Gene Details:
- Gene ID: AT4G23560
- Gene Symbol: AtGH9B15, GH9B15
- Gene Name: glycosyl hydrolase 9B15, glycosyl hydrolase 9B15
- Description: glycosyl hydrolase 9B15;(source:Araport11)
- TAIR Accession: locus:2128394
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0008810 — enables — cellulase activity
- GO:0033993 — acts upstream of or within — response to lipid
- GO:0005576 — located in — extracellular region
- GO:0006082 — acts upstream of or within — organic acid metabolic process
Literature:
- Microarray and differential display identify genes involved in jasmonate-dependent anther development. DOI: 10.1023/a:1025045217859 ; PMID: 13677466
- 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
- Phylogenetic analysis of the plant endo-beta-1,4-glucanase gene family. DOI: 10.1007/s00239-003-2571-x ; PMID: 15170254
- Overexpression of AtCpNifS enhances selenium tolerance and accumulation in Arabidopsis. DOI: 10.1104/pp.105.068684 ; PMID: 16244144
- Analyses of synteny between Arabidopsis thaliana and species in the Asteraceae reveal a complex network of small syntenic segments and major chromosomal rearrangements. DOI: 10.1534/genetics.105.049205 ; PMID: 16783026
- Structural organization and a standardized nomenclature for plant endo-1,4-beta-glucanases (cellulases) of glycosyl hydrolase family 9. DOI: 10.1104/pp.107.102574 ; PMID: 17687051
- Three SRA-domain methylcytosine-binding proteins cooperate to maintain global CpG methylation and epigenetic silencing in Arabidopsis. DOI: 10.1371/journal.pgen.1000156 ; PMID: 18704160
- Identification and Characterization of Arabidopsis Seed Coat Mucilage Proteins. DOI: 10.1104/pp.16.01600 ; PMID: 28003327
Sequences:
cDNA Sequence
- >AT4G23560.1
GCAAAATCAAGAAACTCTCAAAACCCATTTCAAAAGAGAAACACTTCTTTAAAAAGTTTTATTAATAAATAATGGGAAAGCTCTTGGTGTTAATGTTAGTTGGGATGTTCTTGGCTTTTGAAAGCTTGGAAGCTCTTGAATATGGAGATGCACTTAACAAGTCAATCTTGTTCTTTGAAGGCCAACGATCCGGTAAACTCCCGACTAACCAACGAGTTAAATGGCGAGCCGATTCTGCCCTCTCTGATGGTTCACTTGCTAATGTGAATTTAATTGGAGGATATTACGATGCTGGTGACAATGTAAAATTTGTGTGGCCAATGTCATTTACCACAACCTTGTTAAGTTGGGCTGCAATTGAATACCAAAATGAGATTTCTTCCGTTAACCAGCTCGGTTATCTCCGGTCTACTATCAAATGGGGAACCGATTTCATCCTACGCGCTCATACATCTCCCAACATGCTATATACCCAGGTGGGAGATGGTAATTCAGATCATAGTTGTTGGGAGAGGCCAGAAGATATGGACACATCAAGAACTCTCTACAGTATCTCTTCCTCTTCCCCTGGTTCTGAAGCCGCGGGTGAAGCCGCAGCCGCTCTTGCAGCGGCCTCACTTGTTTTCAAATCGGTCGATTCTACTTATTCATCCACACTATTAAACCATGCAAAAACCCTATTTGAATTTGCTGATAAGTACAGAGGTTCTTATCAAGCATCTTGCCCTTTCTACTGCTCCTACTCCGGCTACCAGGATGAATTATTATGGGCTGCGGCTTGGCTATATAAAGCAACAGGAGATAAAATTTACATAAATTATGTTATAAGCAATAAAGATTGGAGCCAAGCCGTTAATGAATTCAGTTGGGACAACAAATTCGTCGGCGCTCAAGCTTTACTCGTATCGGAGTTTTACAACGGGGCAAATGACTTGGCAAAATTTAAGTCCGATGTTGAATCCTTCGTCTGTGCAATGATGCCAGGAAGTAGCTCTCAACAAATTAAACCAACTCCTGGTGGCCTTTTGTTTATTAGAGACAGTAGCAACTTACAATATGTAACAACGGCTACAACTGTTTTGTTCCATTACTCAAAAACTCTTACCAAAGCCGGGGTTGGTTCAATCCAGTGCGGTTCGACCAAGTTCACCGTATCTCAAATTCGAAATTTTGCCAAATCACAGGTTGATTATATCCTTGGAAATAATCCAATGAAAATGTCTTACATGGTCGGATTTGGGACAAAGTATCCAACACAACCTCATCATAGAGGCTCATCTTTACCATCGATCCAATCTAAACCGGAGAAAATTGACTGTAATGGAGGATATTCATACTACAATTCTGATACACCAAACCCGAATGTGCATATTGGTGCAATTGTGGGCGGACCGAATTCATCCGATCAGTATAGCGACAAAAAATCAGATTACTCTCATGCTGAGCCCACAACTTACATCAACGCCGCCTTTATTGGACCTGTTGCAGCTCTAATCAGTTCTTCCGGATAAACTCACGTTTAGATTGGTTGTGGGGAAACAAATATTAGCAAAGAAGAATCATTACTCATCAACAAACTATTATGACTACAAACTTAAATAATTAGTCAGGGGATGTATCGTTTGCTTTAAACATATATCTCTATATAGATGTATATACCTACACACATACACACACTCACATATATATCATTGAATCGTATATCTTAGCTAAAATGAAAACTATTTAATTACAGATGTCTATATAGGTTTTCTTATATCATTGTATTGTATAGATTTTTTATGATACATTATATATAGTTCATTCTTATTTACTATATGTTTTCACGTTAGACACTTCACTTCTTGTGGATTGTCTTCTTACCAATTTGTATAACAAGAAAATCCGAATTATATTGGTTAAGGCTTAAGTTGGAAACAAGACGAAAATTACGACGCTCTAATCTCCAGAGACTAGACATAAATATACATTTTCCTCAATGGCTAAAACTATAATATAATTTTGAATATATATATATATATATATAT
CDS Sequence
Protein Sequence