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Enzyme
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Target Concepts:
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Query: EC:3.5.4.4 (
adenosine deaminase
)
5,136
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The major pathways of ribonucleotide biosynthesis in Mycoplasma mycoides subsp. mycoides were proposed previously from studies of its usage of radioactive purines and pyrimidines. To interpret more fully the pattern of purine usage, we have assayed cell-free extracts of this organism for several enzymes associated with the salvage synthesis of purine nucleotides. M. mycoides possessed phosphoribosyltransferases for adenine, guanine, and hypoxanthine, purine nucleoside phosphorylase, GMP reductase, GMP kinase, adenylosuccinate synthetase, and adenylosuccinate lyase.
Purine nucleoside
kinase and
adenosine deaminase
were not detected. Examination of kinetic properties and regulation of some of the above enzymes revealed differences between M. mycoides and Escherichia coli. Most notable of these were the greater susceptibility of the enzymes from M. mycoides to inhibition by nucleotides and the more widespread involvement of GMP as an inhibitor. Observations on enzyme activities in vitro allow an adequate explanation of the capacity of guanine to provide M. mycoides with its full requirement for purine nucleotides.
...
PMID:Enzymes of purine metabolism in Mycoplasma mycoides subsp. mycoides. 20 75
Nebularine
undergoes hydration at the active site of
adenosine deaminase
, in a reaction analogous to a partial reaction in the displacement of ammonia from adenosine by water, to generate an inhibitory complex that captures much of the binding affinity expected of an ideal transition-state analogue. Enzyme affinities of several compounds related to nebularine 1,6-hydrate, and to its stable analog 2'-deoxycoformycin, were compared in an effort to identify the structural origins of strong binding. Binding of the stable transition-state analog inhibitor 2'-deoxycoformycin was rendered 9.8 kcal/mol less favorable by removal of substituent ribose, 9.7 kcal/mol less favorable by inversion of the 8-hydroxyl substituent of the diazepine ring, and 10.0 kcal/mol less favorable by removal of atoms 4-6 of the diazepine ring. Binding of the unstable transition-state analog nebularine hydrate was rendered at least 9.9 kcal/mol less favorable by removal of the 6-hydroxyl group and 10.2 kcal/mol less favorable by removal of atoms 1-3 of the pyrimidine ring. In each case, the enzyme exhibited only modest affinity (Kd greater than or equal to 10(-2) M) for the "missing piece", indicating that incorporation of 2 binding determinants within a single molecule permits an additional 7-12 kcal/mol of intrinsic binding energy to be manifested as observed binding energy. These results are consistent with earlier indications that
adenosine deaminase
may use 10.5 kcal/mol of the intrinsic free energy of binding of the two substrates to place them in positions appropriate for reaction at the active site, overcoming the unfavorable entropy change of -35 eu for the equilibrium of 1,6-hydration of purine ribonucleoside and reducing the equilibrium constant for attainment of the transition state in deamination of adenosine. Thus,
adenosine deaminase
may achieve up to 8 orders of magnitude of its catalytic power by converting the nonenzymatic, bimolecular, hydration reaction to a monomolecular reaction at its active site. Several new 6-substituted 1,6-dihydropurine ribonucleosides, prepared by photoaddition of formate and by low-temperature addition of organolithium reagents to a derivative of purine ribonucleoside, exhibited Ki values of 9-1400 microM against
adenosine deaminase
, in accord with the active site's considerable tolerance of bulky leaving groups in substrates. Inhibition by one diastereomer of 6-carboxy-1,6-dihydropurine ribonucleoside was found to be time-dependent, progressing from a weakly bound to a more strongly bound complex.
...
PMID:A transition state in pieces: major contributions of entropic effects to ligand binding by adenosine deaminase. 151 Sep 25
The purification of
adenosine deaminase
from human erythrocytes is reported. By means of classical procedures and by using affinity chromatography as the last step, the enzyme is purified 760,000-fold with a yield of 32%. The affinity resin is composed of purine riboside (nebularine) linked to Sepharose CL6B. Since the compound has no leaving group at the C-6 position the affinity gel is stable and the chromatography can be repeated several times (up to fifteen times in eight months).
Purine riboside
was chosen because its potency as a reversible inhibitor of
adenosine deaminase
is greater than that of inosine (a low-affinity inhibitor), but lower than that of erythro-9-(2-hydroxy-3-nonyl)adenine (a high-affinity inhibitor).
...
PMID:Preparative purification of adenosine deaminase from human erythrocytes by affinity chromatography. 207 41
Adenosine deaminase was purified (780-fold) from skeletal muscle of camel (Camelus Dormedarius) to homogeneity level by using DEAE Sephadex chromatography, ammonium sulfate precipitation, gel filtration and ion exchange chromatography. The enzyme appeared to be monomeric with subunit molecular weight of 43kDa and isoelectric point of 4.85. The enzyme showed specificity for adenosine and exhibited Michaelis-Menten Kinetics with kappa(cat) of 1112.41 min(-1) and K(m) of 14.7 microM at pH 7.5. The pH and temperature optima for enzyme activity were 7-7.5 and 25 degrees C, respectively. Free energy (DeltaG*), enthalpy (DeltaH*) and entropy (DeltaS*) of activation for denaturation of
adenosine deaminase
at 50 degrees C were 88.94, 99.65 kJmol(-1) and 33.16 Jmol(-1), respectively. The purified enzyme had half-lives of 636 and 61 min at 25 and 50 degrees C, respectively. The activation energy for catalysis of camel skeletal muscle
adenosine deaminase
was 9.13 kJmol(-1). Free energy (DeltaG#), enthalpy (DeltaH#) and entropy (DeltaS#) of activation for hydrolysis of
adenosine deaminase
at 25 degrees C were 50.35, 6.65 kJmol(-1) and -146.62 Jmol(-1), respectively.
Purine riboside
inhibited the enzyme competitively with K(i) of 16 microM.
...
PMID:Purification and characterization of adenosine deaminase from camel skeletal muscle. 1237 82
