Ribonuclease dependence

On the other hand, the HIP value for ribonuclease was practically independent of the length of the polyether ligate. These stationary phases were also employed for the separation of oligophenylalanines containing up to 4 residues by isocratic elution with 0.5 mol/1 phosphate buffer, pH 6.3. The retention increments of the Phe residues did not depend on the ligate length, too, and were 0.82 and 0.89 for the stationary phases composed of PEOs (1500 and 4000, respectively). 

After the virus has attached to CD4 and chemokine receptors, another viral glycoprotein (gp41) assists with viral fusion to the cell and internalization of the viral contents. The viral contents include single-stranded RNA, an RNA-dependent DNA polymerase (also known as reverse transcriptase), and other enzymes. Using the single-stranded viral RNA as a template, reverse transcriptase synthesizes a complementary strand of DNA. The single-stranded viral RNA is removed from the newly formed DNA strand by ribonuclease H, and reverse transcriptase completes the synthesis of double-stranded DNA. The... 

Since the rate constants of bimolecular diffusion-limited reactions in isotropic solution are proportional to T/ these data testify to the fact that the kt values are linearly dependent on the diffusion coefficient D in water, irrespective of whether the fluorophores are present on the surface of the macromolecule (human serum albumin, cobra neurotoxins, proteins A and B of the neurotoxic complex of venom) or are localized within the protein matrix (ribonuclease C2, azurin, L-asparaginase).1 36 1 The linear dependence of the functions l/Q and l/xF on x/t] indicates that the mobility of protein structures is correlated with the motions of solvent molecules, and this correlation results in similar mechanisms of quenching for both surface and interior sites of the macromolecule. 

Figure 2.11. The dependence of the position of the fluorescence spectrum maximum on excitation wavelength for tryptophan in a model medium (glycerol) at different temperatures (a) and singletryptophan proteins (b). 1, Whiting parvalbumin, pH 6.S in the presence of Ca2+ ions 2, ribonuclease Th pH 6.5 3, ribonuclease C2, pH 6.5 4, human serum albumin, pH 7.0, +10"4 M sodium dodecyl sulfate 5, human serum albumin, pH 3.2 6, melittin, pH 7.5, +0.15 M NaCl 7, protease inhibitor IT-AJ from Actinomyces janthinus, pH 2.9 8, human serum albumin, pH 7.0 9, -casein, pH 7.5 10, protease inhibitor IT-AJ, pH 7.0 11, basic myelin protein, pH 7.0 12, melittin in water. The dashed line is the absorption spectrum of tryptophan.

The preceding summary and Fig. 20 present a frame-by-frame account of the pathway for ribonuclease catalysis, based predominandy on knowledge of the structures of the various intermediates and transition states involved. The ability to carry out such a study is dependent on three critical features (1) crystals of the enzyme which diffract sufficiently well to permit structural resolution to at least 2 A (2) compatibility of the enzyme, its crystals, and its catalytic kinetic parameters with cryoenzymology so as to permit the accumulation and stabilization of enzyme-substrate complexes and intermediates at subzero temperatures in fluid cryosolvents with crystalline enzyme and (3) the availability of suitable transition state analogs to mimic the actual transition states which are, of course, inaccessible due to their very short lifetimes. The results from this investigation demonstrate that this approach is feasible and can provide unparalleled information about an enzyme at work. 

Oxidation of mono-cysteine peptides to the dimer is a straightforward reaction that can produce only the desired product. In the case of bis-cysteine peptides statistically the oxidation leads to the homodimers in parallel and antiparallel orientation as well as to the disulfide-bridged monomer and oligomers. When the two cysteine residues are placed in the adjacent position formation of homodimers is highly favored over the cyclic monomer (Section 6.1.5.1) and the product distribution depends strongly on the peptide concentration. Such a type of intermolecular disulfide bridging is present in bovine seminal ribonuclease, where an antiparallel alignment occurs at the interface of the dimer. 97 ... 

The reaction catalyzed by polynucleotide phosphorylase differs fundamentally from the polymerase activities discussed so far in that it is not template-dependent. The enzyme uses the 5 -diphosphates of ribonucleosides as substrates and cannot act on the homologous 5 -triphos-phates or on deoxyribonucleoside 5 -diphosphates. The RNA polymer formed by polynucleotide phosphorylase contains the usual 3, 5 -phosphodiester linkages, which can be hydrolyzed by ribonuclease. The reaction is readily reversible and can be pushed in the direction of breakdown of the polyribonucleotide by increasing the phosphate concentration. The probable function of this enzyme in the cell is the degradation of mRNAs to nucleoside diphosphates. 

A relative of the kinases is adenylate cyclase, whose role in forming the allosteric effector 3, 5 -cyclic AMP (cAMP) was considered in Chapter 11. This enzyme catalyzes a displacement on Pa of ATP by the 3 -hydroxyl group of its ribose ring (see Eq. 11-8, step a). The structure of the active site is known.905 Studies with ATPaS suggest an in-line mechanism resembling that of ribonuclease (step a, Eq. 12-25). However, it is Mg2+ dependent, does not utilize the two-histidine mechanism of ribonuclease A, and involves an aspartate carboxylate as catalytic base.906 All isoforms of adenylate cyclase are activated by the a subunits of some G proteins (Chapter 11). The structures907 of Gsa and of its complex with adenylate kinase905 have been determined. The Gsa activator appears to serve as an allosteric effector. 

The enzyme consists of a single polypeptide chain of Mr 13 680 and 124 amino acid residues.187,188 The bond between Ala-20 and Ser-21 may be cleaved by subtilisin. Interestingly, the peptide remains attached to the rest of the protein by noncovalent bonds. The modified protein, called ribonuclease S, and the native protein, now termed ribonuclease A, have identical catalytic activities. Because of its small size, its availability, and its ruggedness, ribonuclease is very amenable to physical and chemical study. It was the first enzyme to be sequenced.187 The crystal structures of both forms of the enzyme were solved at 2.0-A resolution several years ago.189,190 Subsequently, crystal structures of many complexes of the enzyme with substrate and transition analogues and products have been solved at very high resolution.191 Further, because the catalytic activity depends on the ionizations of two histidine residues, the enzyme has been extensively studied by NMR (the imidazole rings of histidines are easily studied by this method—see Chapter 5). 

A relative fluorescence intensity scale will be defined in part 1 of the experiment. The cuvette holder should be provided with a water jacket to maintain the temperature within 0.5°. It is recommended that you use the same cuvette for all measurements unless a pair is available that is very well matched. Fluorescence measurements are temperature dependent. It is necessary to maintain all reagents, except the ribonuclease solution, at 37°C, the same as the setting for the cuvette holder in the fluorimeter. 

What is the driving force for protein adsorption Is the adsorption driven by overall energetic (enthalpic) interactions or does the entropic contribution prevail Do both entropic and enthalpic contributions play a major part in the adsorption process, the extent of each depending on the particular protein and surface in question An illuminating thermodynamic analysis given by Norde and Lyklema 62,66) for the adsorption of two different globular proteins (human serum albumin, HSA, and bovine pancreatic ribonuclease, RNase) on polystyrene latices will be presented. We believe this analysis has general validity. 

Figure 16.12 The temperature-dependent behavior of the denaturation enthalpy and entropy of ribonuclease (RNase) and myoglobin (Mb) under the assumption that AjjjCp is constant (dashed line) or decreasing with increasing temperature (solid line). Reproduced with permission from P. L. Privalov, Ann. Rev. Biophys. Chem. 18, 47 (1989). 1989, by Annual Reviews http //www.AnnualReviews.org...

Acetylcholine receptor protein 2-5A dependent ribonuclease Vitellogenin... 

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