Information report for AT5G19990
Gene Details
|
|
Functional Descriptions
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Functional Keywords
Literature and News
- Structural and functional analysis of the six regulatory particle triple-A ATPase subunits from the Arabidopsis 26S proteasome. DOI: 10.1046/j.1365-313x.1999.00479.x ; PMID: 10417703
- Structure and functional analysis of the 26S proteasome subunits from plants. DOI: 10.1023/a:1006926322501 ; PMID: 10363660
- Subunit interaction maps for the regulatory particle of the 26S proteasome and the COP9 signalosome. DOI: 10.1093/emboj/20.24.7096 ; PMID: 11742986
- A subcomplex of the proteasome regulatory particle required for ubiquitin-conjugate degradation and related to the COP9-signalosome and eIF3. DOI: 10.1016/s0092-8674(00)81603-7 ; PMID: 9741626
- 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
- Affinity purification of the Arabidopsis 26 S proteasome reveals a diverse array of plant proteolytic complexes. DOI: 10.1074/jbc.M110.136622 ; PMID: 20516081
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Structure, function and regulation of plant proteasomes. DOI: 10.1016/j.biochi.2007.07.019 ; PMID: 17825468
- Structure and functional analysis of the 26S proteasome subunits from plants. DOI: 10.1023/a:1006926322501 ; PMID: 10363660
- A subcomplex of the proteasome regulatory particle required for ubiquitin-conjugate degradation and related to the COP9-signalosome and eIF3. DOI: 10.1016/s0092-8674(00)81603-7 ; PMID: 9741626
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Gene Resources
- UniProt: A0A1P8BCJ5
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BCJ5
- EnsemblPlants: AT5G19990.2
- Gramene: AT5G19990.2
- Orthologous matrix: REPAVIF
- ExpressionAtlas: AT5G19990
- InterPro: IPR003593, IPR003959, IPR003960
- PANTHER: PTHR23073
- SUPFAM: SSF52540
- PROSITE: PS00674
- Gene3D: 1.10.8.60, 2.40.50.140, 3.40.50.300
- OrthoDB: A0A1P8BCJ5
- SWISS-MODEL: A0A1P8BCJ5
- Conserved Domain Database: cd19502
Sequences
cDNA Sequence
- >AT5G19990.2
GTTAAGACAAGCAAAAAGTAAAATAAAAATATTTCTATTGTTGAGTTAATTTCCTTTTTATTAATTTAGGTGATATCATATAATGCTTCGCGTGAGGGTTTCTGAGATTCTGATCGACGAAAACTAATCTCTCTCCTTTTTCTTCTCATCTCCTTACTAGAGATCTCTGTCTTCGATAATTTGTTTCAATCACTGAGAAAATGGCGGCCGTAGGAGTAGATTCGAGGCGTCCTGAGACAGCGATGGAGGAAACCTGTAACGTGAAAGGAGCGGCGGCGAAACAAGGGGAAGGGCTTAAGCAGTACTATCTCCAGCACATCCATGAGCTCCAGCGCCAGCTTCGACAGAAGACTAATAACCTCAATCGCCTTGAAGCTCAAAGGAATGAACTCAATTCTCGAGGTCTCTTCTTCCTTCTCTTACCCTAATTCTCTGCAAAATTGGATCTTTTTTATCATCTCCTTGTGTTTCGTAATCTCAGATTCTGTGCTAGGGCTTTCGATTTCGTTCCAATTGGAGCTGAGTGATTTCAAATTTCAAAATTGTTGTGGTGATTTAGTGTTTCCGATCTGGAAGTGATTAGTCTTGATTTTAGCAACATTAACTTGTTTAGATTTCTAGATTCTGTCTTCTTGTTGGTTCTTTTGCAAAGTATGTGGCTTTTTTCAGGAAAGCCTAGTTATTTCTTCACTATCTTCATTGAGGAATATATACTTTTGGAAGGAGCCCATATAGTCCTTTCCACTATACCATGATTTTAGTTACACATTTAAAGTTATAGAACAGCTTCTGTTGTCATCATGATCACCATCCTATTTATGCATGAAGTGAGAATGCTCAGAGAAGAGTTACAGCTCCTTCAAGAACCTGGGTCCTATGTGGGAGAAGTGGTAAAAGTTATGGGAAAGAACAAGGTCTTGGTTAAGGTTCATCCAGAGGGGAAGTATGTTGTTGATATTGACAAAAGTATAGACATTACGAAAATCACTCCATCAACGAGAGTTGCTCTTCGTAATGATAGCTATGTTCTCCACCTGGTTCTGCCAAGTAAAGTAGATCCCTTGGTTAACCTTATGAAAGTTGAGAAGGTTCCAGACTCCACCTATGACATGATTGGTGGTCTTGACCAGCAGATTAAGGAAATAAAGGAGGTCATTGAGCTGCCAATCAAGCATCCTGAATTGTTTGAGTCTCTTGGAATTGCGCAGCCAAAGGGTGTGTTGTTATACGGTCCACCTGGAACTGGGAAGACACTATTGGCTCGGGCTGTTGCACATCACACTGACTGTACTTTCATAAGAGTTTCTGGTTCCGAGCTTGTCCAGAAATACATTGGAGAAGGTTCTAGAATGGTCAGAGAACTTTTTGTGATGGCAAGGGAGCATGCACCATCAATCATCTTCATGGATGAAATCGATAGTATTGGGTCTGCTCGTATGGAATCTGGAAGTGGAAATGGTGACAGTGAGGTGCAACGGACCATGCTCGAGCTTCTCAATCAACTTGACGGTTTTGAAGCGTCAAACAAAATCAAGGTTTTGATGGCTACAAATCGTATTGATATTCTGGATCAAGCTCTTCTCAGGCCTGGAAGAATTGATAGGAAAATTGAATTTCCTAATCCTAATGAAGAGTCACGTTTTGACATCTTGAAGATTCACTCGAGGAAAATGAATTTGATGCGTGGAATCGATCTGAAAAAGATTGCAGAGAAGATGAATGGCGCTTCAGGTGCTGAGCTGAAGGCTGTGTGCACGGAGGCGGGAATGTTTGCTCTGCGTGAGAGGAGAGTACACGTGACACAAGAAGACTTTGAGATGGCGGTGGCCAAGGTAATGAAGAAAGACACGGAGAAGAACATGTCTCTGCGTAAGCTGTGGAAGTAGGAATCTCTCATGGAAAGACTTTCTTTACTTTACTGTTTGTTGTTTGATTCTGAAACCTTTTTTCGGTTGTCTCATGAAAACATTTTAGAACAAAGTTTTTACTATCTAGACACGAGTTTATCTAGTATGCGATTTGAGGTCAATGGAAGGAAATTCCCAAAACTCAAGAACCTGAGCTTATAAGACCAAAACAAGCAGAACCTTCACATGTTAAGAGTTCTTCTGTCCGAAACTGTCATATTCCATTAGAGAGAAAAAGCCTATAATGTAAATGTTATGATAATTTATTTCAATTACAAATTTTACGCACGAATTTGGTTTATTCGGTATGGTTTAGCTCGG - >AT5G19990.3
GTTAAGACAAGCAAAAAGTAAAATAAAAATATTTCTATTGTTGAGTTAATTTCCTTTTTATTAATTTAGGTGATATCATATAATGCTTCGCGTGAGGGTTTCTGAGATTCTGATCGACGAAAACTAATCTCTCTCCTTTTTCTTCTCATCTCCTTACTAGAGATCTCTGTCTTCGATAATTTGTTTCAATCACTGAGAAAATGGCGGCCGTAGGAGTAGATTCGAGGCGTCCTGAGACAGCGATGGAGGAAACCTGTAACGTGAAAGGAGCGGCGGCGAAACAAGGGGAAGGGCTTAAGCAGTACTATCTCCAGCACATCCATGAGCTCCAGCGCCAGCTTCGACAGAAGACTAATAACCTCAATCGCCTTGAAGCTCAAAGGAATGAACTCAATTCTCGAGGTCTCTTCTTCCTTCTCTTACCCTAATTCTCTGCAAAATTGGATCTTTTTTATCATCTCCTTGTGTTTCGTAATCTCAGATTCTGTGCTAGGGCTTTCGATTTCGTTCCAATTGGAGCTGAGTGATTTCAAATTTCAAAATTGTTGTGGTGATTTAGTGTTTCCGATCTGGAAGTGATTAGTCTTGATTTTAGCAACATTAACTTGTTTAGATTTCTAGATTCTGTCTTCTTGTTGGTTCTTTTGCAAAGTATGTGGCTTTTTTCAGGAAAGCCTAGTTATTTCTTCACTATCTTCATTGAGGAATATATACTTTTGGAAGGAGCCCATATAGTCCTTTCCACTATACCATGATTTTAGTTACACATTTAAAGTTATAGAACAGCTTCTGTTGTCATCATGATCACCATCCTATTTATGCATGAAGTGAGAATGCTCAGAGAAGAGTTACAGCTCCTTCAAGAACCTGGGTCCTATGTGGGAGAAGTGGTAAAAGTTATGGGAAAGAACAAGGTCTTGGTTAAGGTTCATCCAGAGGGGAAGTATGTTGTTGATATTGACAAAAGTATAGACATTACGAAAATCACTCCATCAACGAGAGTTGCTCTTCGTAATGATAGCTATGTTCTCCACCTGGTTCTGCCAAGTAAAGTAGATCCCTTGGTTAACCTTATGAAAGTTGAGAAGGTTCCAGACTCCACCTATGACATGATTGGTGGTCTTGACCAGCAGATTAAGGAAATAAAGGAGGTCATTGAGCTGCCAATCAAGCATCCTGAATTGTTTGAGTCTCTTGGAATTGCGCAGCCAAAGGGTGTGTTGTTATACGGTCCACCTGGAACTGGGAAGACACTATTGGCTCGGGCTGTTGCACATCACACTGACTGTACTTTCATAAGAGTTTCTGGTTCCGAGCTTGTCCAGAAATACATTGGAGAAGGTTCTAGAATGGTCAGAGAACTTTTTGTGATGGCAAGGGAGCATGCACCATCAATCATCTTCATGGATGAAATCGATAGTATTGGGTCTGCTCGTATGGAATCTGGAAGTGGAAATGGTGACAGTGAGGTGCAACGGACCATGCTCGAGCTTCTCAATCAACTTGACGGTTTTGAAGCGTCAAACAAAATCAAGGTTTTGATGGCTACAAATCGTATTGATATTCTGGATCAAGCTCTTCTCAGGCCTGGAAGAATTGATAGGAAAATTGAATTTCCTAATCCTAATGAAGAGTCACGTTTTGACATCTTGAAGATTCACTCGAGGAAAATGAATTTGATGCGTGGAATCGATCTGAAAAAGATTGCAGAGAAGATGAATGGCGCTTCAGGTGCTGAGCTGAAGGCTGTGTGCACGGAGGCGGGAATGTTTGCTCTGCGTGAGAGGAGAGTACACGTGACACAAGAAGACTTTGAGATGGCGGTGGCCAAGGTAATGAAGAAAGACACGGAGAAGAACATGTCTCTGCGTAAGCTGTGGAAGTAGGAATCTCTCATGGAAAGACTTTCTTTACTTTACTGTTTGTTGTTTGATTCTGAAACCTTTTTTCGGTTGTCTCATGAAAACATTTTAGAACAAAGTTTTTACTATCTAGACACGAGTTTATCTAGTATGCGATTTGAGGTCAATGGAAGGAAATTCCCAAAACTCAAGAACCTGAGCTTATAAGACCAAAACAAGCAGAACCTTCACATGTTAAGAGTTCTTCTGTCCGAAACTGTCATATTCCATTAGAGAGAAAAAGCCTATAATGTAAATGTTATGATAATTTATTTCAATTACAAATTTTACGCACGAATTTGGTTTATTCGGTATGGTTTAGCTCGG - >AT5G19990.1
GTTAAGACAAGCAAAAAGTAAAATAAAAATATTTCTATTGTTGAGTTAATTTCCTTTTTATTAATTTAGGTGATATCATATAATGCTTCGCGTGAGGGTTTCTGAGATTCTGATCGACGAAAACTAATCTCTCTCCTTTTTCTTCTCATCTCCTTACTAGAGATCTCTGTCTTCGATAATTTGTTTCAATCACTGAGAAAATGGCGGCCGTAGGAGTAGATTCGAGGCGTCCTGAGACAGCGATGGAGGAAACCTGTAACGTGAAAGGAGCGGCGGCGAAACAAGGGGAAGGGCTTAAGCAGTACTATCTCCAGCACATCCATGAGCTCCAGCGCCAGCTTCGACAGAAGACTAATAACCTCAATCGCCTTGAAGCTCAAAGGAATGAACTCAATTCTCGAGGTCTCTTCTTCCTTCTCTTACCCTAATTCTCTGCAAAATTGGATCTTTTTTATCATCTCCTTGTGTTTCGTAATCTCAGATTCTGTGCTAGGGCTTTCGATTTCGTTCCAATTGGAGCTGAGTGATTTCAAATTTCAAAATTGTTGTGGTGATTTAGTGTTTCCGATCTGGAAGTGATTAGTCTTGATTTTAGCAACATTAACTTGTTTAGATTTCTAGATTCTGTCTTCTTGTTGGTTCTTTTGCAAAGTATGTGGCTTTTTTCAGGAAAGCCTAGTTATTTCTTCACTATCTTCATTGAGGAATATATACTTTTGGAAGGAGCCCATATAGTCCTTTCCACTATACCATGATTTTAGTTACACATTTAAAGTTATAGAACAGCTTCTGTTGTCATCATGATCACCATCCTATTTATGCATGAAGTGAGAATGCTCAGAGAAGAGTTACAGCTCCTTCAAGAACCTGGGTCCTATGTGGGAGAAGTGGTAAAAGTTATGGGAAAGAACAAGGTCTTGGTTAAGGTTCATCCAGAGGGGAAGTATGTTGTTGATATTGACAAAAGTATAGACATTACGAAAATCACTCCATCAACGAGAGTTGCTCTTCGTAATGATAGCTATGTTCTCCACCTGGTTCTGCCAAGTAAAGTAGATCCCTTGGTTAACCTTATGAAAGTTGAGAAGGTTCCAGACTCCACCTATGACATGATTGGTGGTCTTGACCAGCAGATTAAGGAAATAAAGGAGGTCATTGAGCTGCCAATCAAGCATCCTGAATTGTTTGAGTCTCTTGGAATTGCGCAGCCAAAGGGTGTGTTGTTATACGGTCCACCTGGAACTGGGAAGACACTATTGGCTCGGGCTGTTGCACATCACACTGACTGTACTTTCATAAGAGTTTCTGGTTCCGAGCTTGTCCAGAAATACATTGGAGAAGGTTCTAGAATGGTCAGAGAACTTTTTGTGATGGCAAGGGAGCATGCACCATCAATCATCTTCATGGATGAAATCGATAGTATTGGGTCTGCTCGTATGGAATCTGGAAGTGGAAATGGTGACAGTGAGGTGCAACGGACCATGCTCGAGCTTCTCAATCAACTTGACGGTTTTGAAGCGTCAAACAAAATCAAGGTTTTGATGGCTACAAATCGTATTGATATTCTGGATCAAGCTCTTCTCAGGCCTGGAAGAATTGATAGGAAAATTGAATTTCCTAATCCTAATGAAGAGTCACGTTTTGACATCTTGAAGATTCACTCGAGGAAAATGAATTTGATGCGTGGAATCGATCTGAAAAAGATTGCAGAGAAGATGAATGGCGCTTCAGGTGCTGAGCTGAAGGCTGTGTGCACGGAGGCGGGAATGTTTGCTCTGCGTGAGAGGAGAGTACACGTGACACAAGAAGACTTTGAGATGGCGGTGGCCAAGGTAATGAAGAAAGACACGGAGAAGAACATGTCTCTGCGTAAGCTGTGGAAGTAGGAATCTCTCATGGAAAGACTTTCTTTACTTTACTGTTTGTTGTTTGATTCTGAAACCTTTTTTCGGTTGTCTCATGAAAACATTTTAGAACAAAGTTTTTACTATCTAGACACGAGTTTATCTAGTATGCGATTTGAGGTCAATGGAAGGAAATTCCCAAAACTCAAGAACCTGAGCTTATAAGACCAAAACAAGCAGAACCTTCACATGTTAAGAGTTCTTCTGTCCGAAACTGTCATATTCCATTAGAGAGAAAAAGCCTATAATGTAAATGTTATGATAATTTATTTCAATTACAAATTTTACGCACGAATTTGGTTTATTCGGTATGGTTTAGCTCGG
CDS Sequence
Protein Sequence