Information report for AT4G26200
Gene Details
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Functional Descriptions
- PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0009001 — fruit — frucht (exact, German), fruto (exact, Spanish), 果実 (exact, Japanese), coenocarp (narrow), syncarp (narrow), aggregate fruit (broad), compound fruit (broad), dehiscent fruit (broad), diaspore (broad), indehiscent fruit (broad), multiple fruit (broad), propagule (broad)
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0009006 — shoot system — sistema de epiblasto (epiblastema) (Spanish, exact), シュート系、苗条系 (Japanese, exact), Poaceae crown (related), shoot (related), thalli (related), thallus (related), tree crown (narrow)
- PO:0009031 — sepal — sépalo (Spanish, exact), がく片 (Japanese, exact)
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
- PO:0009067 — filament — filamento (Spanish, exact), 花糸 (Japanese, exact), Poaceae filament (narrow), Zea filament (narrow)
- PO:0009073 — stigma — estigma (Spanish, exact), stigmas (exact, plural), stigmata (exact, plural), 柱頭 (Japanese, exact), Poaceae stigma (narrow), Zea stigma (narrow)
- PO:0009025 — vascular leaf — foliage leaf (exact), hoja vascular (Spanish, exact), leaf, vascular (exact), vascular leaves (exact, plural), 維管束のある葉, または維管束植物の葉 (Japanese, exact), crozier (related), macrophyll (related), megaphyll (related), ascidia (narrow), ascidium (narrow), fiddlehead (narrow), frond (narrow), needle-like leaf (narrow), pitcher (narrow), pitcher blade (narrow), pitcher-blade (narrow), scale-like leaf (narrow), sterile frond (narrow), trophophyll (narrow)
- PO:0009029 — stamen — estambre (Spanish, exact), 雄蕊 (Japanese, exact), Poaceae stamen (narrow), Zea stamen (narrow)
- PO:0020030 — cotyledon — cotiledón (Spanish, exact), seed leaf (exact), 子葉 (Japanese, exact)
- GO:0006520 — involved in — amino acid metabolic process
- GO:0009693 — acts upstream of or within — ethylene biosynthetic process
- GO:0042802 — enables — identical protein binding
- GO:0009693 — involved in — ethylene biosynthetic process
- GO:0008483 — enables — transaminase activity
- GO:0005515 — enables — protein binding
- GO:0005737 — located in — cytoplasm
- GO:0016847 — enables — 1-aminocyclopropane-1-carboxylate synthase activity
- GO:0030170 — enables — pyridoxal phosphate binding
- CS16570 — slightly decreased ethylene production, early flowering, slightly decreased FLOWERING REPRESSOR C (FLC) expression, increased FLOWERING LOCUS T (FT) expression
- CS16647 — phenotype not determined
- CS16648 — phenotype not determined
- CS16649 — increased hypocotyl length in etiolated seedlings, decreased hook curvature in etiolated seedlings, less sensitive to hypocotyl gravistimulation, increased plant height, early flowering, decreased expression of FLC, increased expression of FT, reduced number of rosette leaves, decreased ethylene production, enhanced susceptibility to Botrytis cinerea
- CS16650 — increased hypocotyl length in etiolated seedlings, decreased hook curvature in etiolated seedlings, less sensitive to hypocotyl gravistimulation, increased plant height, early flowering, decreased expression of FLC, increased expression of FT, reduced number of rosette leaves, decreased ethylene production, enhanced susceptibility to Botrytis cinerea
- CS16651 — increased hypocotyl length in etiolated seedlings, the absence of hook curvature in etiolated seedlings, less sensitive to hypocotyl gravistimulation, reduced cotyledon size, delayed growth during initial developmental stages, increased mature plant height, smaller leaf blade with downward curling tip , reduced branching, delayed senescence, slightly early flowering, decreased expression of FLC, increased expression of FT, reduced number of rosette leaves, decreased ethylene production, enhanced susceptibility to Botrytis cinerea
- CS16698 — late flowering, increased expression of FLC, decreased expression of FT, increased number of rosette leaves, decreased ethylene production
Functional Keywords
- cauline leaf , fruit , root , shoot system , sepal , petal , stem , filament , stigma , vascular leaf , stamen , cotyledon
Literature and News
- Transcriptome changes for Arabidopsis in response to salt, osmotic, and cold stress. DOI: 10.1104/pp.008532 ; PMID: 12481097
- Biochemical diversity among the 1-amino-cyclopropane-1-carboxylate synthase isozymes encoded by the Arabidopsis gene family. DOI: 10.1074/jbc.M308297200 ; PMID: 12968022
- Heterodimeric interactions among the 1-amino-cyclopropane-1-carboxylate synthase polypeptides encoded by the Arabidopsis gene family. DOI: 10.1073/pnas.0308515101 ; PMID: 14983000
- The response regulator 2 mediates ethylene signalling and hormone signal integration in Arabidopsis. DOI: 10.1038/sj.emboj.7600337 ; PMID: 15282545
- The GUS reporter-aided analysis of the promoter activities of Arabidopsis ACC synthase genes AtACS4, AtACS5, and AtACS7 induced by hormones and stresses. DOI: 10.1093/jxb/eri083 ; PMID: 15699063
- Leucine-rich repeat receptor-like kinase1 is a key membrane-bound regulator of abscisic acid early signaling in Arabidopsis. DOI: 10.1105/tpc.104.027474 ; PMID: 15772289
- Phytotoxicity and innate immune responses induced by Nep1-like proteins. DOI: 10.1105/tpc.106.044180 ; PMID: 17194768
- The transcriptional repressor ARR1-SRDX suppresses pleiotropic cytokinin activities in Arabidopsis. DOI: 10.1104/pp.107.115436 ; PMID: 18502977
- The Arabidopsis sweetie mutant is affected in carbohydrate metabolism and defective in the control of growth, development and senescence. DOI: 10.1111/j.1365-313X.2008.03541.x ; PMID: 18452589
- Differential expression of genes encoding 1-aminocyclopropane-1-carboxylate synthase in Arabidopsis during hypoxia. DOI: 10.1007/s11103-005-3573-4 ; PMID: 16028113
- A combinatorial interplay among the 1-aminocyclopropane-1-carboxylate isoforms regulates ethylene biosynthesis in Arabidopsis thaliana. DOI: 10.1534/genetics.109.107102 ; PMID: 19752216
- Arabidopsis RING E3 ligase XBAT32 regulates lateral root production through its role in ethylene biosynthesis. DOI: 10.1104/pp.110.156976 ; PMID: 20511490
- The Arabidopsis RING-type E3 ligase XBAT32 mediates the proteasomal degradation of the ethylene biosynthetic enzyme, 1-aminocyclopropane-1-carboxylate synthase 7. DOI: 10.1111/j.1365-313X.2012.04965.x ; PMID: 22339729
- 14-3-3 regulates 1-aminocyclopropane-1-carboxylate synthase protein turnover in Arabidopsis. DOI: 10.1105/tpc.113.110106 ; PMID: 23512855
- Nitrate reductase is required for the transcriptional modulation and bactericidal activity of nitric oxide during the defense response of Arabidopsis thaliana against Pseudomonas syringae. DOI: 10.1007/s00425-013-1906-0 ; PMID: 23748675
- A type III ACC synthase, ACS7, is involved in root gravitropism in Arabidopsis thaliana. DOI: 10.1093/jxb/ert241 ; PMID: 23943848
- ERF022 impacts the induction of somatic embryogenesis in Arabidopsis through the ethylene-related pathway. DOI: 10.1007/s00425-014-2225-9 ; PMID: 25534944
- Multilayered Regulation of Ethylene Induction Plays a Positive Role in Arabidopsis Resistance against Pseudomonas syringae. DOI: 10.1104/pp.15.00659 ; PMID: 26265775
- MPK3/MPK6 are involved in iron deficiency-induced ethylene production in Arabidopsis. DOI: 10.3389/fpls.2015.00953 ; PMID: 26579185
- Regulation of the turnover of ACC synthases by phytohormones and heterodimerization in Arabidopsis. DOI: 10.1111/tpj.13585 ; PMID: 28440947
- Mitogen-activated protein kinases and calcium-dependent protein kinases are involved in wounding-induced ethylene biosynthesis in Arabidopsis thaliana. DOI: 10.1111/pce.12984 ; PMID: 28543054
- Brassinosteroids regulate root growth by controlling reactive oxygen species homeostasis and dual effect on ethylene synthesis in Arabidopsis. DOI: 10.1371/journal.pgen.1007144 ; PMID: 29324765
- Aminocyclopropane-1-carboxylic acid is a key regulator of guard mother cell terminal division in Arabidopsis thaliana. DOI: 10.1093/jxb/ery413 ; PMID: 30462272
- Mutagenomics: A Rapid, High-Throughput Method to Identify Causative Mutations from a Genetic Screen. DOI: 10.1104/pp.20.00609 ; PMID: 32887734
- Activation of ACS7 in Arabidopsis affects vascular development and demonstrates a link between ethylene synthesis and cambial activity. DOI: 10.1093/jxb/eraa423 ; PMID: 32926140
- KAI2 promotes Arabidopsis root hair elongation at low external phosphate by controlling local accumulation of AUX1 and PIN2. DOI: 10.1016/j.cub.2021.10.044 ; PMID: 34758285
- Biochemical diversity among the 1-amino-cyclopropane-1-carboxylate synthase isozymes encoded by the Arabidopsis gene family. DOI: 10.1074/jbc.M308297200 ; PMID: 12968022
Gene Resources
- UniProt: A0A7G2F3T2
- EMBL: LR881469
- AlphaFoldDB: A0A7G2F3T2
- EnsemblPlants: AT4G26200.1
- Gramene: AT4G26200.1
- KEGG: ath:AT4G26200
- Orthologous matrix: PYYGTFV
- ExpressionAtlas: AT4G26200
- InterPro: IPR004838, IPR004839, IPR015421
- PANTHER: PTHR43795, PTHR43795:SF39
- SUPFAM: SSF53383
- PROSITE: PS00105
- Gene3D: 3.40.640.10, 3.90.1150.10
- SWISS-MODEL: A0A7G2F3T2
- Conserved Domain Database: cd00609
Sequences
cDNA Sequence
- >AT4G26200.1
AACTCCAACACACTTCTCTTTCTCTCAACCTCTCTCCCTCTCTCTCTCCGATTGTGTTTTTAGAGCTGTCACGTGTCACGTGTCAGGTTCGAAGCTCTAAGAAAAAAATGGGTCTTCCTCTAATGATGGAGAGATCATCAAACAACAACAACGTCGAGCTTTCTCGAGTGGCGGTTTCAGACACTCACGGCGAAGACTCACCGTACTTCGCCGGCTGGAAAGCTTACGACGAAAATCCTTACGACGAATCTCATAACCCTTCCGGTGTCATCCAAATGGGTCTCGCTGAGAATCAGGTCTCGTTTGATCTTCTTGAAACTTACTTGGAGAAGAAGAATCCAGAAGGTTCGATGTGGGGATCAAAAGGAGCTCCTGGGTTCCGTGAAAACGCATTGTTTCAAGACTACCACGGTCTCAAAACTTTCAGACAAGCCATGGCTAGTTTCATGGAACAGATTCGAGGAGGCAAAGCTAGATTTGATCCTGACCGGATCGTCCTCACCGCCGGAGCCACCGCCGCTAACGAACTCTTAACTTTCATTCTCGCCGATCCTAACGACGCCCTTCTAGTTCCCACACCGTATTATCCAGGATTCGATAGAGATTTGAGATGGAGAACCGGAGTGAAAATAGTACCCATCCACTGCGACAGCTCGAACCATTTCCAGATAACCCCGGAGGCGCTAGAGTCGGCGTACCAAACGGCTCGTGACGCGAACATTAGAGTCCGAGGAGTGCTCATAACCAACCCATCGAACCCATTAGGGGCGACGGTCCAAAAGAAGGTTCTAGAAGATCTCCTTGACTTCTGCGTACGCAAGAATATTCACTTGGTCTCAGACGAGATCTACTCCGGCTCCGTCTTCCATGCCTCCGAGTTCACAAGCGTTGCCGAGATCGTAGAAAACATAGATGACGTGTCAGTAAAGGAACGAGTTCACATCGTCTACAGTCTCTCCAAGGATCTTGGTCTTCCTGGTTTCCGCGTGGGAACTATATACTCGTACAACGATAATGTTGTTCGGACAGCGAGAAGGATGTCGAGCTTCACGCTTGTCTCGTCTCAGACACAACATATGCTGGCTTCTATGTTGTCGGATGAGGAGTTTACGGAGAAGTACATTAGGATAAACCGGGAAAGACTTAGAAGACGGTACGATACCATTGTGGAAGGGCTTAAGAAGGCAGGGATTGAGTGTTTGAAAGGGAACGCAGGGCTATTTTGTTGGATGAATTTGGGTTTCTTGCTCGAAAAGAAAACTAAAGACGGCGAGCTCCAGCTTTGGGATGTGATCTTAAAGGAGCTGAACCTGAATATATCTCCGGGATCTTCGTGCCACTGCTCGGAGGTCGGATGGTTTAGGGTTTGTTTTGCTAATATGAGTGAGAACACTTTGGAGATTGCGTTGAAGAGAATACATGAGTTCATGGACCGACGAAGGAGGTTTTGAAATGTTAAAAAAAAAAGTAAAGTAAATCCGTTTTTTTGGTGGTTAAATATATGGGGGAGGGGTAATTAATTTTTTAGGAAAGAGAAGATAATTAATTTAAACCCATTGATGTAAAATGGGTTTTGATTTGTTTCTCTTTTCTAGATATTATTGTTTGTTTTCTTGCTTGGACAAAGCAAGTTAATTTCATGTTCATCAAGGTTGATTTGTAATATTTATTGTTATAAACGAATTTTTTAAAA
CDS Sequence
Protein Sequence