Information report for AT4G32150
Gene Details
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Functional Descriptions
- PO:0000037 — shoot axis apex — ápice del epiblasto (epiblastema) (Spanish, exact), シュート頂、茎頂 (Japanese, exact)
- PO:0008019 — leaf lamina base — base de la lámina de la hoja (Spanish, exact), 葉身基部 (Japanese, exact)
- 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:0009009 — plant embryo — embrión (Spanish, exact), 植物胚 (Japanese, exact), germ (related), embryo (broad)
- 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:0009031 — sepal — sépalo (Spanish, exact), がく片 (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:0009052 — inflorescence flower pedicel — 小花柄 (Japanese, related), pedicelo (Spanish, broad)
- PO:0020030 — cotyledon — cotiledón (Spanish, exact), seed leaf (exact), 子葉 (Japanese, exact)
- PO:0020038 — petiole — pecíolo (Spanish, exact), 葉柄 (Japanese, exact)
- 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)
- PO:0025022 — collective leaf structure — estructura colectiva de hoja (Spanish, exact), leaf series (exact), 葉が集まった構造 (Japanese, exact), leaf whorl (narrow), rosette (narrow), cycle (broad), verticil (broad)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
- GO:0005886 — located in — plasma membrane
- GO:0005774 — located in — vacuolar membrane
- GO:0009737 — acts upstream of or within — response to abscisic acid
- GO:0009651 — acts upstream of or within — response to salt stress
- GO:0000325 — located in — plant-type vacuole
- GO:0016192 — involved in — vesicle-mediated transport
- GO:0005515 — enables — protein binding
- GO:0061025 — acts upstream of or within — membrane fusion
- GO:0010118 — acts upstream of or within — stomatal movement
- GABI_ 243E09 — The mutant plants are indistinguishable from the wild-type plants when grown in 1/2 strength Murashige and Skoog (MS) medium. However, when exposed to salt stress, they exhibit increased salt tolerance.
Functional Keywords
Literature and News
- The Arabidopsis genome. An abundance of soluble N-ethylmaleimide-sensitive factor adaptor protein receptors. DOI: 10.1104/pp.124.4.1558 ; PMID: 11115874
- Systematic analysis of SNARE molecules in Arabidopsis: dissection of the post-Golgi network in plant cells. DOI: 10.1247/csf.29.49 ; PMID: 15342965
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- The longin domain regulates subcellular targeting of VAMP7 in Arabidopsis thaliana. DOI: 10.1016/j.febslet.2005.04.022 ; PMID: 15876431
- Suppression of Arabidopsis vesicle-SNARE expression inhibited fusion of H2O2-containing vesicles with tonoplast and increased salt tolerance. DOI: 10.1073/pnas.0604421103 ; PMID: 17101982
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Interactomics of Qa-SNARE in Arabidopsis thaliana. DOI: 10.1093/pcp/pcu038 ; PMID: 24556609
- Identification of Regulatory and Cargo Proteins of Endosomal and Secretory Pathways in Arabidopsis thaliana by Proteomic Dissection. DOI: 10.1074/mcp.M115.050286 ; PMID: 25900983
- A VAMP-associated protein, PVA31 is involved in leaf senescence in Arabidopsis. DOI: 10.4161/15592324.2014.990847 ; PMID: 25897470
- VAMP711 Is Required for Abscisic Acid-Mediated Inhibition of Plasma Membrane H(+)-ATPase Activity. DOI: 10.1104/pp.18.00499 ; PMID: 30217827
- Regulation of plasma membrane H(+)-ATPase activity by the members of the V-SNARE VAMP7C family in arabidopsis thaliana. DOI: 10.1080/15592324.2019.1573097 ; PMID: 30720384
- SNAREs Regulate Vesicle Trafficking During Root Growth and Development. DOI: 10.3389/fpls.2022.853251 ; PMID: 35360325
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome. DOI: 10.1074/mcp.M700099-MCP200 ; PMID: 17644812
Gene Resources
- UniProt: Q0WWE7
- EMBL: AK226405
- AlphaFoldDB: Q0WWE7
- EnsemblPlants: AT4G32150.1
- Gramene: AT4G32150.1
- KEGG: ath:AT4G32150
- Orthologous matrix: HYENRIV
- ExpressionAtlas: AT4G32150
Sequences
cDNA Sequence
- >AT4G32150.1
AATAAATCAACGTAGCTATCCGAAATTAAATATTTGTAATCAGCGGAGGCGAAAAGGTCTCCAGCTCCAGCTAAACTCCAAGAGGAGAGAGAGAGAAAGAGATTCAATTATATGCAGAGAGAAAAAGAAGCCAATTGGTTCTCTCTCTCTCTCTCTCTCTCTCTGATTGATTGATCCAGCGATTCGTCTGGCTGGCTCGGTTTCCGCGGGAAAACCTTCTTCTTCGTTGACCTTACACGAGTTTTGTTGATTCGGCAGGGGGATCGACGACGGAGATGGCGATTCTGTACGCCCTCGTGGCTCGTGGCACGGTGGTTCTTTCTGAGTTCACCGCCACCTCTACGAATGCGAGCACCATCGCCAAACAGATCCTCGAGAAGGTCCCTGGAGACAACGACAGCAACGTCTCCTACTCTCAGGATCGTTACGTCTTCCACGTTAAACGCACCGATGGCCTCACCGTTCTCTGTATGGCCGAAGAAACCGCCGGAAGGAGAATTCCTTTTGCCTTTTTGGAGGATATTCACCAGAGATTCGTACGGACTTATGGCAGGGCTGTTCATACAGCACTAGCTTATGCAATGAATGAGGAATTCTCTAGAGTTCTCAGTCAGCAGATTGACTATTACTCTAATGATCCTAATGCCGATAGGATTAATCGTATTAAGGGTGAAATGAATCAGGTGCGGGGTGTCATGATAGAAAACATTGACAAAGTCCTAGATAGAGGTGAACGTTTGGAGCTTCTTGTCGATAAAACCGCCAATATGCAGGGGAATACATTCCGGTTCAGAAAGCAAGCTCGTCGTTTTAGAAGCAACGTCTGGTGGAGAAACTGCAAGCTCACGGTCCTCTTAATACTACTACTACTGGTGATCATATACATTGCAGTGGCCTTTCTCTGCCACGGACCTACTCTACCATCTTGCATTTAAGTGCATCTGTCTCTTAAGGAATCCATCCCGATTCTGCGCGTTGCCACGACTTTTTATCTCCTCATCTGATTGTAAACCTTGTGTTTTCCTGAGCATTTTCATGTGGCTTAAAAAGCTTATGTTTCCAACTCACGTATATGAAAAAGTATACTTATTTATAGAGCAATGTAAAAGCTCATTGCTTTGCGAAGTGTGTGAATCTTTGTTGACATCATGTTCTATAAATTACATACATAGTGGAAAAGTGAACAGGCTTGCTTTGTCTGATATGTTCATACAACTCTTTGAATCTTCATGTTCTTTGTTTATGTGACTTCCTCTCTCGTATATCCACACCAACTTCTGAAGTCGGCAGTTGAATGATCTTGTACGTCGTTGACCCTACAAATTCTTGTCATTTTACAATTGAAGCCATTTGTTGATCATAA
CDS Sequence
Protein Sequence