), 花粉管細胞 (Japanese, exact)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
Gene Ontology:
- GO:0009688 — acts upstream of or within — abscisic acid biosynthetic process
- GO:0045549 — enables — 9-cis-epoxycarotenoid dioxygenase activity
- GO:0016121 — involved in — carotene catabolic process
- GO:0009535 — located in — chloroplast thylakoid membrane
- GO:0009570 — is active in — chloroplast stroma
- GO:0009570 — located in — chloroplast stroma
- GO:0009507 — located in — chloroplast
- GO:0010436 — enables — carotenoid dioxygenase activity
Function-related keywords:
- root tip , root cortex , guard cell , pericycle , flower , seed , pollen tube cell , pollen
Literature:
- Abscisic acid regulation of gene expression during water-deficit stress in the era of the Arabidopsis genome. DOI: 10.1046/j.1365-3040.2002.00746.x ; PMID: 11841660
- Genome organization in Arabidopsis thaliana: a survey for genes involved in isoprenoid and chlorophyll metabolism. DOI: 10.1023/a:1023005504702 ; PMID: 12777052
- Molecular characterization of the Arabidopsis 9-cis epoxycarotenoid dioxygenase gene family. DOI: 10.1046/j.1365-313x.2003.01786.x ; PMID: 12834401
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Comparative transcriptome analysis reveals significant differences in gene expression and signalling pathways between developmental and dark/starvation-induced senescence in Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02399.x ; PMID: 15860015
- Abscisic acid biosynthesis and catabolism. DOI: 10.1146/annurev.arplant.56.032604.144046 ; PMID: 15862093
- Characterization of three members of the Arabidopsis carotenoid cleavage dioxygenase family demonstrates the divergent roles of this multifunctional enzyme family. DOI: 10.1111/j.1365-313X.2006.02666.x ; PMID: 16507088
- Seed dormancy and ABA metabolism in Arabidopsis and barley: the role of ABA 8'-hydroxylase. DOI: 10.1111/j.1365-313X.2006.02659.x ; PMID: 16507085
- Regulation of hormone metabolism in Arabidopsis seeds: phytochrome regulation of abscisic acid metabolism and abscisic acid regulation of gibberellin metabolism. DOI: 10.1111/j.1365-313X.2006.02881.x ; PMID: 17010113
- Abscisic acid antagonizes ethylene-induced hyponastic growth in Arabidopsis. DOI: 10.1104/pp.106.092700 ; PMID: 17158582
- High temperature-induced abscisic acid biosynthesis and its role in the inhibition of gibberellin action in Arabidopsis seeds. DOI: 10.1104/pp.107.113738 ; PMID: 18162586
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- The Arabidopsis MYB96 transcription factor plays a role in seed dormancy. DOI: 10.1007/s11103-015-0283-4 ; PMID: 25616734
- Transcription factor CDF4 promotes leaf senescence and floral organ abscission by regulating abscisic acid and reactive oxygen species pathways in Arabidopsis. DOI: 10.15252/embr.201948967 ; PMID: 32484317
- The H3K27me3 Demethylase RELATIVE OF EARLY FLOWERING6 Suppresses Seed Dormancy by Inducing Abscisic Acid Catabolism. DOI: 10.1104/pp.20.01255 ; PMID: 33037128
- The 9-cis-epoxycarotenoid cleavage reaction is the key regulatory step of abscisic acid biosynthesis in water-stressed bean. DOI: 10.1073/pnas.96.26.15354 ; PMID: 10611388
- Molecular characterization of the Arabidopsis 9-cis epoxycarotenoid dioxygenase gene family. DOI: 10.1046/j.1365-313x.2003.01786.x ; PMID: 12834401
Sequences:
cDNA Sequence
- >AT4G18350.1
CTTTCGCTTACTTTAAAATGTTGAAGCTATAAAATTTTACATATTTGAAAAATGAGTTATTAGTATTTCATCAACAAAATGCATTCTACTGTATATTGGATTCCAACGCAAACAATAACATAGCTACAAAGCTATCACAAAGCACTATCATTAGTTTATTACACTAAAATTTCGAATATTTTCATGTACGACTTCAAATATTTTTCATTTTCTGCCGCATTCTCATGTCATTAGTCATCATTACTCCCTCTCTCGCGTACCCAACTCTATATAAGATTTCTCCTTCTTCTTTTTCTCTTCTCATCGAACTTTCCTCTTTCTTCTCTCATCTCCTCTCTTTCACTCTTCACACCAGAAGATACAAAAAACAATCACTGTCTCAAGCCTCTCTATACCGAAGATAAGAAAACAAAAGCCATGGTTTCTCTTCTTACAATGCCGATGAGTGGTGGTATTAAAACATGGCCTCAAGCCCAAATTGATTTGGGTTTTAGGCCCATTAAAAGACAACCGAAGGTTATTAAATGCACGGTGCAGATCGACGTAACGGAATTAACCAAAAAACGCCAATTATTTACACCCAGAACCACCGCTACTCCGCCGCAGCATAATCCTCTCCGGCTAAACATCTTCCAGAAAGCGGCGGCGATTGCGATCGACGCGGCTGAGCGTGCATTAATCTCACACGAGCAAGATTCTCCACTTCCCAAAACCGCTGATCCACGTGTTCAGATTGCCGGGAATTATTCCCCGGTACCGGAATCTTCCGTCCGGCGAAACCTCACCGTCGAAGGAACAATCCCTGACTGCATTGACGGTGTTTATATCCGTAACGGCGCGAATCCGATGTTTGAGCCAACAGCTGGGCACCATTTATTCGACGGAGACGGAATGGTTCACGCAGTTAAAATAACCAACGGTTCAGCTAGCTACGCATGCCGGTTTACAAAAACCGAGAGATTGGTTCAGGAAAAACGATTGGGTCGACCAGTTTTCCCGAAAGCAATCGGCGAGCTTCACGGTCACTCGGGAATCGCACGTTTGATGCTGTTTTACGCACGTGGGCTTTGTGGTCTGATCAACAACCAAAACGGCGTCGGAGTAGCAAACGCCGGTTTGGTTTACTTTAATAACCGGCTTTTAGCTATGTCAGAAGACGATTTACCGTACCAATTAAAAATTACTCAAACCGGCGATCTCCAAACCGTTGGACGTTACGATTTCGACGGTCAGTTAAAATCCGCAATGATAGCTCACCCGAAACTGGACCCGGTTACGAAGGAGCTTCACGCGTTAAGCTACGACGTCGTTAAGAAACCTTACCTGAAATACTTCAGATTCTCGCCAGACGGCGTTAAATCGCCGGAATTGGAGATCCCGCTCGAAACTCCGACGATGATTCACGATTTCGCTATAACGGAGAATTTTGTGGTGATTCCTGATCAACAAGTCGTGTTCAAGCTCGGCGAGATGATTTCCGGTAAATCTCCGGTTGTTTTCGACGGAGAAAAGGTTTCCCGATTGGGGATAATGCCCAAGGACGCGACAGAAGCTTCTCAGATAATCTGGGTGAACTCTCCGGAGACGTTCTGTTTTCATCTCTGGAATGCATGGGAATCGCCGGAGACGGAGGAGATTGTGGTGATCGGATCGTGTATGTCGCCGGCGGATTCAATCTTCAACGAGAGAGACGAGAGCTTGAGAAGCGTTTTGTCGGAGATCAGGATAAACCTCAGAACACGTAAAACCACGCGTCGTTCGTTGTTGGTTAACGAGGATGTAAATTTAGAGATTGGTATGGTTAACCGGAACCGGTTAGGAAGAAAAACCCGGTTCGCGTTTTTGGCTATTGCTTATCCTTGGCCAAAAGTTTCCGGTTTCGCTAAGGTCGATCTTTGCACCGGTGAGATGAAAAAATATATTTACGGCGGTGAGAAATATGGCGGCGAACCGTTTTTCTTGCCCGGCAACTCCGGTAACGGCGAAGAAAATGAAGATGACGGTTATATATTTTGTCACGTTCATGACGAAGAAACAAAGACATCAGAGCTTCAGATTATTAACGCTGTTAATTTAAAGCTTGAAGCTACGATTAAACTACCGTCTAGAGTACCGTATGGGTTTCATGGCACATTTGTGGATTCGAATGAACTCGTTGATCAATTATAATAATTATTGTACTTTTTAATGATTTGATAAATTTAGAAAAATAGATAGGTTTACAAAGTTGCGATTGTTTTAACGATTAATGAAGAATGGTTAGATACTTGGATTATAATTTCGCTTTCTTTGGACGTTCATGGTTGAAAGACATATCATAACACATAGCTCGGAAATAACATTTGTATGCAAATTCCAATCCATAATCTCCCTCAGAATCCGTATAAAAAAA
CDS Sequence
Protein Sequence