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additional information
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not a ribonucleoprotein, but a protein enzyme
no ribonucleoprotein
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no ribonucleoprotein
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proteinaceous RNase P and chloroplast and mitochondrial enzymes, overview
no ribonucleoprotein
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PRORP1 and 2
ribonucleoprotein
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in bacteria, the enzyme is a ribonucleoprotein composed of two essential subunits: a catalytic RNA subunit and a single small protein cofactor, P protein, secondary structure and tertiary interactions, overview. The RNA subunit of bacterial RNase P is an efficient catalyst in vitro in the absence of its single protein cofactor, while the protein cofactor is essential for RNase P function in vivo, affecting the structure, function, and kinetics of the holoenzyme under physiological salt conditions
ribonucleoprotein
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cleaves mitochondrial precursor tRNAHis resulting in an 8-bp acceptor stem
ribonucleoprotein
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the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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the M1 RNA component is essential for the function of the enzyme
ribonucleoprotein
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generation and characterization of circular Bacillus subtilis RNase P RNA. Activation by RNase P protein
ribonucleoprotein
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the active site resides within the RNA moiety. The protein has a role in electrostatic shielding and aids in an essential conformational change
ribonucleoprotein
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the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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the RNA moiety can cleave tRNA precursor molecules in buffer containing either 60 mM Mg2+ or 10 mM Mg2+ plus 1 mM spermidine. Under these conditions the protein moiety of the enzymes alone shows no catalytic activity
ribonucleoprotein
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type B enzyme is a ribonucleoprotein and contains a single protein subunit
ribonucleoprotein
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bacterial RNase Ps consist of one RNA and one protein
ribonucleoprotein
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ribonuclease P is composed of a catalytically active RNA (PRNA) and a small protein (P protein) subunit
ribonucleoprotein
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the enzyme is a ribonucleoprotein composed of two essential subunits: a catalytic RNA subunit (P RNA, 350-400 nt) and a single small protein cofactor, P protein, secondary structure and tertiary interactions, overview. The RNA subunit of bacterial RNase P is an efficient catalyst in vitro in the absence of its single protein cofactor, while the protein cofactor is essential for RNase P function in vivo, affecting the structure, function, and kinetics of the holoenzyme under physiological salt conditions
ribonucleoprotein
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the enzyme is composed of a catalytic RNA (PRNA) and a protein subunit (P protein)
ribonucleoprotein
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requires a RNA component
ribonucleoprotein
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the RNA subunit is approximately 400 nucleotides long and makes a precise endonucleolytic cleavage at the mature 5'-terminus of tRNA
ribonucleoprotein
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RNA structural analysis
ribonucleoprotein
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the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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enzyme is a ribonucleoprotein with a large protein part and 1 RNA subunit
ribonucleoprotein
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the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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the M1 RNA component is essential for the function of the enzyme
ribonucleoprotein
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the catalytic activity resides in the RNA component, the protein cofactor affects the rate of the cleavage reaction
ribonucleoprotein
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the active site resides within the RNA moiety. The protein has a role in electrostatic shielding and aids in an essential conformational change
ribonucleoprotein
-
the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
-
the RNA moiety can cleave tRNA precursor molecules in buffer containing either 60 mM Mg2+ or 10 mM Mg2+ plus 1 mM spermidine. Under these conditions the protein moiety of the enzymes alone shows no catalytic activity
ribonucleoprotein
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regions required for the interaction of M1 RNA with C5 protein are localized primarily between nucleotide 82 to 96 and 170 to 270 of M1 RNA
ribonucleoprotein
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type A enzyme is a ribonucleoprotein and contains a single protein subunit
ribonucleoprotein
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composed of a catalytic RNA component and an associated protein moiety
ribonucleoprotein
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the enzyme is a ribonlucleoprotein, the RNAsubunit, termed P RNA, contains the active site, whereas the smaller protein subunit is required for optimal molecular recognition and catalysis in vitro and is essential in vivo
ribonucleoprotein
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the enzyme is a ribonucleoprotein composed of two essential subunits: a catalytic RNA subunit (P RNA, 350-400 nt) and a single small protein cofactor, P protein, secondary structure and tertiary interactions, overview. The RNA subunit of bacterial RNase P is an efficient catalyst in vitro in the absence of its single protein cofactor, while the protein cofactor is essential for RNase P function in vivo, affecting the structure, function, and kinetics of the holoenzyme under physiological salt conditions
ribonucleoprotein
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the enzyme is a ribonucleoprotein consisting of one protein and one RNA subunit, referred to as C5 and RNase P RNA, respectively
ribonucleoprotein
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the essential enzyme consists of the C5 protein and the catalytic M1 RNA subunits
ribonucleoprotein
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the essential enzyme consists of the C5 protein and the catalytic M1 RNA subunits
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ribonucleoprotein
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requires a RNA component
ribonucleoprotein
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enzyme is a ribonucleoprotein with a large protein part and 1 RNA subunit
ribonucleoprotein
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most eukaryal nuclear RNase Ps are RNP based, which contain one RNA and at least nine proteins
ribonucleoprotein
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the RNase P RNA lacks essential secondary structures required for the recognition of pre-tRNA and as a result is not catalytically active in vitro
ribonucleoprotein
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RNase P RNA is catalytically active in the absence of any protein in the appropriate ionic conditions
ribonucleoprotein
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bacterial-like RNase P and chloroplast and mitochondrial enzymes, overview
ribonucleoprotein
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the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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the enzyme is composed of RNA and five proteins (UniProtIDs: O59425, O59150, O59543, and O59248)
ribonucleoprotein
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ribonucleoprotein complex. RNA subunit is required for activity
ribonucleoprotein
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contains a highly structured RNA of 369 nucleotides
ribonucleoprotein
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secondary structure of nuclear RNase P RNA
ribonucleoprotein
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9S RNA is the RNA component of yeast mitochondrial RNase P
ribonucleoprotein
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enzyme is a ribonucleoprotein with a large protein part and 1 RNA subunit
ribonucleoprotein
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most eukaryal nuclear RNase Ps are RNP based, which contain one RNA and at least nine proteins
ribonucleoprotein
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the enzyme consists of a catalytic RNA component and nine essential proteins
ribonucleoprotein
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the enzyme consists of a catalytic RNA component and nine essential proteins
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ribonucleoprotein
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the active site resides within the RNA moiety. The protein has a role in electrostatic shielding and aids in an essential conformational change
ribonucleoprotein
-
the enzyme requires an RNA as well as a protein subunit for its in vivo activity
ribonucleoprotein
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requires a RNA component
ribonucleoprotein
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RNA component is not observed to be catalytic by itself
ribonucleoprotein
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bacterial RNase Ps consist of one RNA and one protein