Information report for AT5G10020
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
- Temporal analysis of sucrose-induced phosphorylation changes in plasma membrane proteins of Arabidopsis. DOI: 10.1074/mcp.M700164-MCP200 ; PMID: 17586839
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
- Large-scale analysis of in vivo phosphorylated membrane proteins by immobilized metal ion affinity chromatography and mass spectrometry. DOI: 10.1074/mcp.T300006-MCP200 ; PMID: 14506206
- Expression pattern shifts following duplication indicative of subfunctionalization and neofunctionalization in regulatory genes of Arabidopsis. DOI: 10.1093/molbev/msj051 ; PMID: 16280546
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- 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
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- 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
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
Gene Resources
Sequences
cDNA Sequence
- >AT5G10020.2
TCTCTCTCTTCTTCTTCTTCCCCTCTTTCAATTTTTTTCAGATTCCGAGTACAATCCCTAAATCTCCGTCTCTCTGTTTCTCTCTTCTCTCAAGTCTCAGCTATGAATCCTTACTAGGGTTTATTCTTTCTGTGTTTCTCACTCTGCATTTGCTTCTGTGGAGTAGATAGATTCTTCAGGGCTAAATGAGTCATTTTCTCACTTTCTGCTTCCTCTCACTCCTTCTCCTCCTCCACGGTGCCAACGCCGTCACCGAGACGGAGCTCCGATCTCTACTCGAGTTCCGTAAAGGGATCCGTGACGAGACCTCACACCAACGAATCTCATGGTCAGATACAAGCAGCCTCACTGATCCATCTACTTGCCCTAATGACTGGCCTGGTATCTCTTGCGACCCTGAAACCGGTTCAATCATCGCCATTAATCTCGACCGTCGTGGTCTCTCCGGCGAACTCAAATTCAGCACTCTCTCTGGTCTTACTCGTCTTCGTAACCTCTCTTTATCCGGAAACAGCTTCTCGGGTCGGGTCGTTCCTTCATTGGGTGGAATCTCGTCGCTTCAACACTTAGATCTGTCGGATAACGGTTTCTACGGACCTATACCGGGTCGGATCTCGGAGCTTTGGAGTTTGAATCATCTCAATTTGTCTTCCAACAAGTTCGAAGGTGGGTTTCCTAGTGGCTTTCGGAATCTTCAGCAGCTAAGATCTTTGGATTTGCATAAGAACGAGATTTGGGGAGATGTTGGTGAGATTTTCACTGAGCTTAAGAATGTTGAGTTCGTTGATTTGAGCTGTAACCGTTTCAACGGTGGCTTATCTTTACCAATGGAGAACATTTCCAGCATTTCCAACACTCTCCGTCACTTGAATTTGAGCCACAATGCGTTAAATGGCAAGTTTTTCAGTGAGGAGTCCATTGGTTCGTTCAAGAATCTCGAGATTGTTGACTTAGAGAATAACCAGATCAATGGATCAATTAGTGAAATCAATTCATCAACGTTAACTATGTTGAATCTTTCTTCTAACGGCCTGTCTGGGGATCTTCCGTCGAGTTTTAAAAGTTGCTCAGTGATAGATTTGAGTGGGAATACTTTCTCTGGCGACGTGTCTGTTGTTCAAAAGTGGGAAGCTACTCCAGATGTTCTTGATCTTAGCTCAAACAACTTGTCGGGAAGCTTGCCGAACTTTACTTCTGCATTTTCAAGATTAAGTGTGTTGAGCATTAGGAATAATTCTGTCTCTGGTAGCTTGCCTTCTCTGTGGGGTGATTCTCAATTCTCTGTGATTGATCTCAGTTCAAATAAGTTCAGTGGCTTCATTCCAGTGAGTTTCTTCACTTTTGCAAGCTTGAGAAGTTTGAATCTTTCTAGGAATAACTTGGAGGGGCCAATTCCTTTTCGAGGTTCACGTGCAAGCGAACTTTTGGTTCTAAATTCTTATCCGCAGATGGAGTTACTTGACCTTTCAACCAATTCTTTGACGGGTATGCTGCCTGGGGATATAGGTACAATGGAAAAAATTAAAGTGCTGAATCTTGCCAATAATAAGCTGTCCGGGGAACTTCCAAGCGACCTCAACAAGCTTAGTGGCCTTTTGTTCCTTGACTTGTCAAACAATACTTTCAAGGGTCAAATTCCCAATAAGCTTCCTTCCCAAATGGTGGGATTCAATGTGTCGTATAACGACCTATCAGGCATAATTCCGGAAGACCTTAGAAGCTACCCGCCTTCTTCATTTTATCCTGGTAACTCCAAGCTAAGTCTCCCAGGACGGATTCCAGCGGATTCTTCTGGTGATCTGTCTTTACCTGGGAAAAAACATCATTCGAAGCTTAGCATAAGAATAGCGATTATTGTTGCTTCAGTTGGAGCTGCTATTATGATTCTTTTTGTCTTGTTTGCCTATCATCGAACACAGCTCAAGGACTTTCACGGGAGGAATAGATTTACAGACCAAGCAACGACTAGAGACACCAAGTTTGGACGCTCTTCTCGTCCCTCCTTATTCAACTTCAGCTCAAATGTTGAGCAGCAGTCATCATCTTTGAGCTTCTCAAACGATCACTTGCTCACCGCAAATTCAAGGTCGTTATCTGGGATACCCGGATGTGAAGCTGAAATATCCGAGCAGGGTGCGCCTGCTACTTCTGCTCCTACAAACCTCCTTGATGATTATCCTGCAGCATCTGGGCGCAAGTCTTCTTCAGGAGGCTCCCCACTATCCTCCTCACCCCGTTTTAGCGACCAGCCTGTGATGTTAGATGTTTACTCACCTGATAGATTGGCCGGAGAACTCTTCTTCTTAGACGTTTCACTAAAACTCACAGCAGAAGAGTTATCCCGAGCTCCTGCAGAAGTTCTAGGTAGAAGCAGCCATGGAACACTGTACAAAGCAACACTGGATAATGGACACATGTTGACGGTGAAATGGTTGAGAGTTGGCCTCGTGAGGCATAAGAAAGATTTCGCACGGGAAGCCAAAAAAATCGGCTCTTTAAAACATCCTAACATTGTTCCGTTGCGAGCATACTATTGGGGTCCCAGAGAACAAGAAAGACTTCTCCTGTCTGATTACCTGAGAGGAGAGAGCTTAGCCATGCATCTTTACGAGACTACTCCTCGGAGGTATTCTCCAATGTCCTTCAGCCAAAGACTAAAAGTTGCAGTTGAAGTGGCTCAGTGTCTTCTCTACCTTCATGATAGAGCAATGCCACACGGGAACTTGAAGCCAACTAACATAATCCTCTCAAGTCCTGACAATACCGTGCGAATAACTGATTACTGTGTTCACCGTTTGATGACTCCATCTGGTGTAGCGGAACAGATACTAAACATGAGTGCACTCGGTTACTCTGCTCCTGAACTTTCCTCGGCTTCCAAACCGATACCAACACTCAAATCCGATGTCTATGCGTTTGGTGTGATTCTCATGGAGCTTTTGACTAGACGGAGCGCAGGTGACATAATCTCAGGTCAAACAGGAGCCGTTGATCTGACCGATTGGGTGAGGTTGTGTGATCAAGAAGGAAGGAGAATGGATTGCATAGACAGAGACATAGCAGGTGGGGAAGAGTTCTCAAAGGGAATGGAGGATGCACTTGCTGTTGCAATCAGGTGCATTCTCTCTGTCAATGAAAGGCCTAACATCAGACAAGTTCTTGATCATCTTACTTCAATTTCTGCCTGAGATTTGTTTGTTTTTTTATCTCTTCTAAATTTTTCTGTAAATCTCCATGGATTTCCTTTCACACATCATCCCATTTTTTCTTCTTCTTTTCTGGTTTTATGTTTCTCTCTAGTAGTTTGATCAGATGATTCAGAATGATCCTCAGGTGTTCTTACATTTATTTTTTGTTGATTATTTTTCCCCTTCCTTGTAAAGGTAGAAGAAAATCTAATCCCATTGATTCTGACAGAAACATTTGTGTTTGCTTATTGATTCTTTTTTTTATAAATTGTTTTTTTTATCTCTTTTCGACT - >AT5G10020.1
TCTCTCTCTTCTTCTTCTTCCCCTCTTTCAATTTTTTTCAGATTCCGAGTACAATCCCTAAATCTCCGTCTCTCTGTTTCTCTCTTCTCTCAAGTCTCAGCTATGAATCCTTACTAGGGTTTATTCTTTCTGTGTTTCTCACTCTGCATTTGCTTCTGTGGAGTAGATAGATTCTTCAGGGCTAAATGAGTCATTTTCTCACTTTCTGCTTCCTCTCACTCCTTCTCCTCCTCCACGGTGCCAACGCCGTCACCGAGACGGAGCTCCGATCTCTACTCGAGTTCCGTAAAGGGATCCGTGACGAGACCTCACACCAACGAATCTCATGGTCAGATACAAGCAGCCTCACTGATCCATCTACTTGCCCTAATGACTGGCCTGGTATCTCTTGCGACCCTGAAACCGGTTCAATCATCGCCATTAATCTCGACCGTCGTGGTCTCTCCGGCGAACTCAAATTCAGCACTCTCTCTGGTCTTACTCGTCTTCGTAACCTCTCTTTATCCGGAAACAGCTTCTCGGGTCGGGTCGTTCCTTCATTGGGTGGAATCTCGTCGCTTCAACACTTAGATCTGTCGGATAACGGTTTCTACGGACCTATACCGGGTCGGATCTCGGAGCTTTGGAGTTTGAATCATCTCAATTTGTCTTCCAACAAGTTCGAAGGTGGGTTTCCTAGTGGCTTTCGGAATCTTCAGCAGCTAAGATCTTTGGATTTGCATAAGAACGAGATTTGGGGAGATGTTGGTGAGATTTTCACTGAGCTTAAGAATGTTGAGTTCGTTGATTTGAGCTGTAACCGTTTCAACGGTGGCTTATCTTTACCAATGGAGAACATTTCCAGCATTTCCAACACTCTCCGTCACTTGAATTTGAGCCACAATGCGTTAAATGGCAAGTTTTTCAGTGAGGAGTCCATTGGTTCGTTCAAGAATCTCGAGATTGTTGACTTAGAGAATAACCAGATCAATGGATCAATTAGTGAAATCAATTCATCAACGTTAACTATGTTGAATCTTTCTTCTAACGGCCTGTCTGGGGATCTTCCGTCGAGTTTTAAAAGTTGCTCAGTGATAGATTTGAGTGGGAATACTTTCTCTGGCGACGTGTCTGTTGTTCAAAAGTGGGAAGCTACTCCAGATGTTCTTGATCTTAGCTCAAACAACTTGTCGGGAAGCTTGCCGAACTTTACTTCTGCATTTTCAAGATTAAGTGTGTTGAGCATTAGGAATAATTCTGTCTCTGGTAGCTTGCCTTCTCTGTGGGGTGATTCTCAATTCTCTGTGATTGATCTCAGTTCAAATAAGTTCAGTGGCTTCATTCCAGTGAGTTTCTTCACTTTTGCAAGCTTGAGAAGTTTGAATCTTTCTAGGAATAACTTGGAGGGGCCAATTCCTTTTCGAGGTTCACGTGCAAGCGAACTTTTGGTTCTAAATTCTTATCCGCAGATGGAGTTACTTGACCTTTCAACCAATTCTTTGACGGGTATGCTGCCTGGGGATATAGGTACAATGGAAAAAATTAAAGTGCTGAATCTTGCCAATAATAAGCTGTCCGGGGAACTTCCAAGCGACCTCAACAAGCTTAGTGGCCTTTTGTTCCTTGACTTGTCAAACAATACTTTCAAGGGTCAAATTCCCAATAAGCTTCCTTCCCAAATGGTGGGATTCAATGTGTCGTATAACGACCTATCAGGCATAATTCCGGAAGACCTTAGAAGCTACCCGCCTTCTTCATTTTATCCTGGTAACTCCAAGCTAAGTCTCCCAGGACGGATTCCAGCGGATTCTTCTGGTGATCTGTCTTTACCTGGGAAAAAACATCATTCGAAGCTTAGCATAAGAATAGCGATTATTGTTGCTTCAGTTGGAGCTGCTATTATGATTCTTTTTGTCTTGTTTGCCTATCATCGAACACAGCTCAAGGACTTTCACGGGAGGAATAGATTTACAGACCAAGCAACGACTAGAGACACCAAGTTTGGACGCTCTTCTCGTCCCTCCTTATTCAACTTCAGCTCAAATGTTGAGCAGCAGTCATCATCTTTGAGCTTCTCAAACGATCACTTGCTCACCGCAAATTCAAGGTCGTTATCTGGGATACCCGGATGTGAAGCTGAAATATCCGAGCAGGGTGCGCCTGCTACTTCTGCTCCTACAAACCTCCTTGATGATTATCCTGCAGCATCTGGGCGCAAGTCTTCTTCAGGAGGCTCCCCACTATCCTCCTCACCCCGTTTTAGCGACCAGCCTGTGATGTTAGATGTTTACTCACCTGATAGATTGGCCGGAGAACTCTTCTTCTTAGACGTTTCACTAAAACTCACAGCAGAAGAGTTATCCCGAGCTCCTGCAGAAGTTCTAGGTAGAAGCAGCCATGGAACACTGTACAAAGCAACACTGGATAATGGACACATGTTGACGGTGAAATGGTTGAGAGTTGGCCTCGTGAGGCATAAGAAAGATTTCGCACGGGAAGCCAAAAAAATCGGCTCTTTAAAACATCCTAACATTGTTCCGTTGCGAGCATACTATTGGGGTCCCAGAGAACAAGAAAGACTTCTCCTGTCTGATTACCTGAGAGGAGAGAGCTTAGCCATGCATCTTTACGAGACTACTCCTCGGAGGTATTCTCCAATGTCCTTCAGCCAAAGACTAAAAGTTGCAGTTGAAGTGGCTCAGTGTCTTCTCTACCTTCATGATAGAGCAATGCCACACGGGAACTTGAAGCCAACTAACATAATCCTCTCAAGTCCTGACAATACCGTGCGAATAACTGATTACTGTGTTCACCGTTTGATGACTCCATCTGGTGTAGCGGAACAGATACTAAACATGAGTGCACTCGGTTACTCTGCTCCTGAACTTTCCTCGGCTTCCAAACCGATACCAACACTCAAATCCGATGTCTATGCGTTTGGTGTGATTCTCATGGAGCTTTTGACTAGACGGAGCGCAGGTGACATAATCTCAGGTCAAACAGGAGCCGTTGATCTGACCGATTGGGTGAGGTTGTGTGATCAAGAAGGAAGGAGAATGGATTGCATAGACAGAGACATAGCAGGTGGGGAAGAGTTCTCAAAGGGAATGGAGGATGCACTTGCTGTTGCAATCAGGTGCATTCTCTCTGTCAATGAAAGGCCTAACATCAGACAAGTTCTTGATCATCTTACTTCAATTTCTGCCTGAGATTTGTTTGTTTTTTTATCTCTTCTAAATTTTTCTGTAAATCTCCATGGATTTCCTTTCACACATCATCCCATTTTTTCTTCTTCTTTTCTGGTTTTATGTTTCTCTCTAGTAGTTTGATCAGATGATTCAGAATGATCCTCAGGTGTTCTTACATTTATTTTTTGTTGATTATTTTTCCCCTTCCTTGTAAAGGTAGAAGAAAATCTAATCCCATTGATTCTGACAGAAACATTTGTGTTTGCTTATTGATTCTTTTTTTTATAAATTGTTTTTTTTATCTCTTTTCGACT
CDS Sequence
Protein Sequence