EC Number |
General Information |
Reference |
---|
4.2.1.104 | evolution |
an ancient gene transfer occurred before the diversification within the Tetranychidae family |
729829 |
4.2.1.104 | evolution |
genomic and transcriptomic analysis, phyloegentic analysis, the cyanase gene originates from a single horizontal gene transfer event, which precedes subsequent speciation, comparison of prokaryotic cyanases to eukaryotic cyanase from Tetranychus urticae, which all form homodecamers and have conserved active site residues, but display different surface areas between homodimers in the overall decameric structure |
748012 |
4.2.1.104 | evolution |
phylogenetic relationship of Nitrososphaera gargensis cyanase with the Nitrospira cyanases, overview |
748761 |
4.2.1.104 | evolution |
while Nitrososphaera gargensis is the only ammonia-oxidizing microbe with a sequenced genome in which a cyanase is present that is likely acquired from a Nitrospira strain via lateral gene transfer, all nitrite-oxidizers for which a genome sequence is available contain a gene annotated as cyanase. Phylogenetic relationship of Nitrososphaera gargensis cyanase with the Nitrospira cyanases, overview |
-, 748761 |
4.2.1.104 | malfunction |
cyanate treatment inhibits germination and early seedling growth of Cyn knockout mutant plants, while wild-type plants show resistance to cyanate stress |
-, 716700 |
4.2.1.104 | more |
ammonia release assay, pigment contents, and total carbohydrate measurements of transgenic Arabidopsis thaliana plants expressing the enzyme, overview. Transgenic Arabidopsis thaliana plants expressing the enzyme are exposed to cyanate, either applied by foliar spray or supplemented in growth medium, and show less reduction in pigment contents, antioxidant enzymes, carbohydrate contents, and reduced levels of plant growth retardation. Plant growth assays under cyanate stress show enhanced growth and biomass accumulation in cyanase overexpressors compared to control plants |
-, 747661 |
4.2.1.104 | more |
glycerol molecules bound at the entry to the active site of the enzyme during crystallization indicate conserved residues that might be important for the trafficking of substrates and products. The enzyme binds specifically to DNA |
-, 746656 |
4.2.1.104 | more |
the enzyme binds specifically to DNA |
748012 |
4.2.1.104 | more |
transcriptional regulation of cynS expression, overview |
-, 713844 |
4.2.1.104 | physiological function |
cyanase catalyzes the detoxification of cyanate |
748012 |