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Query: EC:3.5.4.17 (
adenosine deaminase
)
5,206
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Kinetic studies with
adenylate deaminase
have been performed by stopped flow methods at 20 degrees C in 0.01 M imidazole/HCl, pH 6.5. The data were analyzed using either the whole time course of the reaction or the initial portion of the full time course. At low KCl concentrations, activation by the product IMP complicates any interpretation. In the presence of 0.15 M KCl, the results are interpreted in terms of three types of purine nucleotide binding sites: an active site, an inhibitory site which appears to be relatively specific for nucleoside triphosphates, and an activating site which shows relatively little specificity for nucleoside phosphates. Nucleotide binding to the activating site weakens binding to the inhibitory site. Sigmoidal kinetic data observed as a function of AMP in the presence of the inhibitor GTP are interpreted in terms of AMP binding to the activating site and weakening GTP binding. A fragment of
myosin
, subfragement-2, which has previously been shown to form a tight complex with
adenylate deaminase
(Ashby, B., and Frieden, C. (1977) J. Biol. Chem. 252, 1869--1875) activates the deaminase reaction only slightly. Complex formation, however, makes the reaction less susceptible to inhibition by GTP, although high levels of this nucleotide will disrupt the complex. In the presence of GTP or GTP plus subfragment-2, hysteretic effects are observed.
...
PMID:Adenylate deaminase. Kinetic and binding studies on the rabbit muscle enzyme. 72 7
Attempts to identify mechanisms by which calcium antagonists might influence intracellular metabolism have not yet yielded conclusive findings. In this study bepridil, verapamil, nifedipine, and nisoldipine were found to have no influence on the rate of rat heart
myosin
adenosine triphosphatase or the calcium dependence of myofibrillar adenosine triphosphatase. None of these calcium antagonists alters the rate of reaction of any of the adenine nucleotide catabolic or adenosine salvage enzymes, adenylate kinase, creatine kinase, adenosine kinase,
adenosine deaminase
, or 5' nucleotidase, in extracts of rat heart. All four compounds, however, reduced, apparently in a non-specific manner, the rate of uptake of adenosine by myocytes isolated from rat heart. It is concluded that calcium antagonists may, through intercalation with the sarcolemmal membrane, inhibit efflux of adenosine formed by catabolism of adenine nucleotides in ischaemic myocytes. This might offer therapeutic advantage since the intracellular concentration of adenosine would thereby be increased, allowing an increased rate of incorporation of adenosine into the adenosine triphosphate pool in reoxygenated myocardium.
...
PMID:Calcium antagonists and adenine nucleotide metabolism in rat heart. 349 85
Effects of adriamycin (ADM) treatment on rat heart cells in culture were examined. ADM treatment (lug/ml) for 3 hr, 48 to 51hr of culture age, had no effect on oxygen consumption,
myosin
content or myosin ATPase activity. In contrast, the activities of creatine kinase, adenylate kinase and
adenosine deaminase
were significantly lower in ADM-treated cells than in corresponding controls at 72 and 96 hr of culture age. Fall in the activities of these key enzymes of adenine nucleotide metabolism would lead to disturbances in energy metabolism, and results in the functional impairment of heart cells.
...
PMID:Effects of adriamycin on enzymes of adenine nucleotide metabolism in heart cell cultures. 408 19
The interaction of rabbit skeletal muscle
adenylate deaminase
with
myosin
fragments (heavy meromyosin and subfragment-2) has been studied by analytical centrifugation, gel chromatography, and stopped flow light scattering. Formation of the complex is highly cooperative with respect to addition of two molecules of
adenylate deaminase
/molecule of
myosin
fragment to form a ternary complex. Ternary complex formation is also highly pH-dependent with less complex formed at higher pH values, and the pH dependence is steeper with heavy meromyosin than with subfragment-2. At pH 6.5, the dissociation constant for the heavy meromyosin-deaminase complex is approximately 1.2 X 10(-15) M2. Over the pH range 6.5-7.0, rate constants for the formation and dissociation of both the ternary and binary complexes of
adenylate deaminase
with heavy meromyosin have been determined. From analysis of the time course of stopped flow light scattering, the association steps are found to be extremely rapid, while the rate constant for dissociation of the first molecule of
adenylate deaminase
from the ternary complex is quite slow. This rate constant increases as the pH increased, but is sufficiently low that the interacting system does not equilibrate on the time scale of mass transport experiments (sedimentation velocity and gel chromatography), and thus displays apparent "slow" behavior. The kinetic regulatory properties of
adenylate deaminase
are influenced by heavy meromyosin and subfragment-2, particularly with respect to inhibition by GTP. The association and dissociation of
adenylate deaminase
and
myosin
fragments and the resultant changes in kinetic properties of the
adenylate deaminase
can markedly alter the time course of the enzymatic reaction. The time scale over which this interaction is modulated by changes in pH may have significance in the metabolism of exercising muscle.
...
PMID:Analysis of the interaction of rabbit skeletal muscle adenylate deaminase with myosin subfragments. A kinetically regulated system. 636 42
Adenylate deaminase (AMP deaminase; AMP aminohydrolase, EC 3.5.4.6), a tetrameric enzyme found at particularly high concentrations in skeletal muscle, has previously been shown to bind strongly to the subfragment-2-portion of
myosin
in vitro and to the ends of the A band in vivo. It is shown here that when
adenylate deaminase
is dialyzed with skeletal
myosin
during formation of synthetic filaments at pH 7.0 it decorates the filament at 14.3-nm intervals, presumably in the region of exposed backbone between crossbridge levels. Optical diffraction of the aggregates reveals both enhancement of reflections arising from underlying
myosin
organization and other reflections arising from
adenylate deaminase
arrangement on the filament surface. Adenylate deaminase can thus be used as a specific label in the study of
myosin
presence and organization.
...
PMID:Adenylate deaminase binding to synthetic thick filaments of myosin. 693 63
AMP deaminase (
adenylate deaminase
; AMP aminohydrolase, EC 3.5.4.6), a large flat tetrameric enzyme found in skeletal muscle, binds strongly and specifically to the subfragment-2 region of rabbit skeletal muscle
myosin
. This allows its use as a structural probe in
myosin
and
myosin
rod aggregation studies. When mixed with a preparation of isolated native thick filaments, AMP deaminase decorates the entire filament backbone except for the central bare zone. Binding is particularly ordered in the banded region, where 11 stripes of about 43-nm spacing on either side of the bare zone have been observed in studies of isolated A-bands. No systematic absence of deaminase is seen here, indicating that the presence of the C-protein and H-protein bands does not make the binding site inaccessible to the tetramer. Optical diffraction patterns of the decorated filaments show the expected 42.9-nm periodicities and a reflection indexing at 28.6 nm. Because of the bulkiness of the tetramer relative to the number of available binding sites at each 14.3-nm interval along the filament shaft, the helix net is being sampled at a lower frequency than is the underlying
myosin
organization. As a result, reflections on layer lines other than orders of 42.9 nm are also observed (e.g., 57.2); these reflections strongly indicate a structure based on a 12/1 primitive helix. The results appear to eliminate the symmetric double two-fold and three-fold models of thick filament structure but are consistent with an asymmetric four-fold structure.
...
PMID:Structural studies of isolated native thick filaments from rabbit psoas muscle with AMP deaminase decoration. 695 10
