Information report for AT5G14090
Gene Details
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Functional Descriptions
- 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)
- GO:0005634 — located in — nucleus
- GO:0009958 — acts upstream of or within — positive gravitropism
- GO:0009959 — acts upstream of or within — negative gravitropism
- GO:0003674 — enables — molecular_function
- GO:0009630 — involved in — gravitropism
- GO:2000012 — involved in — regulation of auxin polar transport
- GO:0005886 — located in — plasma membrane
Functional Keywords
Literature and News
- The Arabidopsis LAZY1 Family Plays a Key Role in Gravity Signaling within Statocytes and in Branch Angle Control of Roots and Shoots. DOI: 10.1105/tpc.16.00575 ; PMID: 28765510
- LAZY Genes Mediate the Effects of Gravity on Auxin Gradients and Plant Architecture. DOI: 10.1104/pp.17.00942 ; PMID: 28821594
- Bridging the gap between amyloplasts and directional auxin transport in plant gravitropism. DOI: 10.1016/j.pbi.2019.07.005 ; PMID: 31446250
- Polar recruitment of RLD by LAZY1-like protein during gravity signaling in root branch angle control. DOI: 10.1038/s41467-019-13729-7 ; PMID: 31900388
- Opposing influences of TAC1 and LAZY1 on Lateral Shoot Orientation in Arabidopsis. DOI: 10.1038/s41598-020-62962-4 ; PMID: 32269265
- Gravity-Sensing Tissues for Gravitropism Are Required for "Anti-Gravitropic" Phenotypes of Lzy Multiple Mutants in Arabidopsis. DOI: 10.3390/plants9050615 ; PMID: 32408582
- BRXL4-LAZY1 interaction at the plasma membrane controls Arabidopsis branch angle and gravitropism. DOI: 10.1111/tpj.16055 ; PMID: 36478485
Gene Resources
- UniProt: A0A1P8BDM4
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BDM4
- EnsemblPlants: AT5G14090.2
- Gramene: AT5G14090.2
- ExpressionAtlas: AT5G14090
- InterPro: IPR038928
- PANTHER: PTHR34959, PTHR34959:SF4
Sequences
cDNA Sequence
- >AT5G14090.2
AGTATTCTGTAGCAACTGAAGCACGAAAATGAAGTTTTGGGGCTGGATGCATCATAAGTTCCGGGAGAATAGCAAAGAGCCATTAAAAGATGCTTCTACTGGCAACAGCTATTCCATTCTTTCAGCTCATCCATCCCTTGATAGCCAAGAGGTTTACCCAACAGCATGTGCTGGCTCCAGATACAATACTGGATTCAGAAAACAGGTCAACCTGTTCCAGGAAAGCTCCTTCGCAGGACCCAAGCAATACACAGAGGAAGACTTCAAGGATGAGAGAAACAGTGATTTTTTTGATGGATTTCTTGCCATTGGAACCCTTGGTGGAGAAACACTTCTTGATGAACAACCAGCAACGCCGACATTTGGCATGTCATTTGAGGACCCAGCAATAGATGATGCAGATGTGACAGAGAATGATTTGAAGCTCATAAGCAATGAATTGGATAAGTTCCTTGAGGCTGAAGCTAAAGAAGGACACCACCAACCATCAGGAAGAAACAGTGACACTAACACTATTGCATCCACCATTGAGGCCATTGAGGGAGTAGATGATGAAGAAGATAATCAGCCAATGAAGTTCCCACTCCAAGAGTATTTTTTTGGATCTCTAATCGAACTCCCAGAATCAAAGATTGCAGGGAAGAAGGATAGGGCATCACTTGGCGAACTGTTTCAAATAACAGAAGTGCAAGATAAACAATCAGAAAACATATATGGGAAGAAAAAGAAGCAACCCAATTCAGCTCACAAGTCCGCAAAGCATCTTGTGAAGAAGGTACTGAAAAAGATACACCCATCCTCAAGGGGCTCTGTCAGTGGTAAACCTGAAGTGGATTCCACAAAAAAGAAGTTCCAAAAGGTGTGGCTTTTTCAGCTCTGCTTTTTTAAAAACTAATAATCTAAAAAAACGACTGCGTGATACATGATACATGATACACCAAACTTCAGATATTTTATCCCTTACTTTGATAGCATTCTCTGGAGCTATCATATACTCCATTGAAAAGCTTGCTCCTAACAAACTTGAATTTCATGTGAGGAGTGCAGATGGTACAGGTTTTCCATAGGAAAGTACATCCAGAAGAATCCATAATGGAAACCAAAATATACAGCAGCGTGGCAAATCCAAAAAGCAGCAAAGCAAATTCTATTGACTTAACATTCGAGAAGGTGAACCATTGTCACGAGGCAAGTAAAAGATGTATCCAGTATGAGCTTAGAAGTTCTCGCTCAGCCAAAAACGGAGAACACTGGATCAAGACAGACGAAGACTATTTCGTGTTGGAACTGTAACAAAGGGATCAGAAGAACTATGTAAACTAAGAAGTGTAAGTGTATAATTTCACTTCATGCATGTGTGAATTGTGTGGTATGATTAAGGAAAATGTGTTCAAACTTACTGGGAATGTTTATTACGCCCCTCTATGTAATAATAAATGATAAAGGGTGTTATAATTGCAGCAAGATATCTCATATACATTGTTTGGAGTAGTAGAATTAAGAGAATGCAAGCATTGATTCAAATTCAATTATCTGTTTTAATCTCAGAAGAGAGAGGCATAATGTTTATGCCTCTCTTAGCTAATAAGCCATAATTTATCATTATCTCCTACACAAAAGAACTTACATAGAAAATCCACCATAAAGTATGAGCGGCTATCTTATATTTCATGCAATAAAAAACCTAAGCCAGGGTAAAAGCCTGTATCACTTTTTAGCTAAACAAAAATCAATAACATCCGAGCCAAACCTGG - >AT5G14090.1
AGTATTCTGTAGCAACTGAAGCACGAAAATGAAGTTTTGGGGCTGGATGCATCATAAGTTCCGGGAGAATAGCAAAGAGCCATTAAAAGATGCTTCTACTGGCAACAGCTATTCCATTCTTTCAGCTCATCCATCCCTTGATAGCCAAGAGGTTTACCCAACAGCATGTGCTGGCTCCAGATACAATACTGGATTCAGAAAACAGGTCAACCTGTTCCAGGAAAGCTCCTTCGCAGGACCCAAGCAATACACAGAGGAAGACTTCAAGGATGAGAGAAACAGTGATTTTTTTGATGGATTTCTTGCCATTGGAACCCTTGGTGGAGAAACACTTCTTGATGAACAACCAGCAACGCCGACATTTGGCATGTCATTTGAGGACCCAGCAATAGATGATGCAGATGTGACAGAGAATGATTTGAAGCTCATAAGCAATGAATTGGATAAGTTCCTTGAGGCTGAAGCTAAAGAAGGACACCACCAACCATCAGGAAGAAACAGTGACACTAACACTATTGCATCCACCATTGAGGCCATTGAGGGAGTAGATGATGAAGAAGATAATCAGCCAATGAAGTTCCCACTCCAAGAGTATTTTTTTGGATCTCTAATCGAACTCCCAGAATCAAAGATTGCAGGGAAGAAGGATAGGGCATCACTTGGCGAACTGTTTCAAATAACAGAAGTGCAAGATAAACAATCAGAAAACATATATGGGAAGAAAAAGAAGCAACCCAATTCAGCTCACAAGTCCGCAAAGCATCTTGTGAAGAAGGTACTGAAAAAGATACACCCATCCTCAAGGGGCTCTGTCAGTGGTAAACCTGAAGTGGATTCCACAAAAAAGAAGTTCCAAAAGGTGTGGCTTTTTCAGCTCTGCTTTTTTAAAAACTAATAATCTAAAAAAACGACTGCGTGATACATGATACATGATACACCAAACTTCAGATATTTTATCCCTTACTTTGATAGCATTCTCTGGAGCTATCATATACTCCATTGAAAAGCTTGCTCCTAACAAACTTGAATTTCATGTGAGGAGTGCAGATGGTACAGGTTTTCCATAGGAAAGTACATCCAGAAGAATCCATAATGGAAACCAAAATATACAGCAGCGTGGCAAATCCAAAAAGCAGCAAAGCAAATTCTATTGACTTAACATTCGAGAAGGTGAACCATTGTCACGAGGCAAGTAAAAGATGTATCCAGTATGAGCTTAGAAGTTCTCGCTCAGCCAAAAACGGAGAACACTGGATCAAGACAGACGAAGACTATTTCGTGTTGGAACTGTAACAAAGGGATCAGAAGAACTATGTAAACTAAGAAGTGTAAGTGTATAATTTCACTTCATGCATGTGTGAATTGTGTGGTATGATTAAGGAAAATGTGTTCAAACTTACTGGGAATGTTTATTACGCCCCTCTATGTAATAATAAATGATAAAGGGTGTTATAATTGCAGCAAGATATCTCATATACATTGTTTGGAGTAGTAGAATTAAGAGAATGCAAGCATTGATTCAAATTCAATTATCTGTTTTAATCTCAGAAGAGAGAGGCATAATGTTTATGCCTCTCTTAGCTAATAAGCCATAATTTATCATTATCTCCTACACAAAAGAACTTACATAGAAAATCCACCATAAAGTATGAGCGGCTATCTTATATTTCATGCAATAAAAAACCTAAGCCAGGGTAAAAGCCTGTATCACTTTTTAGCTAAACAAAAATCAATAACATCCGAGCCAAACCTGG
CDS Sequence
Protein Sequence