Literature summary extracted from

Howard, M.J.; Liu, X.; Lim, W.H.; Klemm, B.P.; Fierke, C.A.; Koutmos, M.; Engelke, D.R.
RNase P enzymes: divergent scaffolds for a conserved biological reaction (2013), RNA Biol., 10, 909-914.

Crystallization (Commentary)

EC Number	Crystallization (Comment)	Organism
3.1.26.5	crystal structure analysis of PRORP enzyme in complex with tRNA	Ostreococcus tauri
3.1.26.5	crystal structure analysis of PRORP enzyme in complex with tRNA	Arabidopsis thaliana
3.1.26.5	crystal structure analysis of RNase P enzyme in complex with tRNA, PDB ID 3Q1R	Thermotoga maritima

Protein Variants

EC Number	Protein Variants	Comment	Organism
3.1.26.5	additional information	Trypanosoma brucei proteinaceous enzyme PRORP1 can substitute for yeast nuclear RNase P in vivo	Saccharomyces cerevisiae

KM Value [mM]

EC Number	KM Value [mM]	KM Value Maximum [mM]	Substrate	Comment	Organism
3.1.26.5	additional information	-	additional information	kinetics	Bacillus subtilis
3.1.26.5	additional information	-	additional information	kinetics	Saccharomyces cerevisiae
3.1.26.5	additional information	-	additional information	kinetics	Arabidopsis thaliana

Localization

EC Number	Localization	Comment	Organism	GeneOntology No.	Textmining
3.1.26.5	chloroplast	-	Ostreococcus tauri	9507	-
3.1.26.5	chloroplast	PRORP1	Arabidopsis thaliana	9507	-
3.1.26.5	mitochondrion	-	Ostreococcus tauri	5739	-
3.1.26.5	mitochondrion	PRORP1	Arabidopsis thaliana	5739	-
3.1.26.5	mitochondrion	isozyme PRORP2	Trypanosoma brucei	5739	-
3.1.26.5	additional information	in plants, the localization of PRORP1 in chloroplast and mitochondria differs from PRORP2 and 3 in the nucleus	Arabidopsis thaliana	-	-
3.1.26.5	additional information	the chloroplast and mitochondrial genomes of Ostreococcus tauri encode distinct individual RNase P RNA genes and the nucleus encodes both a bacterial-like RNase P protein component, and a proteinaceous RNase P enzyme	Ostreococcus tauri	-	-
3.1.26.5	nucleus	-	Homo sapiens	5634	-
3.1.26.5	nucleus	-	Saccharomyces cerevisiae	5634	-
3.1.26.5	nucleus	-	Ostreococcus tauri	5634	-
3.1.26.5	nucleus	isozyme PRORP1	Trypanosoma brucei	5634	-

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.
3.1.26.5	additional information	Bacillus subtilis	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Homo sapiens	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Saccharomyces cerevisiae	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Thermotoga maritima	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Ostreococcus tauri	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Arabidopsis thaliana	the natural substrate is precursor tRNA	?	-	?
3.1.26.5	additional information	Trypanosoma brucei	the natural substrate is precursor tRNA. Proteinaceous PRORP1 catalyzes all of the other noncanonical, yet vital functions of nuclear yeast RNase P, which may include processing of non-canonical RNAs	?	-	?

Organism

EC Number	Organism	UniProt	Comment	Textmining
3.1.26.5	Arabidopsis thaliana	Q66GI4	-	-
3.1.26.5	Bacillus subtilis	-	-	-
3.1.26.5	Homo sapiens	-	-	-
3.1.26.5	Ostreococcus tauri	-	-	-
3.1.26.5	Saccharomyces cerevisiae	-	-	-
3.1.26.5	Thermotoga maritima	-	-	-
3.1.26.5	Trypanosoma brucei	-	-	-

Posttranslational Modification

EC Number	Posttranslational Modification	Comment	Organism
3.1.26.5	no ribonucleoprotein	-	Arabidopsis thaliana
3.1.26.5	no ribonucleoprotein	PRORP1 and 2	Trypanosoma brucei
3.1.26.5	no ribonucleoprotein	proteinaceous RNase P and chloroplast and mitochondrial enzymes, overview	Ostreococcus tauri
3.1.26.5	ribonucleoprotein	bacterial RNase Ps consist of one RNA and one protein	Bacillus subtilis
3.1.26.5	ribonucleoprotein	bacterial RNase Ps consist of one RNA and one protein	Thermotoga maritima
3.1.26.5	ribonucleoprotein	bacterial-like RNase P and chloroplast and mitochondrial enzymes, overview	Ostreococcus tauri
3.1.26.5	ribonucleoprotein	most eukaryal nuclear RNase Ps are RNP based, which contain one RNA and at least nine proteins	Homo sapiens
3.1.26.5	ribonucleoprotein	most eukaryal nuclear RNase Ps are RNP based, which contain one RNA and at least nine proteins	Saccharomyces cerevisiae

Source Tissue

EC Number	Source Tissue	Comment	Organism	Textmining
3.1.26.5	leaf	-	Arabidopsis thaliana	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
3.1.26.5	additional information	the natural substrate is precursor tRNA	Bacillus subtilis	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA	Homo sapiens	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA	Saccharomyces cerevisiae	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA	Thermotoga maritima	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA	Ostreococcus tauri	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA	Arabidopsis thaliana	?	-	?
3.1.26.5	additional information	the natural substrate is precursor tRNA. Proteinaceous PRORP1 catalyzes all of the other noncanonical, yet vital functions of nuclear yeast RNase P, which may include processing of non-canonical RNAs	Trypanosoma brucei	?	-	?
3.1.26.5	additional information	the enzyme PRORP1 cleaves pre-tRNAs substrates lacking an anticodon arm, the recognition mechanism involves the D-TpsiC loops in tRNA, overview. It is also active on Thermus thermophilus pre-tRNAGly	Arabidopsis thaliana	?	-	?
3.1.26.5	additional information	the enzyme PRORP1 cleaves pre-tRNAs substrates lacking an anticodon arm,n recognition mechanism involves the D-TpsiC loops in tRNA, overview	Thermotoga maritima	?	-	?

Synonyms

EC Number	Synonyms	Comment	Organism
3.1.26.5	PRORP	-	Ostreococcus tauri
3.1.26.5	PRORP	-	Arabidopsis thaliana
3.1.26.5	PRORP1	-	Trypanosoma brucei
3.1.26.5	PRORP1	-	Arabidopsis thaliana
3.1.26.5	PRORP2	-	Trypanosoma brucei
3.1.26.5	proteinaceous RNase P	-	Trypanosoma brucei
3.1.26.5	proteinaceous RNase P	-	Ostreococcus tauri
3.1.26.5	proteinaceous RNase P	-	Arabidopsis thaliana
3.1.26.5	RNase P	-	Bacillus subtilis
3.1.26.5	RNase P	-	Homo sapiens
3.1.26.5	RNase P	-	Saccharomyces cerevisiae
3.1.26.5	RNase P	-	Trypanosoma brucei
3.1.26.5	RNase P	-	Thermotoga maritima
3.1.26.5	RNase P	-	Ostreococcus tauri
3.1.26.5	RNase P	-	Arabidopsis thaliana

Temperature Optimum [°C]

EC Number	Temperature Optimum [°C]	Temperature Optimum Maximum [°C]	Comment	Organism
3.1.26.5	37	-	assay at	Bacillus subtilis
3.1.26.5	37	-	assay at	Saccharomyces cerevisiae
3.1.26.5	37	-	assay at	Arabidopsis thaliana

pH Optimum

EC Number	pH Optimum Minimum	pH Optimum Maximum	Comment	Organism
3.1.26.5	7.8	8	assay at	Bacillus subtilis
3.1.26.5	7.8	8	assay at	Saccharomyces cerevisiae
3.1.26.5	7.8	8	assay at	Arabidopsis thaliana

General Information

EC Number	General Information	Comment	Organism
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview	Bacillus subtilis
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview	Homo sapiens
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview	Saccharomyces cerevisiae
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview	Thermotoga maritima
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview	Arabidopsis thaliana
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview. The chloroplast and mitochondrial genomes of Ostreococcus tauri encode distinct individual RNase P RNA genes and the nucleus encodes both a bacterial-like RNase P protein component, and a proteinaceous RNase P enzyme	Ostreococcus tauri
3.1.26.5	evolution	the enzyme is conserved in all domains of life. The composition of RNase P varies from bacteria to archaea and eukarya, evolutionary enzyme spread, overview. The protozoan Trypanosoma brucei harbors 2 PRORP isoforms, both of which have 5' pre-tRNA processing activity in vitro. One isoform (PRORP1) localizes to the nucleus and the second (PRORP2) to the mitochondrion	Trypanosoma brucei
3.1.26.5	additional information	Arabidopsis thaliana contains a protein only form of RNase P, modeling of PRORP-tRNA interaction	Arabidopsis thaliana
3.1.26.5	additional information	modeling of RNP-based RNase P	Bacillus subtilis
3.1.26.5	additional information	modeling of RNP-based RNase P	Homo sapiens
3.1.26.5	additional information	modeling of RNP-based RNase P	Saccharomyces cerevisiae
3.1.26.5	additional information	modeling of RNP-based RNase P	Trypanosoma brucei
3.1.26.5	additional information	modeling of RNP-based RNase P	Thermotoga maritima
3.1.26.5	additional information	the organellar RNase P RNAs are expressed in vivo, however under in vitro conditions, catalysis of pre-tRNA cleavage is not observed even when associated with the nuclear encoded bacterial-like protein. Modeling of PRORP-tRNA interaction and RNP-based RNase P	Ostreococcus tauri
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Bacillus subtilis
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Homo sapiens
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Saccharomyces cerevisiae
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Thermotoga maritima
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Ostreococcus tauri
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs	Arabidopsis thaliana
3.1.26.5	physiological function	the enzyme catalyzes the maturation of the 5' end of precursor-tRNAs. Trypanosoma brucei proteinaceous enzyme PRORP1 can substitute for yeast nuclear RNase P in vivo. Proteinaceous PRORP1 catalyzes all of the other noncanonical, yet vital functions of nuclear yeast RNase P, which may include processing of non-canonical RNAs	Trypanosoma brucei