Information report for AT5G10470
Gene Details
|
|
Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- GO:0009524 — located in — phragmoplast
- GO:0005515 — enables — protein binding
- GO:0009941 — located in — chloroplast envelope
- GO:0009504 — located in — cell plate
- GO:0005829 — located in — cytosol
- GO:0005622 — located in — intracellular anatomical structure
- GO:0009904 — acts upstream of or within — chloroplast accumulation movement
- GO:0008017 — enables — microtubule binding
- GO:0009903 — acts upstream of or within — chloroplast avoidance movement
- GO:0007018 — involved in — microtubule-based movement
- GO:0009904 — involved in — chloroplast accumulation movement
- GO:0005886 — located in — plasma membrane
- GO:0009903 — involved in — chloroplast avoidance movement
- GO:0000913 — acts upstream of or within — preprophase band assembly
- GO:0005634 — located in — nucleus
- GO:0031022 — involved in — nuclear migration along microfilament
- GO:0003777 — enables — microtubule motor activity
- GO:0000911 — acts upstream of or within — cytokinesis by cell plate formation
- kac1-1 kac2-1 — Defective in chloroplast accumulation in response to low light and chloroplast relocation under high light.
Functional Keywords
Literature and News
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Comprehensive comparative analysis of kinesins in photosynthetic eukaryotes. DOI: 10.1186/1471-2164-7-18 ; PMID: 16448571
- Light-induced displacement of PLASTID MOVEMENT IMPAIRED1 precedes light-dependent chloroplast movements. DOI: 10.1093/plphys/kiac193 ; PMID: 35477788
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- 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
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- 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
Sequences
cDNA Sequence
- >AT5G10470.1
CCGCCTTTCATTATTTTGTATACCAAACCGAGGGAAAAATCCACAGAGATGAACCAAAAATAAAAACAAAAATCTTTGATTATTTCTACAAAAATAAAATTCGAAAACTTTTGAATTCTTTCATTTGGCTTTCGAAGCTGCTGCTTCAATTCTTGCTGCTTTGATTTGATTTTTTTTTTGGATGAAATGGCCGATCAGAGAAGTAAAACCAATAGATGGAACTGGGAGGTGAGTGGGTTCGAACCGAGGAAGTCTTCTTCCAATGCATCGTTTGCGGAGAGTACTGGTCACCGTACGACTGGTCCTCTGCTTCGCCGGAACTCGATTTCGACTCCCTCGCTTCCGCCTAAGCAAGCAATTGCATCTAAGGTTAACGGATTAAAGGAGAAAGTTAAGCTTGCGAAAGAAGATTACTTGGAGTTGAGACAAGAAGCTACTGATCTTCAGGAGTATTCTAATGCTAAGCTTGACAGGGTTACACGTTACTTAGGTGTTTTGGCTGAGAAAAGTCGTAAATTGGATCAGTTTGTCCTTGAGACTGAGGCTAGGATATCTCCACTTATCAATGAGAAGAAAAGACTGTTCAATGACTTGTTAACGGCCAAAGGGAACATAAAGGTATTTTGCCGTGCAAGGCCATTGTTTGAGGATGAAGGTCCCTCTGTTATAGAGTTCCCTGGGGATTGCACCATATGTGTAAACACTAGTGATGATACTCTGTCCAATCCCAAGAAGGACTTTGAATTTGACCGAGTTTACGGACCTCATGTTGGACAAGCTGCACTGTTTAGCGATGTCCAACCTTTTGTTCAATCTGCACTGGATGGATCTAACGTCTCCATATTGTCATATGGACAAACTAATGCAGGGAAGACATACACCATGGAAGGTTCGAATCACGATCGTGGTTTATATGCTCGATGTTTTGAGGAACTCTTCGACCTAGCCAATTCGGATTCAACTTCGACATCACGATTCAGTTTCTCTCTTTCAGTGTTTGAGATCTATAATGAACAGATCAGGGATCTACTTTCGGAAACTCAGAGCAACTTGCCCAATATCAACATGGATTTACATGAATCTGTTATAGAACTCGGACAGGAAAAAGTTGATAATCCATTGGAGTTCTTAGGAGTCTTAAAATCTGCATTTCTGAACCGGGGCAACTATAAATCAAAATTTAATGTGACACATCTGATTGTCTCAATACACATATACTATAGCAACACGATTACTGGAGAAAACATATATAGCAAGCTCTCTCTGGTTGACTTGGCTGGAAGTGAAGGTTTAATCATGGAAAATGATAGTGGAGACCACGTCACTGATCTGCTGCATGTCATGAATTCGATTTCAGCGTTGGGAGATGTTTTATCCTCGTTGACATCCGGAAAGGATTCAATTCCTTATGATAATTCAATTCTTACAAGAGTACTTGCAGATTCCCTAGGAGGAAGTTCCAAAACATTGATGATCGTTAACATCTGTCCAAGTGTGCAAACCTTGTCTGAGACAATCTCATGTCTCAATTATGCTGCTAGAGCTCGGAATACTGTACCAAGCCTTGGCAATCGAGATACAATCAAGAAATGGAGAGATGTGGCAAGTGATGCTCGGAAGGAGCTGTTGGAGAAGGAGAGAGAAAATCAGAATCTGAAACAAGAGGTTGTGGGCTTAAAAAAAGCTCTTAAAGATGCAAATGACCAGTGTGTATTACTCTACAGTGAAGTGCAGAGAGCGTGGAAAGTTTCATTTACATTGCAATCAGATTTAAAGTCAGAGAATATTATGCTTGTAGACAAACATAGACTAGAGAAGGAGCAGAATTCTCAGTTAAGGAATCAAATAGCTCAATTTTTACAGTTGGATCAGGAACAGAAGCTGCAAATGCAACAACAAGATTCCGCCATTCAAAATCTCCAGGCTAAAATTACAGACTTGGAATCACAAGTAAGTGAAGCCGTTAGATCTGACACAACAAGAACAGGAGATGCCTTGCAATCTCAGGACATATTTTCTCCAATACCAAAAGCGGTTGAGGGTACAACTGATTCTTCTTCTGTTACCAAGAAACTTGAGGAAGAATTGAAAAAACGTGATGCACTGATTGAGAGGTTGCATGAAGAAAACGAAAAGTTGTTTGACAGATTAACAGAAAGGTCAATGGCTGTTTCGACCCAGGTGTTGAGTCCCTCATTAAGAGCTTCGCCAAACATTCAGCCTGCCAATGTTAACAGGGGTGAAGGATATTCGGCAGAAGCCGTTGCTTTACCATCTACACCAAATAAGAATAACGGAGCGATTACGTTAGTAAAATCTGGCACTGATTTAGTAAAAACCACTCCAGCTGGAGAATACTTGACAGCTGCATTGAATGACTTTGACCCTGAAGAATATGAAGGTCTTGCTGCCATTGCTGACGGCGCAAACAAGCTACTAATGCTGGTTTTGGCAGCTGTCATCAAGGCTGGTGCTTCCAGAGAGCATGAAATCCTTGCTGAGATTAGAGATTCTGTCTTTTCATTTATTCGGAAAATGGAACCAAGAAGAGTAATGGATACCATGCTTGTTTCCCGAGTTAGGATACTATACATAAGGTCCTTACTGGCACGATCACCGGAGCTTCAGACTATCAGGGTCTCTCCTGTCGAGTGCTTTCTTGAGAAGCCTAATACTGGTAGAAGTAAAAGCACTAGCAGGGGTAGCAGCCCAGGTAGATCCCCTGTTCGATATCTTGATACGCAGATCCATGGCTTTAAAGTAAATATAAAGGCAGAAAGGAGAAACAAGTTGGCATCTGTGGTATCAAGAATGCGTGGACTTGAACAGGATGCTGGGAGGCAGCAAGTTACTGGAGTTAAGCTGCGGGAAATGCAAGATGAAGCCAAAAGTTTTGCTATTGGGAACAAAGCCTTGGCTGCGTTATTTGTTCACACTCCGGCTGGTGAACTGCAGCGACAGATTCGGCTATGGCTTGCAGAAAATTTTGAGTTTCTTTCCGTGACCTCAGATGATGTATCGGGAGGAAACGGTGGCCAACTAGAGCTTCTTTCCACAGCAATTATGGATGGTTGGATGGCTGGACTAGGGGCCGCTGTGCCACCTCATACAGATGCTCTCGGGCAGCTTCTGTCCGAGTATGCAAAACGTGTCTATACTTCTCAAATGCAGCACATGAAGGATATTGCTGGTACCTTGGCGGCAGAAGAGGCAGAAGATGCTGGTCAAGTGTCTAAGCTTCGATCAGCTCTTGAGTCCGTTGACCACAAAAGAAGAAAGATTTTACAACAAATGAAAAGTGATGCAGCTTTGCTTAACCTGGAAGAAGGCAGTTCTCCTATTCCAAACCCTTCGACGGCAGCTGAAGACTCAAGATTAGCATCTCTCATTTCTCTGGATGGCATTTTGAAGCAAGTCAAGGAAATCACAAGACAAGCCTCTGTCCATGTTTTGAGTAAAAGCAAGAAGAAAGCATTACTTGAGTCCCTTGATGAACTCACTGAGCGGATGCCTTCTCTTCTTGATATCGACCATCCATGCGCACAAAGAGAAATTGCTACAGCACACCAGTTGGTCGAGACGATTCCTGAACAAGAGGACACTAATATTCTGGAACAATCACACGACCGGAGACCCTCATTAGAATCAATATCCTCAGGTGAAACTGATGTATCTCAGTGGAACGTTTTGCAATTCAACACAGGCTCTTCAGCCCCATTCATCATAAAATGTGGAGGCAACAACAACTCAGAGCTCGTGATCAAGGCTGATGCACGCGTTCAAGAGCCCAAAGGAGGTGAAATTGTCAGAGTTGTCCCAAGACCTTCTGTGCTAGTAAACATGAGCTTAGAGGAAATGAAACAAATGTTTGTGCAATTACCCGAAGCTCTAAGTTTGCTGGCTTTAGCTAGAACAGCTGATGGCACAAGAGCTCGCTACTCTAGACTCTACAAAACTCTGGCCATGAAGGTTCCCTCTCTTAAGGACCTTGTTAGTGAACTGGAGTAA - >AT5G10470.2
CCGCCTTTCATTATTTTGTATACCAAACCGAGGGAAAAATCCACAGAGATGAACCAAAAATAAAAACAAAAATCTTTGATTATTTCTACAAAAATAAAATTCGAAAACTTTTGAATTCTTTCATTTGGCTTTCGAAGCTGCTGCTTCAATTCTTGCTGCTTTGATTTGATTTTTTTTTTGGATGAAATGGCCGATCAGAGAAGTAAAACCAATAGATGGAACTGGGAGGTGAGTGGGTTCGAACCGAGGAAGTCTTCTTCCAATGCATCGTTTGCGGAGAGTACTGGTCACCGTACGACTGGTCCTCTGCTTCGCCGGAACTCGATTTCGACTCCCTCGCTTCCGCCTAAGCAAGCAATTGCATCTAAGGTTAACGGATTAAAGGAGAAAGTTAAGCTTGCGAAAGAAGATTACTTGGAGTTGAGACAAGAAGCTACTGATCTTCAGGAGTATTCTAATGCTAAGCTTGACAGGGTTACACGTTACTTAGGTGTTTTGGCTGAGAAAAGTCGTAAATTGGATCAGTTTGTCCTTGAGACTGAGGCTAGGATATCTCCACTTATCAATGAGAAGAAAAGACTGTTCAATGACTTGTTAACGGCCAAAGGGAACATAAAGGTATTTTGCCGTGCAAGGCCATTGTTTGAGGATGAAGGTCCCTCTGTTATAGAGTTCCCTGGGGATTGCACCATATGTGTAAACACTAGTGATGATACTCTGTCCAATCCCAAGAAGGACTTTGAATTTGACCGAGTTTACGGACCTCATGTTGGACAAGCTGCACTGTTTAGCGATGTCCAACCTTTTGTTCAATCTGCACTGGATGGATCTAACGTCTCCATATTGTCATATGGACAAACTAATGCAGGGAAGACATACACCATGGAAGGTTCGAATCACGATCGTGGTTTATATGCTCGATGTTTTGAGGAACTCTTCGACCTAGCCAATTCGGATTCAACTTCGACATCACGATTCAGTTTCTCTCTTTCAGTGTTTGAGATCTATAATGAACAGATCAGGGATCTACTTTCGGAAACTCAGAGCAACTTGCCCAATATCAACATGGATTTACATGAATCTGTTATAGAACTCGGACAGGAAAAAGTTGATAATCCATTGGAGTTCTTAGGAGTCTTAAAATCTGCATTTCTGAACCGGGGCAACTATAAATCAAAATTTAATGTGACACATCTGATTGTCTCAATACACATATACTATAGCAACACGATTACTGGAGAAAACATATATAGCAAGCTCTCTCTGGTTGACTTGGCTGGAAGTGAAGGTTTAATCATGGAAAATGATAGTGGAGACCACGTCACTGATCTGCTGCATGTCATGAATTCGATTTCAGCGTTGGGAGATGTTTTATCCTCGTTGACATCCGGAAAGGATTCAATTCCTTATGATAATTCAATTCTTACAAGAGTACTTGCAGATTCCCTAGGAGGAAGTTCCAAAACATTGATGATCGTTAACATCTGTCCAAGTGTGCAAACCTTGTCTGAGACAATCTCATGTCTCAATTATGCTGCTAGAGCTCGGAATACTGTACCAAGCCTTGGCAATCGAGATACAATCAAGAAATGGAGAGATGTGGCAAGTGATGCTCGGAAGGAGCTGTTGGAGAAGGAGAGAGAAAATCAGAATCTGAAACAAGAGGTTGTGGGCTTAAAAAAAGCTCTTAAAGATGCAAATGACCAGTGTGTATTACTCTACAGTGAAGTGCAGAGAGCGTGGAAAGTTTCATTTACATTGCAATCAGATTTAAAGTCAGAGAATATTATGCTTGTAGACAAACATAGACTAGAGAAGGAGCAGAATTCTCAGTTAAGGAATCAAATAGCTCAATTTTTACAGTTGGATCAGGAACAGAAGCTGCAAATGCAACAACAAGATTCCGCCATTCAAAATCTCCAGGCTAAAATTACAGACTTGGAATCACAAGTAAGTGAAGCCGTTAGATCTGACACAACAAGAACAGGAGATGCCTTGCAATCTCAGGACATATTTTCTCCAATACCAAAAGCGGTTGAGGGTACAACTGATTCTTCTTCTGTTACCAAGAAACTTGAGGAAGAATTGAAAAAACGTGATGCACTGATTGAGAGGTTGCATGAAGAAAACGAAAAGTTGTTTGACAGATTAACAGAAAGGTCAATGGCTGTTTCGACCCAGGTGTTGAGTCCCTCATTAAGAGCTTCGCCAAACATTCAGCCTGCCAATGTTAACAGGGGTGAAGGATATTCGGCAGAAGCCGTTGCTTTACCATCTACACCAAATAAGAATAACGGAGCGATTACGTTAGTAAAATCTGGCACTGATTTAGTAAAAACCACTCCAGCTGGAGAATACTTGACAGCTGCATTGAATGACTTTGACCCTGAAGAATATGAAGGTCTTGCTGCCATTGCTGACGGCGCAAACAAGCTACTAATGCTGGTTTTGGCAGCTGTCATCAAGGCTGGTGCTTCCAGAGAGCATGAAATCCTTGCTGAGATTAGAGATTCTGTCTTTTCATTTATTCGGAAAATGGAACCAAGAAGAGTAATGGATACCATGCTTGTTTCCCGAGTTAGGATACTATACATAAGGTCCTTACTGGCACGATCACCGGAGCTTCAGACTATCAGGGTCTCTCCTGTCGAGTGCTTTCTTGAGAAGCCTAATACTGGTAGAAGTAAAAGCACTAGCAGGGGTAGCAGCCCAGGTAGATCCCCTGTTCGATATCTTGATACGCAGATCCATGGCTTTAAAGTAAATATAAAGGCAGAAAGGAGAAACAAGTTGGCATCTGTGGTATCAAGAATGCGTGGACTTGAACAGGATGCTGGGAGGCAGCAAGTTACTGGAGTTAAGCTGCGGGAAATGCAAGATGAAGCCAAAAGTTTTGCTATTGGGAACAAAGCCTTGGCTGCGTTATTTGTTCACACTCCGGCTGGTGAACTGCAGCGACAGATTCGGCTATGGCTTGCAGAAAATTTTGAGTTTCTTTCCGTGACCTCAGATGATGTATCGGGAGGAAACGGTGGCCAACTAGAGCTTCTTTCCACAGCAATTATGGATGGTTGGATGGCTGGACTAGGGGCCGCTGTGCCACCTCATACAGATGCTCTCGGGCAGCTTCTGTCCGAGTATGCAAAACGTGTCTATACTTCTCAAATGCAGCACATGAAGGATATTGCTGGTACCTTGGCGGCAGAAGAGGCAGAAGATGCTGGTCAAGTGTCTAAGCTTCGATCAGCTCTTGAGTCCGTTGACCACAAAAGAAGAAAGATTTTACAACAAATGAAAAGTGATGCAGCTTTGCTTAACCTGGAAGAAGGCAGTTCTCCTATTCCAAACCCTTCGACGGCAGCTGAAGACTCAAGATTAGCATCTCTCATTTCTCTGGATGGCATTTTGAAGCAAGTCAAGGAAATCACAAGACAAGCCTCTGTCCATGTTTTGAGTAAAAGCAAGAAGAAAGCATTACTTGAGTCCCTTGATGAACTCACTGAGCGGATGCCTTCTCTTCTTGATATCGACCATCCATGCGCACAAAGAGAAATTGCTACAGCACACCAGTTGGTCGAGACGATTCCTGAACAAGAGGACACTAATATTCTGGAACAATCACACGACCGGAGACCCTCATTAGAATCAATATCCTCAGGTGAAACTGATGTATCTCAGTGGAACGTTTTGCAATTCAACACAGGCTCTTCAGCCCCATTCATCATAAAATGTGGAGGCAACAACAACTCAGAGCTCGTGATCAAGGCTGATGCACGCGTTCAAGAGCCCAAAGGAGGTGAAATTGTCAGAGTTGTCCCAAGACCTTCTGTGCTAGTAAACATGAGCTTAGAGGAAATGAAACAAATGTTTGTGCAATTACCCGAAGCTCTAAGTTTGCTGGCTTTAGCTAGAACAGCTGATGGCACAAGAGCTCGCTACTCTAGACTCTACAAAACTCTGGCCATGAAGGTTCCCTCTCTTAAGGACCTTGTTAGTGAACTGGAGTAA
CDS Sequence
Protein Sequence