Information report for AT4G20140
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)
Functional Keywords
Literature and News
- Using mutant alleles to determine the structure and function of leucine-rich repeat receptor-like kinases. DOI: 10.1016/s1369-5266(03)00089-x ; PMID: 12972053
- Structure of two melon regions reveals high microsynteny with sequenced plant species. DOI: 10.1007/s00438-007-0277-2 ; PMID: 17665215
- PEPR2 is a second receptor for the Pep1 and Pep2 peptides and contributes to defense responses in Arabidopsis. DOI: 10.1105/tpc.109.068874 ; PMID: 20179141
- Probing the roles of LRR RLK genes in Arabidopsis thaliana roots using a custom T-DNA insertion set. DOI: 10.1007/s11103-011-9769-x ; PMID: 21431781
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
- "What we've got here is failure to communicate": zou mutants and endosperm cell death in seed development. DOI: 10.4161/psb.24368 ; PMID: 23531691
- ZHOUPI controls embryonic cuticle formation via a signalling pathway involving the subtilisin protease ABNORMAL LEAF-SHAPE1 and the receptor kinases GASSHO1 and GASSHO2. DOI: 10.1242/dev.088898 ; PMID: 23318634
- Epidermal identity is maintained by cell-cell communication via a universally active feedback loop in Arabidopsis thaliana. DOI: 10.1111/tpj.12360 ; PMID: 24147836
- A peptide hormone required for Casparian strip diffusion barrier formation in Arabidopsis roots. DOI: 10.1126/science.aai9057 ; PMID: 28104889
- ZHOUPI and KERBEROS Mediate Embryo/Endosperm Separation by Promoting the Formation of an Extracuticular Sheath at the Embryo Surface. DOI: 10.1105/tpc.17.00016 ; PMID: 28696222
- Biochemical Analysis of the Role of Leucine-Rich Repeat Receptor-Like Kinases and the Carboxy-Terminus of Receptor Kinases in Regulating Kinase Activity in Arabidopsis thaliana and Brassica oleracea. DOI: 10.3390/molecules23010236 ; PMID: 29361797
- A stress-response-related inter-compartmental signalling pathway regulates embryonic cuticle integrity in Arabidopsis. DOI: 10.1371/journal.pgen.1007847 ; PMID: 30998684
- Molecular mechanism for the recognition of sequence-divergent CIF peptides by the plant receptor kinases GSO1/SGN3 and GSO2. DOI: 10.1073/pnas.1911553117 ; PMID: 31964818
- SERKs regulate embryonic cuticle integrity through the TWS1-GSO1/2 signaling pathway in Arabidopsis. DOI: 10.1111/nph.17775 ; PMID: 34614228
- Directed growth and fusion of membrane-wall microdomains requires CASP-mediated inhibition and displacement of secretory foci. DOI: 10.1038/s41467-023-37265-7 ; PMID: 36959183
- A salt stress-activated GSO1-SOS2-SOS1 module protects the Arabidopsis root stem cell niche by enhancing sodium ion extrusion. DOI: 10.15252/embj.2022113004 ; PMID: 37211994
- Expression pattern shifts following duplication indicative of subfunctionalization and neofunctionalization in regulatory genes of Arabidopsis. DOI: 10.1093/molbev/msj051 ; PMID: 16280546
Gene Resources
Sequences
cDNA Sequence
- >AT4G20140.1
CATTTCCCCACATCTCTCCTCTGACCTCTCTTTGACCCCTCTCTCCTCTCTCTCTAGATCTCTCAATAAAACAGTGAAATAGCAAAAAAGAAACACAAAAAAGAGAGAGAGAAAGAAACTTTGTTCTCTCTGCATTTACTCTTCTCCAACTCAGAGATAGAGTCCCTATGCACCGTTTCTAATGACCAATCATCTTTCTCCCTCTTCATCATTCTCTACAACAAGAATCACACAAATGCCATAAAACCTCCATTCTTCTTCCTCAGTAAACCAAACCATAAGACGACGAAGAAGAAAACATGCAACCACTAGTTCTTCTCCTCCTCTTCATCCTCTGTTTTTCCGGTTTAGGTCAACCGGGTATCATCAACAACGATCTTCAGACTCTTCTCGAGGTGAAGAAATCTTTGGTCACGAATCCACAAGAAGACGATCCTCTCCGACAATGGAACTCTGATAACATCAACTACTGTTCTTGGACCGGAGTCACATGCGACAATACCGGTTTATTTCGTGTAATTGCTCTAAACCTTACCGGTTTAGGATTAACCGGTTCAATTTCACCTTGGTTTGGCCGGTTTGACAACCTAATCCACCTTGATCTATCTTCCAACAATCTAGTTGGTCCCATCCCAACTGCTCTCTCCAACCTTACTTCCTTGGAGTCTCTGTTTCTCTTTTCTAACCAACTCACCGGCGAGATTCCGAGCCAGCTCGGCTCCCTCGTTAATATCCGGTCGCTAAGGATCGGAGACAATGAGCTTGTTGGAGATATCCCGGAGACGTTAGGGAACTTGGTGAATCTCCAGATGCTTGCTCTGGCTTCTTGTAGACTCACCGGTCCTATACCGAGTCAGCTCGGTCGTCTCGTCCGAGTTCAGTCGTTGATATTGCAAGATAACTATCTCGAAGGACCGATTCCGGCTGAGTTAGGAAACTGCTCTGATCTCACTGTGTTCACTGCGGCGGAGAACATGCTCAACGGGACGATACCGGCGGAGCTTGGACGCCTTGAAAACCTCGAAATACTCAACCTGGCGAACAACAGTCTCACCGGAGAGATACCGAGTCAATTAGGTGAAATGAGCCAACTCCAGTATCTTAGCTTGATGGCAAATCAACTTCAAGGTCTTATCCCCAAGAGTTTGGCTGATCTGGGAAATCTTCAAACTCTTGATTTATCGGCGAATAATCTTACCGGAGAGATACCTGAAGAATTCTGGAACATGAGTCAGCTTCTTGATTTGGTTCTAGCAAACAATCATCTCTCTGGTTCATTACCAAAGAGCATTTGTTCTAACAACACAAACTTGGAGCAACTGGTTTTGTCTGGAACTCAGCTTTCTGGTGAAATCCCTGTGGAATTAAGCAAATGTCAATCGCTTAAGCAGCTTGATTTGTCGAACAATTCTCTCGCTGGCTCGATCCCTGAAGCATTGTTTGAGCTAGTCGAACTCACAGATCTTTATCTCCACAATAATACCTTGGAGGGTACGTTATCTCCTTCGATATCAAACCTCACTAATCTACAGTGGCTTGTGTTGTATCACAATAACTTGGAAGGCAAGTTACCGAAGGAGATCAGCGCACTCAGAAAATTAGAGGTTCTGTTTCTGTATGAGAATCGTTTCTCAGGGGAAATCCCACAGGAGATTGGAAACTGCACAAGCTTGAAGATGATTGATATGTTCGGGAATCATTTCGAAGGAGAGATACCTCCTTCAATAGGAAGATTAAAAGAGCTTAACTTGCTTCACTTGAGACAGAACGAGCTTGTGGGTGGACTTCCCGCCAGTTTAGGTAACTGTCATCAACTGAACATCTTGGATTTGGCGGATAATCAGCTCTCGGGATCAATTCCTTCATCCTTCGGGTTCTTAAAGGGCTTGGAACAGTTGATGCTTTACAACAATTCTCTTCAAGGAAATCTTCCTGATTCACTTATCAGTCTGAGGAACCTCACCAGAATCAATCTCTCTCACAACAGGCTCAATGGTACGATTCATCCATTATGTGGTTCGAGCTCATATCTCTCATTCGATGTCACCAACAACGGGTTTGAAGATGAAATCCCCCTGGAGCTAGGAAACTCTCAAAATCTTGATCGTCTCAGGTTAGGCAAGAATCAATTGACAGGAAAAATCCCTTGGACGTTGGGGAAAATCCGCGAGCTGTCCTTGTTAGATATGTCAAGCAACGCTCTCACAGGAACCATTCCGCTACAGCTCGTCTTGTGCAAGAAACTGACACACATCGATCTCAATAACAATTTTCTATCAGGTCCTATACCTCCATGGCTTGGAAAACTTTCACAGTTAGGAGAGCTCAAGCTTTCTTCGAATCAGTTTGTTGAGTCTTTACCTACTGAACTGTTCAACTGTACAAAGCTGCTTGTGTTGTCTCTTGATGGAAATTCGCTTAATGGGTCGATTCCACAAGAGATTGGTAACTTGGGAGCTCTCAATGTCCTTAACCTTGATAAGAACCAGTTTTCAGGTTCACTTCCTCAAGCTATGGGAAAGCTCAGCAAGCTGTATGAGCTTCGGTTATCAAGAAACAGCTTAACAGGAGAAATCCCAGTTGAGATTGGACAGCTTCAGGATCTTCAAAGTGCTTTAGACCTCAGCTACAATAACTTCACTGGAGATATACCTTCGACAATTGGGACATTATCAAAGCTGGAAACACTTGATCTTTCTCACAATCAGCTTACAGGGGAAGTTCCTGGCTCGGTTGGGGATATGAAGAGTTTGGGATATCTCAATGTTTCTTTCAATAACCTCGGAGGGAAGCTCAAGAAACAGTTCTCAAGATGGCCAGCTGATTCCTTTTTAGGCAACACAGGTCTTTGTGGAAGCCCACTAAGTCGCTGCAACAGAGTTAGAAGTAATAACAAGCAACAAGGTCTTAGTGCCAGATCAGTTGTGATAATATCAGCAATCTCAGCATTGACGGCGATTGGCTTGATGATACTTGTAATCGCTCTCTTCTTCAAACAAAGGCATGATTTCTTCAAGAAAGTGGGTCATGGAAGCACTGCGTACACATCGTCAAGCTCTTCTTCACAAGCTACACACAAGCCTCTCTTTCGAAACGGAGCTTCAAAGTCCGATATCAGGTGGGAGGACATCATGGAAGCTACACATAATCTAAGCGAGGAGTTCATGATTGGATCAGGAGGCTCTGGGAAGGTTTACAAGGCGGAGCTTGAAAATGGTGAGACTGTTGCAGTGAAAAAGATTCTCTGGAAGGATGATCTCATGTCAAACAAGAGCTTCAGCAGAGAAGTTAAGACGCTTGGAAGAATCAGGCATAGGCATCTGGTTAAGCTAATGGGTTACTGCAGCAGCAAGTCAGAAGGATTGAATCTGTTGATATATGAGTACATGAAGAACGGAAGCATCTGGGATTGGCTTCATGAGGACAAACCCGTGCTCGAAAAAAAGAAGAAGCTTTTAGACTGGGAAGCAAGATTGAGAATAGCAGTAGGATTGGCTCAAGGAGTAGAGTACCTTCATCATGACTGTGTTCCTCCTATCGTTCACCGTGATATCAAATCCAGTAATGTGCTCCTCGATTCAAACATGGAAGCGCATTTAGGAGATTTCGGTCTTGCCAAGGTCTTAACTGAGAACTGTGATACCAACACAGATTCAAATACCTGGTTTGCATGCTCTTATGGCTACATTGCTCCAGAGTATGCTTACTCGTTGAAGGCGACTGAGAAGAGCGACGTTTACAGTATGGGGATCGTGTTGATGGAGATTGTGACTGGGAAAATGCCAACCGACTCAGTGTTTGGTGCAGAGATGGACATGGTGAGATGGGTTGAAACACATCTTGAAGTAGCGGGTTCTGCGAGAGATAAACTCATAGATCCAAAGCTTAAGCCACTTCTGCCATTTGAGGAAGACGCAGCTTGTCAGGTGCTTGAGATTGCACTTCAGTGCACAAAAACTTCTCCCCAAGAGAGACCATCTTCTAGGCAAGCTTGTGATAGTCTTCTCCATGTCTACAACAACAGAACGGCCGGTTATAAGAAGCTGTAAAAAAACTGACACCTGCAAATGTCTTTGGAGACATGAAAACTGCCAACTTTAAATTTTTTCTTCTGAAATTCTGTTTCTGCTTTGTATAGATGACATGGTTTCTTTCAGTACAAAGATTGTTTCGAACTTGATCCATCTGCTACAAAAACACTTATTGTCTTTTGCATGTACTTGTAATACAACTTAAACCAAATTTTAAACAGAATGATTCTGATTCTGATTCTG
CDS Sequence
Protein Sequence