Information report for AT4G19120
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- 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)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- GO:0043436 — acts upstream of or within — oxoacid metabolic process
- GO:0005802 — located in — trans-Golgi network
- GO:0005634 — located in — nucleus
- GO:0005794 — located in — Golgi apparatus
- GO:0031326 — acts upstream of or within — regulation of cellular biosynthetic process
- GO:0010556 — acts upstream of or within — regulation of macromolecule biosynthetic process
- GO:0080090 — acts upstream of or within — regulation of primary metabolic process
- GO:0009266 — acts upstream of or within — response to temperature stimulus
- GO:0000138 — located in — Golgi trans cisterna
- GO:0005768 — located in — endosome
- GO:0009832 — acts upstream of or within — plant-type cell wall biogenesis
- GO:0030154 — acts upstream of or within — cell differentiation
- GO:0005737 — is active in — cytoplasm
- GO:0048589 — acts upstream of or within — developmental growth
Functional Keywords
- root , pollen tube cell , pollen , guard cell
Literature and News
- Cloning of cDNAs for genes that are early-responsive to dehydration stress (ERDs) in Arabidopsis thaliana L.: identification of three ERDs as HSP cognate genes. DOI: 10.1007/BF00028874 ; PMID: 8075396
- BES1 accumulates in the nucleus in response to brassinosteroids to regulate gene expression and promote stem elongation. DOI: 10.1016/s0092-8674(02)00721-3 ; PMID: 12007405
- Comprehensive comparison of auxin-regulated and brassinosteroid-regulated genes in Arabidopsis. DOI: 10.1104/pp.103.034736 ; PMID: 15047898
- BIGPETALp, a bHLH transcription factor is involved in the control of Arabidopsis petal size. DOI: 10.1038/sj.emboj.7601270 ; PMID: 16902407
- Light has a specific role in modulating Arabidopsis gene expression at low temperature. DOI: 10.1186/1471-2229-8-13 ; PMID: 18230142
- Simultaneous interaction of Arabidopsis thaliana with Bradyrhizobium Sp. strain ORS278 and Pseudomonas syringae pv. tomato DC3000 leads to complex transcriptome changes. DOI: 10.1094/MPMI-21-2-0244 ; PMID: 18184068
- 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
- The Arabidopsis tetratricopeptide repeat-containing protein TTL1 is required for osmotic stress responses and abscisic acid sensitivity. DOI: 10.1104/pp.106.085191 ; PMID: 16998088
- Separating Golgi Proteins from Cis to Trans Reveals Underlying Properties of Cisternal Localization. DOI: 10.1105/tpc.19.00081 ; PMID: 31266899
Gene Resources
- UniProt: A0A1P8B8K2
- EMBL: CP002687
- AlphaFoldDB: A0A1P8B8K2
- EnsemblPlants: AT4G19120.3
- Gramene: AT4G19120.3
- Orthologous matrix: CDMKYVM
- ExpressionAtlas: AT4G19120
- InterPro: IPR004159, IPR029063
- PANTHER: PTHR10108, PTHR10108:SF984
- SUPFAM: SSF53335
- Gene3D: 3.40.50.150
Sequences
cDNA Sequence
- >AT4G19120.3
GCACACCCAAAAATTGCAGAAGGAAGCTATATATGTTAACGTTAGCTTCTCTGCAAATCTCCTTATCTCACTCTCTCGCGTCCATTTTTTTTTCTCAATTCGTCTTCAAAAATTCGTTAGATAGAGAAGAATCTAAAAGTCTCTCTCGGTCATCGGAATATCTTCTTCTCAGGAATTCGACGAGACTATTCGAAATCGGAAATCGCGCTTTGAATCTGAAACTCAGAATTTAGAGGACGCTTACTCCAAAGAATCTAGGGTGTTAACTTTCTAAGAAAAGGAGTTTGTTAAAACAATGAAGTATAAAGATGAGAAGTACGAGAAAGCTGAGAAGGGTTCAAGGATTTTGCCCAAGACAGTTTTACTGATTCTTCTTTGTGGACTTTCGTTCTATCTTGGAGGGTTGTATTGTGGGAAGAACATAATTGAAGTTAGTGATGTTGCAAAAGCTGAATCTTCTTCCTTAGATGTTGATGACTCTCTTCAAGTCAAATCTGTTTCTTTCTCGGAATGTAGCAGTGACTACCAAGATTACACTCCTTGCACTGATCCAAGGAAATGGAAGAAGTATGGTACTCACAGGCTTACTTTCATGGAGCGACATTGTCCTCCTGTGTTTGATAGAAAGCAGTGTCTGGTTCCTCCTCCTGATGGCTATAAGCCACCGATAAGATGGCCAAAGAGCAAAGACGAATGTTGGTACAGGAATGTGCCATATGATTGGATTAACAAGCAGAAATCTAACCAGAATTGGCTAAGGAAAGAGGGTGAAAAGTTCATTTTTCCTGGTGGGGGTACAATGTTTCCACATGGAGTCAGTGCCTATGTCGATCTGATGCAAGATTTGATCCCTGAAATGAAAGATGGGACTATACGCACAGCCATTGACACTGGTTGTGGGGTTGCGAGCTGGGGAGGCGATTTGTTGGACCGGGGTATCCTCACGGTATCACTCGCCCCGAGGGATAATCACGAAGCTCAAGTCCAGTTTGCTCTAGAACGTGGAATTCCTGCGATTCTTGGCATCATTTCCACTCAACGTCTCCCTTTCCCTTCAAATTCATTTGATATGGCTCATTGCTCAAGATGCCTTATTCCGTGGACAGAATTTGGTGGAGTATATCTTCTGGAGGTTCACCGTATCCTAAGACCTGGTGGCTTCTGGGTCTTATCTGGTCCACCAGTCAACTATGAGAACCGTTGGAAAGGTTGGGACACAACCATTGAAGAGCAGAGATCAAACTACGAGAAGCTGCAGGAATTGTTATCTTCAATGTGCTTCAAAATGTATGCCAAGAAAGACGATATCGCAGTCTGGCAAAAATCTCCAGACAATCTATGCTATAACAAGTTGTCTAACGACCCTGATGCATACCCGCCAAAATGTGACGACAGCCTTGAGCCAGATTCTGCTTGGTATACACCATTACGCCCTTGCGTTGTGGTTCCAAGCCCTAAGCTAAAGAAGACGGATTTGGAATCTACTCCCAAGTGGCCAGAAAGATTACACACAACTCCTGAAAGAATCTCTGATGTTCCTGGAGGAAATGGTAACGTGTTTAAACATGATGATAGCAAATGGAAAACAAGGGCTAAGCATTACAAGAAGCTGTTACCCGCGATTGGTTCTGACAAAATTCGGAATGTTATGGATATGAACACTGCTTATGGAGGTTTGGCTGCTGCTCTGGTCAATGATCCTTTGTGGGTCATGAATGTCGTCTCTTCTTATGCTGCAAACACACTTCCCGTTGTGTTTGATCGTGGATTGATCGGAACATATCATGACTGGTAAATTCATCTCGACCACCTAATCTTTTTCTACTTTCAAACACTTGAGCTCGCATACATAATGTGGTCTGTTGTTTCATAGGTGTGAAGCTTTTTCGACGTATCCAAGAACTTATGATCTTCTTCACGTAGATGGGCTGTTTACATCTGAAAGCCAGAGGTGTGATATGAAATATGTAATGCTGGAAATGGATAGGATCTTACGTCCTAGCGGGTATGCGATTATACGCGAATCGAGCTACTTCGCAGATTCAATTGCTTCTGTTGCTAAAGAGCTGAGATGGAGTTGCCGTAAAGAACAAACAGAGTCTGCATCAGCCAATGAGAAGCTCTTGATTTGCCAGAAGAAGCTGTGGTATTCATCTAACGCAAGTTCAGAAACAAATTAAATAAACAAAAAAGAAAGAAATAATAGGACAAATCGAAAGCTTAAGCTTAAAGCTTTTGTTTTGTTCGGAGGTATCTTGAGAACAAAGTCTCAACAACAACACGCATAGGTTATTTGTGTTGCTTCAAAGCCAAGAAAGCTATTGAAAGCTGCCAATTCAATTTTATTATCCCAGCATATTTATCAATTTTCGTTTTTTTTTTCGCTTTTAGTATATGCTTGGTGAGAATTATATATTTCTTTTATTTTTAAATTGTAACTTTAAATTTTACTTTAAACGGTGATGTTCGAGATTTCTCGAATGTTAGGTATAATGATTTGAGATCTTCTTGTATTTTTTTACACGTTAACATGTTTGGTGGTCCATTTAG - >AT4G19120.2
GCACACCCAAAAATTGCAGAAGGAAGCTATATATGTTAACGTTAGCTTCTCTGCAAATCTCCTTATCTCACTCTCTCGCGTCCATTTTTTTTTCTCAATTCGTCTTCAAAAATTCGTTAGATAGAGAAGAATCTAAAAGTCTCTCTCGGTCATCGGAATATCTTCTTCTCAGGAATTCGACGAGACTATTCGAAATCGGAAATCGCGCTTTGAATCTGAAACTCAGAATTTAGAGGACGCTTACTCCAAAGAATCTAGGGTGTTAACTTTCTAAGAAAAGGAGTTTGTTAAAACAATGAAGTATAAAGATGAGAAGTACGAGAAAGCTGAGAAGGGTTCAAGGATTTTGCCCAAGACAGTTTTACTGATTCTTCTTTGTGGACTTTCGTTCTATCTTGGAGGGTTGTATTGTGGGAAGAACATAATTGAAGTTAGTGATGTTGCAAAAGCTGAATCTTCTTCCTTAGATGTTGATGACTCTCTTCAAGTCAAATCTGTTTCTTTCTCGGAATGTAGCAGTGACTACCAAGATTACACTCCTTGCACTGATCCAAGGAAATGGAAGAAGTATGGTACTCACAGGCTTACTTTCATGGAGCGACATTGTCCTCCTGTGTTTGATAGAAAGCAGTGTCTGGTTCCTCCTCCTGATGGCTATAAGCCACCGATAAGATGGCCAAAGAGCAAAGACGAATGTTGGTACAGGAATGTGCCATATGATTGGATTAACAAGCAGAAATCTAACCAGAATTGGCTAAGGAAAGAGGGTGAAAAGTTCATTTTTCCTGGTGGGGGTACAATGTTTCCACATGGAGTCAGTGCCTATGTCGATCTGATGCAAGATTTGATCCCTGAAATGAAAGATGGGACTATACGCACAGCCATTGACACTGGTTGTGGGGTTGCGAGCTGGGGAGGCGATTTGTTGGACCGGGGTATCCTCACGGTATCACTCGCCCCGAGGGATAATCACGAAGCTCAAGTCCAGTTTGCTCTAGAACGTGGAATTCCTGCGATTCTTGGCATCATTTCCACTCAACGTCTCCCTTTCCCTTCAAATTCATTTGATATGGCTCATTGCTCAAGATGCCTTATTCCGTGGACAGAATTTGGTGGAGTATATCTTCTGGAGGTTCACCGTATCCTAAGACCTGGTGGCTTCTGGGTCTTATCTGGTCCACCAGTCAACTATGAGAACCGTTGGAAAGGTTGGGACACAACCATTGAAGAGCAGAGATCAAACTACGAGAAGCTGCAGGAATTGTTATCTTCAATGTGCTTCAAAATGTATGCCAAGAAAGACGATATCGCAGTCTGGCAAAAATCTCCAGACAATCTATGCTATAACAAGTTGTCTAACGACCCTGATGCATACCCGCCAAAATGTGACGACAGCCTTGAGCCAGATTCTGCTTGGTATACACCATTACGCCCTTGCGTTGTGGTTCCAAGCCCTAAGCTAAAGAAGACGGATTTGGAATCTACTCCCAAGTGGCCAGAAAGATTACACACAACTCCTGAAAGAATCTCTGATGTTCCTGGAGGAAATGGTAACGTGTTTAAACATGATGATAGCAAATGGAAAACAAGGGCTAAGCATTACAAGAAGCTGTTACCCGCGATTGGTTCTGACAAAATTCGGAATGTTATGGATATGAACACTGCTTATGGAGGTTTGGCTGCTGCTCTGGTCAATGATCCTTTGTGGGTCATGAATGTCGTCTCTTCTTATGCTGCAAACACACTTCCCGTTGTGTTTGATCGTGGATTGATCGGAACATATCATGACTGGTAAATTCATCTCGACCACCTAATCTTTTTCTACTTTCAAACACTTGAGCTCGCATACATAATGTGGTCTGTTGTTTCATAGGTGTGAAGCTTTTTCGACGTATCCAAGAACTTATGATCTTCTTCACGTAGATGGGCTGTTTACATCTGAAAGCCAGAGGTGTGATATGAAATATGTAATGCTGGAAATGGATAGGATCTTACGTCCTAGCGGGTATGCGATTATACGCGAATCGAGCTACTTCGCAGATTCAATTGCTTCTGTTGCTAAAGAGCTGAGATGGAGTTGCCGTAAAGAACAAACAGAGTCTGCATCAGCCAATGAGAAGCTCTTGATTTGCCAGAAGAAGCTGTGGTATTCATCTAACGCAAGTTCAGAAACAAATTAAATAAACAAAAAAGAAAGAAATAATAGGACAAATCGAAAGCTTAAGCTTAAAGCTTTTGTTTTGTTCGGAGGTATCTTGAGAACAAAGTCTCAACAACAACACGCATAGGTTATTTGTGTTGCTTCAAAGCCAAGAAAGCTATTGAAAGCTGCCAATTCAATTTTATTATCCCAGCATATTTATCAATTTTCGTTTTTTTTTTCGCTTTTAGTATATGCTTGGTGAGAATTATATATTTCTTTTATTTTTAAATTGTAACTTTAAATTTTACTTTAAACGGTGATGTTCGAGATTTCTCGAATGTTAGGTATAATGATTTGAGATCTTCTTGTATTTTTTTACACGTTAACATGTTTGGTGGTCCATTTAG - >AT4G19120.1
GCACACCCAAAAATTGCAGAAGGAAGCTATATATGTTAACGTTAGCTTCTCTGCAAATCTCCTTATCTCACTCTCTCGCGTCCATTTTTTTTTCTCAATTCGTCTTCAAAAATTCGTTAGATAGAGAAGAATCTAAAAGTCTCTCTCGGTCATCGGAATATCTTCTTCTCAGGAATTCGACGAGACTATTCGAAATCGGAAATCGCGCTTTGAATCTGAAACTCAGAATTTAGAGGACGCTTACTCCAAAGAATCTAGGGTGTTAACTTTCTAAGAAAAGGAGTTTGTTAAAACAATGAAGTATAAAGATGAGAAGTACGAGAAAGCTGAGAAGGGTTCAAGGATTTTGCCCAAGACAGTTTTACTGATTCTTCTTTGTGGACTTTCGTTCTATCTTGGAGGGTTGTATTGTGGGAAGAACATAATTGAAGTTAGTGATGTTGCAAAAGCTGAATCTTCTTCCTTAGATGTTGATGACTCTCTTCAAGTCAAATCTGTTTCTTTCTCGGAATGTAGCAGTGACTACCAAGATTACACTCCTTGCACTGATCCAAGGAAATGGAAGAAGTATGGTACTCACAGGCTTACTTTCATGGAGCGACATTGTCCTCCTGTGTTTGATAGAAAGCAGTGTCTGGTTCCTCCTCCTGATGGCTATAAGCCACCGATAAGATGGCCAAAGAGCAAAGACGAATGTTGGTACAGGAATGTGCCATATGATTGGATTAACAAGCAGAAATCTAACCAGAATTGGCTAAGGAAAGAGGGTGAAAAGTTCATTTTTCCTGGTGGGGGTACAATGTTTCCACATGGAGTCAGTGCCTATGTCGATCTGATGCAAGATTTGATCCCTGAAATGAAAGATGGGACTATACGCACAGCCATTGACACTGGTTGTGGGGTTGCGAGCTGGGGAGGCGATTTGTTGGACCGGGGTATCCTCACGGTATCACTCGCCCCGAGGGATAATCACGAAGCTCAAGTCCAGTTTGCTCTAGAACGTGGAATTCCTGCGATTCTTGGCATCATTTCCACTCAACGTCTCCCTTTCCCTTCAAATTCATTTGATATGGCTCATTGCTCAAGATGCCTTATTCCGTGGACAGAATTTGGTGGAGTATATCTTCTGGAGGTTCACCGTATCCTAAGACCTGGTGGCTTCTGGGTCTTATCTGGTCCACCAGTCAACTATGAGAACCGTTGGAAAGGTTGGGACACAACCATTGAAGAGCAGAGATCAAACTACGAGAAGCTGCAGGAATTGTTATCTTCAATGTGCTTCAAAATGTATGCCAAGAAAGACGATATCGCAGTCTGGCAAAAATCTCCAGACAATCTATGCTATAACAAGTTGTCTAACGACCCTGATGCATACCCGCCAAAATGTGACGACAGCCTTGAGCCAGATTCTGCTTGGTATACACCATTACGCCCTTGCGTTGTGGTTCCAAGCCCTAAGCTAAAGAAGACGGATTTGGAATCTACTCCCAAGTGGCCAGAAAGATTACACACAACTCCTGAAAGAATCTCTGATGTTCCTGGAGGAAATGGTAACGTGTTTAAACATGATGATAGCAAATGGAAAACAAGGGCTAAGCATTACAAGAAGCTGTTACCCGCGATTGGTTCTGACAAAATTCGGAATGTTATGGATATGAACACTGCTTATGGAGGTTTGGCTGCTGCTCTGGTCAATGATCCTTTGTGGGTCATGAATGTCGTCTCTTCTTATGCTGCAAACACACTTCCCGTTGTGTTTGATCGTGGATTGATCGGAACATATCATGACTGGTAAATTCATCTCGACCACCTAATCTTTTTCTACTTTCAAACACTTGAGCTCGCATACATAATGTGGTCTGTTGTTTCATAGGTGTGAAGCTTTTTCGACGTATCCAAGAACTTATGATCTTCTTCACGTAGATGGGCTGTTTACATCTGAAAGCCAGAGGTGTGATATGAAATATGTAATGCTGGAAATGGATAGGATCTTACGTCCTAGCGGGTATGCGATTATACGCGAATCGAGCTACTTCGCAGATTCAATTGCTTCTGTTGCTAAAGAGCTGAGATGGAGTTGCCGTAAAGAACAAACAGAGTCTGCATCAGCCAATGAGAAGCTCTTGATTTGCCAGAAGAAGCTGTGGTATTCATCTAACGCAAGTTCAGAAACAAATTAAATAAACAAAAAAGAAAGAAATAATAGGACAAATCGAAAGCTTAAGCTTAAAGCTTTTGTTTTGTTCGGAGGTATCTTGAGAACAAAGTCTCAACAACAACACGCATAGGTTATTTGTGTTGCTTCAAAGCCAAGAAAGCTATTGAAAGCTGCCAATTCAATTTTATTATCCCAGCATATTTATCAATTTTCGTTTTTTTTTTCGCTTTTAGTATATGCTTGGTGAGAATTATATATTTCTTTTATTTTTAAATTGTAACTTTAAATTTTACTTTAAACGGTGATGTTCGAGATTTCTCGAATGTTAGGTATAATGATTTGAGATCTTCTTGTATTTTTTTACACGTTAACATGTTTGGTGGTCCATTTAG
CDS Sequence
Protein Sequence