Gene Details:
- Gene ID: AT5G24540
- Gene Symbol: BGLU31
- Gene Name: beta glucosidase 31
- Description: beta glucosidase 31;(source:Araport11)
- TAIR Accession: locus:2153934
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0009651 — involved in — response to salt stress
- GO:0102483 — enables — scopolin beta-glucosidase activity
- GO:0019762 — involved in — glucosinolate catabolic process
- GO:0004553 — enables — hydrolase activity, hydrolyzing O-glycosyl compounds
- GO:0008422 — enables — beta-glucosidase activity
- GO:0009507 — located in — chloroplast
- GO:0051707 — acts upstream of or within — response to other organism
- GO:0005975 — involved in — carbohydrate metabolic process
Literature:
- Salicylic acid-independent ENHANCED DISEASE SUSCEPTIBILITY1 signaling in Arabidopsis immunity and cell death is regulated by the monooxygenase FMO1 and the Nudix hydrolase NUDT7. DOI: 10.1105/tpc.105.039982 ; PMID: 16531493
- Dissecting salt stress pathways. DOI: 10.1093/jxb/erj098 ; PMID: 16510518
- Functional genomic analysis of Arabidopsis thaliana glycoside hydrolase family 1. DOI: 10.1007/s11103-004-0790-1 ; PMID: 15604686
- Salicylic acid-independent ENHANCED DISEASE SUSCEPTIBILITY1 signaling in Arabidopsis immunity and cell death is regulated by the monooxygenase FMO1 and the Nudix hydrolase NUDT7. DOI: 10.1105/tpc.105.039982 ; PMID: 16531493
Sequence:
cDNA Sequence
- >AT5G24540.1 ATGGCAATTAAGCTCATTGCACTAGTAATCACACTATGTGTAGCATCATGGGATGTTGCACAGGGCAGATCTTTAAGATTTTCTACAACTCCTCTAAATCGTTATAGCTTCCCTCCTCATTTTGATTTTGGTGTTGCCTCTTCCGCTTATCAGTATGAAGGTGCAGTAGAAGAAGGAGGGAGGAGTCTAAGCATATGGGACAATTTCACACATGCATTTCCAGAAAGGACGAACATGGACAATGGAGATGTTGCCGTTGATTTTTACCATCGTTATAAGGAAGACATCAAACTAATAAAGGAAATGAATATGGATAGTTTCAGATTTTCCCTGTCCTGGTCAAGAATATTACCAAGTGGAAAACTAAGTGATGGGGTCAATAAAGAAGGTGTTCAATTCTACAAGAATCTTATTGATGAACTTATCGAGAACGGTATCAAACCTTTTGTAACAATTTATCACTGGGATATCCCTCAAGCTCTTGATGATGAGTATGGTAGCTTTTTAAGTCCTCGAATCATAGATGATTTTCGAAACTATGCCAGATTTTGTTTCCAAGAGTTTGGGGACAAGGTCAGTATGTGGACAACTTTCAACGAGCCATATGTTTATAGCGTTTCGGGTTATGATGCGGGTAATAAGGCAATGGGTCGATGTTCTAAATGGGTAAACAGTTTATGTATCGCCGGTGACTCGGGCACGGAGCCTTATTTAGTCTCCCACCACCTTCTTCTCGCTCACGCTGCTGCTGTTGAAGAGTTCAGGAAATGTGACAAGATTTCGCAAGATTCCAAGATAGGCATAGTGTTGTCTCCTTATTGGTTCGAGCCATATGACAGTGCTTCTAATGCTGATAAAGAAGCAGTTGAAAGGGCTCTTGCTTTCAATATTGGTTGGCATCTCAGCCCTCTAGTTTTCGGAGACTATCCAGAGACGATAAAGATAAGCGCTGGAAATAGACTGCCATCTTTTACCAAAGAGCAATCTATGATGGTTAAAAATTCGTTTGATTTTATCGGTGTAAATTACTACACTGCACGGTTTGTTGCTCACGATCTTAACGTCGATATTTCACGGCCTCGCTTCATGACCGACCAACACCTCCAATACAAATTGACAAATCGTACCGGCGACACCATCTCATTGGAATCGGATGGTACCAAAATTCTCTGGTCATATCCGGAAGGGTTACGAAAGATTCTTAATTATATCAAAAATAAGTACAACAATCCAACTATCTACATAACTGAAAACGGTTTCGATGACTACGAAAATGGAACGGTGACACGTGAAGAGATACTAGAAGACACAAAGAGAATAGAGTACCACCAAAAACATCTTCAAGAACTCCAGAAAGCGATCACTGAGGATGGGTGTGACGTGAAAGGCTACTTCACATGGTCGTTATTGGATAATTTTGAATGGGAACATGGATATGCAGTGAGATTTGGTTTGTACTACGTTGACTATAAAAATGGTCTTCAACGACATGCTAAACATTCAGCTATGTGGTTCAAACATTTTCTTGAGAGATCCGGAAAGCCAATGCCGATGGATCTGTTTAAGAGTGTCAAGAGATGGTGGTCTACATTACAGATGATTTAAGCTCGCTCGGAGGAAGATAAAATTCAATTATTAAAAGTAACTTATTCTTTATATAGTTATTGGTAACTTATGGGATAAATGTTTGTTGATATTGAGATATATTTGTATATTGTTAAGTTTTCTAATTTCTTCCTAAAGGTTTTTGTGACATCATTCTTGTATCTATAGTTTGGTCTTTTCATGTATAAAAATCAT
- >AT5G24540.2 ATGGCAATTAAGCTCATTGCACTAGTAATCACACTATGTGTAGCATCATGGGATGTTGCACAGGGCAGATCTTTAAGATTTTCTACAACTCCTCTAAATCGTTATAGCTTCCCTCCTCATTTTGATTTTGGTGTTGCCTCTTCCGCTTATCAGTATGAAGGTGCAGTAGAAGAAGGAGGGAGGAGTCTAAGCATATGGGACAATTTCACACATGCATTTCCAGAAAGGACGAACATGGACAATGGAGATGTTGCCGTTGATTTTTACCATCGTTATAAGGAAGACATCAAACTAATAAAGGAAATGAATATGGATAGTTTCAGATTTTCCCTGTCCTGGTCAAGAATATTACCAAGTGGAAAACTAAGTGATGGGGTCAATAAAGAAGGTGTTCAATTCTACAAGAATCTTATTGATGAACTTATCGAGAACGGTATCAAACCTTTTGTAACAATTTATCACTGGGATATCCCTCAAGCTCTTGATGATGAGTATGGTAGCTTTTTAAGTCCTCGAATCATAGATGATTTTCGAAACTATGCCAGATTTTGTTTCCAAGAGTTTGGGGACAAGGTCAGTATGTGGACAACTTTCAACGAGCCATATGTTTATAGCGTTTCGGGTTATGATGCGGGTAATAAGGCAATGGGTCGATGTTCTAAATGGGTAAACAGTTTATGTATCGCCGGTGACTCGGGCACGGAGCCTTATTTAGTCTCCCACCACCTTCTTCTCGCTCACGCTGCTGCTGTTGAAGAGTTCAGGAAATGTGACAAGATTTCGCAAGATTCCAAGATAGGCATAGTGTTGTCTCCTTATTGGTTCGAGCCATATGACAGTGCTTCTAATGCTGATAAAGAAGCAGTTGAAAGGGCTCTTGCTTTCAATATTGGTTGGCATCTCAGCCCTCTAGTTTTCGGAGACTATCCAGAGACGATAAAGATAAGCGCTGGAAATAGACTGCCATCTTTTACCAAAGAGCAATCTATGATGGTTAAAAATTCGTTTGATTTTATCGGTGTAAATTACTACACTGCACGGTTTGTTGCTCACGATCTTAACGTCGATATTTCACGGCCTCGCTTCATGACCGACCAACACCTCCAATACAAATTGACAAATCGTACCGGCGACACCATCTCATTGGAATCGGATGGTACCAAAATTCTCTGGTCATATCCGGAAGGGTTACGAAAGATTCTTAATTATATCAAAAATAAGTACAACAATCCAACTATCTACATAACTGAAAACGGTTTCGATGACTACGAAAATGGAACGGTGACACGTGAAGAGATACTAGAAGACACAAAGAGAATAGAGTACCACCAAAAACATCTTCAAGAACTCCAGAAAGCGATCACTGAGGATGGGTGTGACGTGAAAGGCTACTTCACATGGTCGTTATTGGATAATTTTGAATGGGAACATGGATATGCAGTGAGATTTGGTTTGTACTACGTTGACTATAAAAATGGTCTTCAACGACATGCTAAACATTCAGCTATGTGGTTCAAACATTTTCTTGAGAGATCCGGAAAGCCAATGCCGATGGATCTGTTTAAGAGTGTCAAGAGATGGTGGTCTACATTACAGATGATTTAAGCTCGCTCGGAGGAAGATAAAATTCAATTATTAAAAGTAACTTATTCTTTATATAGTTATTGGTAACTTATGGGATAAATGTTTGTTGATATTGAGATATATTTGTATATTGTTAAGTTTTCTAATTTCTTCCTAAAGGTTTTTGTGACATCATTCTTGTATCTATAGTTTGGTCTTTTCATGTATAAAAATCAT
CDS Sequence
Protein Sequence