EC Number |
Natural Substrates |
---|
3.1.26.5 | 10Sa RNA + H2O |
- |
3.1.26.5 | 4.55 rRNA precursor + H2O |
- |
3.1.26.5 | 4.5S RNA precursor + H2O |
RNA processing |
3.1.26.5 | C4 antisense RNA + H2O |
from bacteriophages P1 and P7 |
3.1.26.5 | more |
biosynthesis and regulation of RNase P, transient interactions with several proteins in the cell, the protein subunits are conserved between RNase P and RNase MRP, and are essential for cell viability and enzyme function, overview, enzyme subunits in nucleolus and Cajal bodies might be involved in cell mitosis and cell-cycle-dependent gene transcription |
3.1.26.5 | more |
coordination of RNA pathways, overview |
3.1.26.5 | more |
other pre-RNAs are also physiological substrates of the enzyme |
3.1.26.5 | more |
phylogenetic study of archeal enzymes |
3.1.26.5 | more |
regulation of gene expression can be achieved by creating a complex made of target mRNA and a complementary small oligonucleotide that resembels natural enzyme substrate |
3.1.26.5 | more |
substrate specificity is determined by the enzymes' RNA fold, the structure of the specificity domain of the RNA subunit provides the basis of understanding the structurs of other bacterial ribozyme molecules because all bacterial S domains havea common core that comprises stems P7-P11 plus J11/12-J12/11 module, overview |