Literature summary extracted from

Xiao, S.; Scott, F.; Fierke, C.A.; Engelke, D.R.
Eukaryotic ribonuclease P: a plurality of ribonucleoprotein enzymes (2002), Annu. Rev. Biochem., 71, 165-189.

Activating Compound

EC Number	Activating Compound	Comment	Organism	Structure
3.1.26.5	additional information	enzyme requires low salt levels	Bacillus subtilis
3.1.26.5	additional information	enzyme requires very high salt levels	Methanothermobacter thermautotrophicus

Protein Variants

EC Number	Protein Variants	Comment	Organism
3.1.26.5	additional information	complete deletion of the protein subunit is lethal, mutation of P3 loop causes defects in pre-tRNA processing and enzyme RPR1 RNA maturation as well as subunit interaction in vivo	Saccharomyces cerevisiae
3.1.26.5	additional information	mutagenesis of the CR-IV region of the enzyme RPR1 RNA results in large reduction of kcat with little effect on Km	Bacillus subtilis
3.1.26.5	additional information	mutagenesis of the CR-IV region of the enzyme RPR1 RNA results in large reduction of kcat with little effect on Km	Escherichia coli

Inhibitors

EC Number	Inhibitors	Comment	Organism	Structure
3.1.26.5	additional information	substitution of the pro-Rp nonbridging oxygen with sulfur at the scissile bond does not inhibit the enzyme	Spinacia oleracea

KM Value [mM]

EC Number	KM Value [mM]	KM Value Maximum [mM]	Substrate	Comment	Organism
3.1.26.5	additional information	-	additional information	kinetics	Saccharomyces cerevisiae
3.1.26.5	additional information	-	additional information	kinetics, the rate constant for the scissile bond cleavage is pH-dependent	Bacillus subtilis
3.1.26.5	0.000009	-	pre-tRNATyr	-	Saccharomyces cerevisiae
3.1.26.5	0.000016	-	pre-tRNA	-	Spinacia oleracea

Localization

EC Number	Localization	Comment	Organism	GeneOntology No.	Textmining
3.1.26.5	chloroplast	-	Cyanophora paradoxa	9507	-
3.1.26.5	chloroplast	-	Spinacia oleracea	9507	-
3.1.26.5	chloroplast	-	Nicotiana tabacum	9507	-
3.1.26.5	mitochondrion	-	Cyanophora paradoxa	5739	-
3.1.26.5	mitochondrion	RNases P and MRP	Homo sapiens	5739	-
3.1.26.5	mitochondrion	RNases P and MRP, enzyme consists of RNA component Rpm1r and protein component Rpm2p, the latter is required for the processing of the first	Saccharomyces cerevisiae	5739	-
3.1.26.5	nucleolus	RNase MRP	Homo sapiens	5730	-
3.1.26.5	nucleolus	RNase MRP	Saccharomyces cerevisiae	5730	-
3.1.26.5	nucleus	-	Cyanophora paradoxa	5634	-
3.1.26.5	nucleus	RNase P	Homo sapiens	5634	-
3.1.26.5	nucleus	RNase P	Saccharomyces cerevisiae	5634	-

Metals/Ions

EC Number	Metals/Ions	Comment	Organism
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Cyanophora paradoxa
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Bacillus subtilis
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Escherichia coli
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Homo sapiens
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Saccharomyces cerevisiae
3.1.26.5	Mg2+	preferred metal ion, absolutely required	Methanothermobacter thermautotrophicus
3.1.26.5	additional information	divalent metal ions are important cofactors for the catalytic reaction and for substrate binding at the conserved loops CR-II and CR-III in proximity to the substrate aminoacyl stem	Escherichia coli
3.1.26.5	additional information	divalent metal ions are important cofactors for the catalytic reaction and for substrate binding at the conserved loops CR-II and CR-III in proximity to the substrate aminoacyl stem, enhancement of substrate affinity by 1000fold	Bacillus subtilis
3.1.26.5	additional information	divalent metal ions are important cofactors for the reaction	Cyanophora paradoxa
3.1.26.5	additional information	divalent metal ions are important cofactors for the reaction	Homo sapiens
3.1.26.5	additional information	divalent metal ions are important cofactors for the reaction	Saccharomyces cerevisiae
3.1.26.5	additional information	divalent metal ions are important cofactors for the reaction	Methanothermobacter thermautotrophicus

Molecular Weight [Da]

EC Number	Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
3.1.26.5	15500	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	15800	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	16300	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	18200	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	19600	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	22500	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	22600	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	32200	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	32900	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	100500	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	112000	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	120000	-	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.
3.1.26.5	additional information	Homo sapiens	coordination of RNA pathways, overview	?	-	?
3.1.26.5	additional information	Saccharomyces cerevisiae	coordination of RNA pathways, overview	?	-	?
3.1.26.5	pre-rRNA + H2O	Homo sapiens	enzyme RNase MRP plays an important role in pre-rRNA processing	mature rRNA	-	?
3.1.26.5	pre-rRNA + H2O	Saccharomyces cerevisiae	enzyme RNase MRP plays an important role in pre-rRNA processing	mature rRNA	-	?
3.1.26.5	tRNA precursor + H2O	Cyanophora paradoxa	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Bacillus subtilis	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Escherichia coli	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Homo sapiens	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Saccharomyces cerevisiae	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Methanothermobacter thermautotrophicus	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Spinacia oleracea	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	Nicotiana tabacum	essential enzymes in the biogenesis of tRNA, maturation	mature tRNA + 5'-oligonucleotide	-	?

Organism

EC Number	Organism	UniProt	Comment	Textmining
3.1.26.5	Bacillus subtilis	-	-	-
3.1.26.5	Cyanophora paradoxa	-	-	-
3.1.26.5	Escherichia coli	-	-	-
3.1.26.5	Homo sapiens	-	-	-
3.1.26.5	Methanothermobacter thermautotrophicus	-	-	-
3.1.26.5	Nicotiana tabacum	-	-	-
3.1.26.5	Saccharomyces cerevisiae	-	-	-
3.1.26.5	Spinacia oleracea	-	-	-

Posttranslational Modification

EC Number	Posttranslational Modification	Comment	Organism
3.1.26.5	no ribonucleoprotein	-	Spinacia oleracea
3.1.26.5	ribonucleoprotein	-	Cyanophora paradoxa
3.1.26.5	ribonucleoprotein	-	Bacillus subtilis
3.1.26.5	ribonucleoprotein	-	Escherichia coli
3.1.26.5	ribonucleoprotein	-	Homo sapiens
3.1.26.5	ribonucleoprotein	-	Saccharomyces cerevisiae
3.1.26.5	ribonucleoprotein	-	Methanothermobacter thermautotrophicus
3.1.26.5	ribonucleoprotein	-	Nicotiana tabacum

Purification (Commentary)

EC Number	Purification (Comment)	Organism
3.1.26.5	-	Methanothermobacter thermautotrophicus
3.1.26.5	mitochondrial enzyme, and RNase P partially	Homo sapiens
3.1.26.5	nuclear enzyme	Saccharomyces cerevisiae

Reaction

EC Number	Reaction	Comment	Organism	Reaction ID
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism	Cyanophora paradoxa	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism	Homo sapiens	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism	Methanothermobacter thermautotrophicus	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism	Spinacia oleracea	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism	Nicotiana tabacum	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism, CR-IV region is imporatnt for tRNA binding	Bacillus subtilis	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism, CR-IV region is important for tRNA binding	Escherichia coli	a
3.1.26.5	endonucleolytic cleavage of RNA, removing 5'-extranucleotides from tRNA precursor	an RNA-containing enzyme, essential for tRNA processing, generates 5'-termini or mature tRNA molecules, tRNA precursor substrate recognition and cleavage mechanism, structure-function relationship of the RNA subunit	Saccharomyces cerevisiae	a

Source Tissue

EC Number	Source Tissue	Comment	Organism	Textmining
3.1.26.5	HeLa cell	-	Homo sapiens	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
3.1.26.5	deproteinized pre-rRNA + H2O	large number of discrete cleavage sites	Saccharomyces cerevisiae	mature deproteinized rRNA + 5'-oligonucleotide	-	?
3.1.26.5	additional information	coordination of RNA pathways, overview	Homo sapiens	?	-	?
3.1.26.5	additional information	coordination of RNA pathways, overview	Saccharomyces cerevisiae	?	-	?
3.1.26.5	additional information	the recombinant holoenzyme and the Rpp20p subunit display ATPase activity	Homo sapiens	?	-	?
3.1.26.5	pre-rRNA + H2O	enzyme RNase MRP plays an important role in pre-rRNA processing	Homo sapiens	mature rRNA	-	?
3.1.26.5	pre-rRNA + H2O	enzyme RNase MRP plays an important role in pre-rRNA processing	Saccharomyces cerevisiae	mature rRNA	-	?
3.1.26.5	pre-rRNA + H2O	RNase MRP	Saccharomyces cerevisiae	mature rRNA	-	?
3.1.26.5	pre-rRNA + H2O	RNase MRP	Homo sapiens	mature rRNA + 5'-oligonucleotide	-	?
3.1.26.5	pre-tRNA + H2O	-	Spinacia oleracea	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Cyanophora paradoxa	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Bacillus subtilis	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Escherichia coli	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Homo sapiens	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Saccharomyces cerevisiae	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Methanothermobacter thermautotrophicus	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Spinacia oleracea	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	essential enzymes in the biogenesis of tRNA, maturation	Nicotiana tabacum	mature tRNA + 5'-oligonucleotide	-	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Cyanophora paradoxa	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Bacillus subtilis	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Escherichia coli	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Homo sapiens	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Saccharomyces cerevisiae	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Methanothermobacter thermautotrophicus	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Spinacia oleracea	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Nicotiana tabacum	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
3.1.26.5	tRNATyr precursor + H2O	cleavage of 5'-terminal oligonucleotide	Saccharomyces cerevisiae	mature tRNATyr + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?

Subunits

EC Number	Subunits	Comment	Organism
3.1.26.5	decamer	1 * 120000, RNA subunit, + 1 * 100500, protein subunit Pop1p, + 1 * 22600, protein subunit Pop3p, 1 * 32900, protein subunit Pop4p, + 1 * 19600, protein subunit Pop5p, + 1 * 18200, protein subunit Pop6p, + 1 * 15800, protein subunit Pop7p, + 1 * 15500, protein subunit Pop8p, + 1 * 32200, protein subunit Rpp1p, + 1 * 16300, protein subunit Rpr2p, or 1 * 112000, RNA subunit NME1, + 1 * 22500, protein subunit SNM1	Saccharomyces cerevisiae
3.1.26.5	More	subunit composition, 1 essential RNA subunit	Cyanophora paradoxa
3.1.26.5	More	subunit composition, 1 large RNA subunit plus 1 small protein subunit contributing to about 10% of the mass of the holoenzyme	Bacillus subtilis
3.1.26.5	More	subunit composition, 1 large RNA subunit plus 1 small protein subunit contributing to about 10% of the mass of the holoenzyme	Escherichia coli
3.1.26.5	More	subunit composition, at least 4 protein subunits namely MTH11, MTH687, MTH688, and MTH1618	Methanothermobacter thermautotrophicus
3.1.26.5	More	subunit interactions, subunit composition for RNase P: 1 RNA subunit RPM1 plus at least 1 protein subunit Rpm2p for the mitochondrial ribozyme, 9 protein components for the nuclear enzyme form, namely Pop1p, Pop3p-Pop8p, Rpp1p, and Rpr2p, secondary structure of nuclear enzyme RNA, subunit composition for RNase MRP: 1 RNA subunit NME1 plus 9 protein components for the nuclear enzyme form, namely Pop1p, Pop3p-Pop7p, Pop, Rpp1p, and SNM1, overview, Pop7p is also known as Rpp2p, structure-function relationship of the RNA subunit	Saccharomyces cerevisiae
3.1.26.5	oligomer	subunit composition and interaction, 1 essential RNA subunit, i.e. H1 for RNase P or 7-2 for RNase MRP, plus 9 protein components namely Pop1p, Rpp29p, Rpp20p, Rpp30p, Rep38p, Rpp40p, Rpp25p, and Rpp14p for RNase P, or pls 4 protein components namely Pop1p, Rpp29p, Rpp20p, and Rpp30p for RNase MRP, overview	Homo sapiens

Synonyms

EC Number	Synonyms	Comment	Organism
3.1.26.5	RNase MRP	-	Homo sapiens
3.1.26.5	RNase MRP	-	Saccharomyces cerevisiae
3.1.26.5	RNase P	-	Cyanophora paradoxa
3.1.26.5	RNase P	-	Bacillus subtilis
3.1.26.5	RNase P	-	Escherichia coli
3.1.26.5	RNase P	-	Homo sapiens
3.1.26.5	RNase P	-	Saccharomyces cerevisiae
3.1.26.5	RNase P	-	Methanothermobacter thermautotrophicus
3.1.26.5	RNase P	-	Spinacia oleracea
3.1.26.5	RNase P	-	Nicotiana tabacum

Turnover Number [1/s]

EC Number	Turnover Number Minimum [1/s]	Turnover Number Maximum [1/s]	Substrate	Comment	Organism	Structure
3.1.26.5	1.3	-	pre-tRNATyr	-	Saccharomyces cerevisiae
3.1.26.5	6	-	tRNA precursor	enzyme RNA moiety, pH 7.0	Bacillus subtilis

pI Value

EC Number	Organism	Comment	pI Value Maximum	pI Value
3.1.26.5	Saccharomyces cerevisiae	protein subunits Pop1p, Pop3p, Pop4p, Pop6p, Pop7p, Rpp1p, and Rpr2p	4.7	4.6
3.1.26.5	Saccharomyces cerevisiae	protein subunit Pop8p	-	4.9
3.1.26.5	Saccharomyces cerevisiae	protein subunit Pop5p	-	6.9