Literature summary for 3.1.26.5 extracted from

Jarrous, N.
Human ribonuclease P: subunits, function, and intranuclear localization (2002), RNA, 8, 1-7.

Search for more literature for 3.1.26.5

Cloned(Commentary)

Cloned (Comment)	Organism
chromosomal localization of genes encoding the RNase P subunits	Homo sapiens

Localization

Localization	Comment	Organism	GeneOntology No.	Textmining
Cajal body	contains protein subunits Rpp29 and Rpp38	Homo sapiens	15030	-
cytoplasm	RNA subunit H1	Homo sapiens	5737	-
mitochondrion	RNase P and RNase MRP	Homo sapiens	5739	-
mitochondrion	RNase P and RNase MRP	Saccharomyces cerevisiae	5739	-
nucleolus	RNase P, all subunits	Homo sapiens	5730	-
nucleus	nucleoplasm, RNase P, all subunits	Homo sapiens	5634	-
nucleus	RNase P	Saccharomyces cerevisiae	5634	-
perinuclear space	RNA subunit H1	Homo sapiens	-	-
ribosome	RNase MRP	Homo sapiens	5840	-
ribosome	RNase MRP	Saccharomyces cerevisiae	5840	-

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
14000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
20000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
21000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
25000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
29000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
30000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
38000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
40000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
105000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
115000	-	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
additional information	Homo sapiens	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	?	-	?
additional information	Saccharomyces cerevisiae	transient interactions with several proteins in the cell, e.g. protein subunit Rpp20 interacts with the heat shock protein Hsp27, protein subunit Rpp14 interacts with several proteins including the LIM domain protein 1 LIMD1 and the SR-rich HSPC232	?	-	?
tRNA precursor + H2O	Homo sapiens	tRNA processing	mature tRNA + 5'-oligonucleotide	-	?
tRNA precursor + H2O	Saccharomyces cerevisiae	tRNA processing, the premature substrate is associated with a complex of 7 Sm-like proteins, i.e. Lsm2-8, and U6 snRNA	mature tRNA + 5'-oligonucleotide	-	?

Organism

Organism	UniProt	Comment	Textmining
Homo sapiens	-	-	-
Saccharomyces cerevisiae	-	-	-

Purification (Commentary)

Purification (Comment)	Organism
RNase P from nucleus	Saccharomyces cerevisiae

Source Tissue

Source Tissue	Comment	Organism	Textmining
HeLa cell	-	Homo sapiens	-

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
additional information	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	Homo sapiens	?	-	?
additional information	transient interactions with several proteins in the cell, e.g. protein subunit Rpp20 interacts with the heat shock protein Hsp27, protein subunit Rpp14 interacts with several proteins including the LIM domain protein 1 LIMD1 and the SR-rich HSPC232	Saccharomyces cerevisiae	?	-	?
additional information	protein subunit Rpp20 also acts as an ATPase, protein subunits Rpp14, Rpp21, and Rpp29 are responsible for pre-tRNA substrate binding	Homo sapiens	?	-	?
tRNA precursor + H2O	tRNA processing	Homo sapiens	mature tRNA + 5'-oligonucleotide	-	?
tRNA precursor + H2O	tRNA processing, the premature substrate is associated with a complex of 7 Sm-like proteins, i.e. Lsm2-8, and U6 snRNA	Saccharomyces cerevisiae	mature tRNA + 5'-oligonucleotide	-	?
tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Homo sapiens	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?
tRNA precursor + H2O	cleavage of 5'-terminal oligonucleotide	Saccharomyces cerevisiae	mature tRNA + 5'-oligonucleotide	generates 5'-phosphate,3'-hydroxyl-product	?

Subunits

Subunits	Comment	Organism
More	modeling of RNase P holoenzyme assembly, both the mitochondrial and nuclear enzyme complexes are composed of at least 10 protein subunits and 1 RNA subunit H1, overview	Homo sapiens
oligomer	1 * 115000, protein subunit Pop1, + 1 * 40000, protein subunit Rpp40, + 1 * 38000, protein subunit Rpp38, + 1 * 30000, protein subunit Rpp30 or Rpp1, + 1 * 29000, protein subunit Rpp29 or Pop4, + 1 * 25000, protein subunit Rpp25, + 1 * 21000, protein subunit Rpp21 or Rpr2, + 1 * 20000, protein subunit Rpp20 or Pop7 or Rpp2, + 1 * 14000, protein subunit Rpp14, + 1 * 105000, RNA subunit H1	Homo sapiens
oligomer	the nuclear RNase P complex has 1 RNA subunit and 9 distinct protein subunits essential for cell viability and tRNA processing, RNase MRP contains 8 protein subunit and 1 RNA subunit	Saccharomyces cerevisiae

Synonyms

Synonyms	Comment	Organism
nuclear ribonclease P ribonucleoprotein	-	Homo sapiens
nuclear ribonclease P ribonucleoprotein	-	Saccharomyces cerevisiae
ribosomal RNA processing ribonucleoprotein	-	Homo sapiens
ribosomal RNA processing ribonucleoprotein	-	Saccharomyces cerevisiae
RNase MRP	-	Homo sapiens
RNase MRP	-	Saccharomyces cerevisiae
RNase P	-	Homo sapiens
RNase P	-	Saccharomyces cerevisiae

pI Value

Organism	Comment	pI Value Maximum	pI Value
Homo sapiens	protein subunit Rpp20	4.7	4.6
Homo sapiens	protein subunit Rpp30	4.7	4.6
Homo sapiens	protein subunit Rpp40	-	4.9
Homo sapiens	protein subunit Rpp25	-	5.5
Homo sapiens	protein subunit Rpp29	-	5.5
Homo sapiens	protein subunits Pop1, Rpp21 and Rpp38	-	5.5
Homo sapiens	protein subunit Pop5	-	6.9
Homo sapiens	protein subunit Rpp14	-	6.9

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Release 2023.1 (January 2023)