3.1.26.8	5S precursor rRNA + H2O	-	Bacillus subtilis	mature 5S rRNA	-	?	370828	
3.1.26.8	5S precursor rRNA + H2O	-	Geobacillus stearothermophilus	mature 5S rRNA	-	?	370828	
3.1.26.8	5S precursor rRNA + H2O	enzyme is responsible for maturation of 5S rRNA	Bacillus subtilis	mature 5S rRNA	-	?	370828	
3.1.26.8	5S precursor rRNA + H2O	in contrast to the Escherichia coli enzyme, the Bacillus subtilis enzyme cleaves the 5S rRNA in a double-stranded region that extends from the L5 arm in one step	Bacillus subtilis	mature 5S rRNA	-	?	370828	
3.1.26.8	5S precursor rRNA + H2O	5S rRNA maturation	Geobacillus stearothermophilus	mature 5S rRNA	-	?	370828	
3.1.26.8	5S rRNA precursor + H2O	-	Bacillus sp. (in: Bacteria)	mature 5S rRNA + oligonucleotides	-	?	93123	
3.1.26.8	5S rRNA precursor + H2O	the enzyme cleaves 21 and 42 nucleotides respectively from the 5'-terminus and the 3'-terminus to yield the mature 116 nucleotide 5S rRNA	Bacillus subtilis	mature 5S rRNA + oligonucleotides	the enzyme cleaves 21 and 42 nucleotides respectively from the 5'-terminus and the 3'-terminus to yield the mature 116 nucleotide 5S rRNA	?	93123	
3.1.26.8	5S rRNA precursor + H2O	symmetrically arranged sequences are not used in the RNase M5 interaction	Bacillus subtilis	mature 5S rRNA + oligonucleotides	-	?	93123	
3.1.26.8	5S rRNA precursor + H2O	electrostatic interactions contribute about 65% to the overall binding energy	Bacillus subtilis	mature 5S rRNA + oligonucleotides	-	?	93123	
3.1.26.8	5S rRNA precursor + H2O	recognition elements in potential RNase M5 substrates mainly reside in the mature moiety of the precursor. The enzyme recognizes the overall conformation of potential substrates	Bacillus subtilis	mature 5S rRNA + oligonucleotides	-	?	93123