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Query: EC:3.1.27.3 (
RNase T1
)
1,228
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In order to study the inhibitory effect of
Zn2+
on
ribonuclease T1
[
RNase T1
; Itaya & Inoue (1982). Biochem. J. 207, 357-362], the enzyme was cocrystallized with 2 mM
Zn2+
, pH 5.2, from a solution containing 55% (v/v) 2-methyl-2,4-pentanediol. The crystals are orthorhombic, P2(1)2(1)2(1), a = 48.71 (1), b = 46.51 (1), c = 41.14 (1) A, Z = 4, V = 93203 A3. The crystal structure was determined by molecular replacement and refined by restrained least-squares methods based on Fhkl for 8291 unique reflections with Fo greater than or equal to 1 sigma (Fo) in the resolution range 10 to 1.8 A and converged at a crystallographic R factor of 0.140. The
Zn2+
is not bonded to the active site of
RNase T1
, probably because the His40 and His92 side chains are protonated.
Zn2+
occupies the same site as Ca2+ in a series of crystal structures of free and nucleotide-complexed
RNase T1
. It is coordinated to Asp15 carboxylate and to six water molecules forming a dodecahedron of square antiprismatic form. The
Zn2+
...O distances are approximately 2.5 A, suggesting that
Zn2+
is clathrated and not coordinated, which would require distances of 2.0 A.
...
PMID:Structure of ribonuclease T1 complexed with zinc(II) at 1.8 A resolution: a Zn2+.6H2O.carboxylate clathrate. 151 6
Poliovirus replicase can be isolated in a form which depends on either oligo(U) or on a host cell protein for the initiation of copying of poliovirion (plus strand) RNA. The product of replicase reactions--initiated either with host factor or with oligo(U)--includes full length (35 S) RNA molecules, largely in double-stranded form, which contain the
ribonuclease T1
-resistant oligonucleotides of the poliovirus minus strand. For the oligo(U)-stimulated reaction, it is shown that the oligo(U) primer is covalently associated with full length product at its 5'-end. For either the host factor- or oligo(U)-dependent reactions, full length molecules appear only after 15 min of synthesis. The fraction of 35 S product is increased by raising the concentration of the limiting nucleoside triphosphate. The reaction is inhibited by as little as 100 mM salt, although it is stimulated by low (20 mM) salt concentrations.
Zinc
stimulates overall synthesis, but not the rate of appearance of full length molecules; the reaction is inhibited by agents which chelate
zinc
. Although synthesis of full length products occurs much more slowly than in the infected cell, this soluble system appears to mimic quite faithfully the initial steps of poliovirus replication.
...
PMID:In vitro copying of viral positive strand RNA by poliovirus replicase. Characterization of the reaction and its products. 628 19
The kinetic mechanism of specific inhibition by
Zn2+
of
ribonuclease T1
catalysis was studied by steady-state kinetic analysis of transphosphorylation of dinucleotides, GpCp(3'), GpUp(2') and GpUp(3'), and dinucleoside monophosphates, GpC and GpU. The inhibition was not simply competitive, non-competitive or uncompetitive, but the kinetic data were compatible with a mechanism of 'fully mixed inhibition' in which a fully non-competitive action was associated with a partially competitive action. Apparent equilibrium quotients involved in this model of inhibition were determined for the dinucleotide substrates, and we found that binding of either of
Zn2+
and substrate was facilitated when the other was bound. The location of
Zn2+
was suggested to be near His-40 and/or His-92 of the
ribonuclease T1
molecule.
...
PMID:Steady-state kinetic studies of the inhibitory action of Zn2+ on ribonuclease T1 catalysis. 681 48
Ribonuclease Sa (
RNase Sa
) is a secretory ribonuclease from Streptomyces aureofaciens. Herein, 3'-N-hydroxyurea-3'-deoxythymidine 5'-phosphate is shown to be a competitive inhibitor of catalysis by
RNase Sa
. Inhibition is enhanced by nearly 10-fold in the presence of Zn(2+), which could coordinate to the N-hydroxyurea group along with enzymic residues. The carboxylate of Glu54 is the putative base that abstracts a proton from the 2' hydroxyl group during catalysis of RNA cleavage by
RNase Sa
. Replacing Glu54 with a glutamine residue has no effect on the affinity of N-hydroxyurea 1 for the enzyme, but eliminates the
zinc
(II)-dependence of that affinity. These data indicate that an N-hydroxyurea nucleotide can recruit Zn(2+) to inhibit the enzymatic activity of
RNase Sa
, and suggest that the carboxylate of Glu54 is a ligand for that Zn(2+). These findings further the development of a new class of ribonuclease inhibitors based on the complex of an N-hydroxyurea nucleotide and
zinc
(II).
...
PMID:Zinc(II)-mediated inhibition of ribonuclease Sa by an N-hydroxyurea nucleotide and its basis. 1515 54
