Your search keyword '"Travascio P"' showing total 5 results

1. A DNA Oligonucleotide−Hemin Complex Cleaves t-Butyl Hydroperoxide through a Homolytic Mechanism

Author

Travascio P, Dipankar Sen, Paul K. Witting, and Mauk Ag

Subjects

Hemeproteins, Nitroxide mediated radical polymerization, Organic peroxide, Absorption spectroscopy, Stereochemistry, Photochemistry, law.invention, Adduct, Inorganic Chemistry, Absorbance, chemistry.chemical_compound, tert-Butylhydroperoxide, law, Physical and Theoretical Chemistry, skin and connective tissue diseases, Electron paramagnetic resonance, Hydrolysis, Electron Spin Resonance Spectroscopy, DNA, Peroxides, Homolysis, Models, Chemical, Oligodeoxyribonucleotides, chemistry, Spectrophotometry, Hemin

Abstract

Both electron paramagnetic resonance (EPR) and electronic absorption spectroscopy have been employed to investigate the reaction of a guanine-rich DNA nucleotide-hemin complex (PS2.M-hemin complex) and organic peroxide (t-Bu-OOH). Incubation of the PS2.M-hemin complex with t-Bu-OOH resulted in the time-dependent decrease in the heme Soret with concomitant changes to the visible bands of the electronic absorbance spectrum for the PS2.M-hemin complex. Parallel EPR studies using the spin trap 5,5-dimethyl-1-pyrroline N-oxide (DMPO) combined with spectral simulation demonstrated the presence of tert-butyloxyl, carbon-centered methyl, and methyl peroxyl radicals as well as a simple nitroxide (triplet) signal. Experiments, performed by maintaining a constant ratio of t-Bu-OOH/PS2.M-hemin complex ( approximately 35 mol/mol) while varying DMPO concentration, indicated that the relative contributions of each radical adduct to the composite EPR spectrum were significantly influenced by the DMPO concentration. For example, at DMPO/PS2.M-hemin of 10-50 mol/mol, a complex mixture of radicals was consistently detected, whereas at high trapping efficiency (i.e., DMPO/PS2.M-hemin of approximately 250 mol/mol) the tert-butyloxyl-DMPO adduct was predominant. In contrast, at relatively low DMPO/PS2.M-hemin complex ratios ofor =5 mol/mol, a simple nitroxide three-line EPR signal was detected largely in the absence of all other radicals. Together, these data indicate that tert-butyloxyl radical is the primary radical likely formed from the homolytic cleavage of the O-O peroxy bond of t-Bu-OOH, while methyl and methyl peroxyl radicals result from beta-scission of the primary tert-butyloxyl radical product.

Published

2001

2. Advantages of using non-isothermal bioreactors for the enzymatic synthesis of antibiotics: the penicillin G acylase as enzyme model

Author

Travascio P., Zito E., De Maio A., Schrokn C. G. P. H., Durante D., De Luca P., Bencivenga U., and Mita D. G..

Subjects

Cephalexin, Temperature, Membranes, Artificial, Equipment Design, Hydrogen-Ion Concentration, Enzymes, Immobilized, Sensitivity and Specificity, Catalysis, Anti-Bacterial Agents, Cephalosporins, Nylons, Bioreactors, Coated Materials, Biocompatible, Models, Chemical, Propylene Glycols, Escherichia coli, Methacrylates, Penicillin Amidase, Hydrophobic and Hydrophilic Interactions

Abstract

A new hydrophobic and catalytic membrane was prepared by immobilizing Penicillin G acylase (PGA, EC.3.5.1.11) from E. coli on a nylon membrane, chemically grafted with butylmethacrylate (BMA). Hexamethyldiamine (HMDA) and glutaraldehyde (Glu) were used as a spacer and coupling agent, respectively. PGA was used for the enzymatic synthesis of cephalexin, using D(-)-phenylglycine methyl ester (PGME) and 7-amino-3-deacetoxycephalosporanic acid (7-ADCA) as substrates. Cephalexin production was studied in a bioreactor operating under non-isothermal conditions, and was found to linearly increase with the applied temperature gradient. A temperature difference of about 3 °C across the catalytic membrane resulted into a cephalexin synthesis increase of 100 % with a 50 % reduction of the production times. The efficiency of the system was also determined at various concentrations of the two substrates, by calculating the a* coefficients, which represent the percentage increase of enzyme activity when a unit temperature difference is applied across the catalytic membrane. An equation relating the percentage reduction of the production times to the percentage activity increases was also determined. The membrane was also physically characterized, by estimating its hydrophobicity through the values of the hydraulic and thermoosmotic permeability coefficients. The advantage of using non-isothermal bioreactors in biotechnological processes, including pharmaceutical applications, is also discussed

Published

2002

3. Advantages in Using Non-Isothermal Bioreactors in Agricultural Waste Waters Treatment by means of Immobilized Urease. A Study on the Influence of Spacer Length and Immobilization Method

Author

El Sherif H, Di Martino S, Travascio P, De Maio A, Portaccio M, Durante D, Rossi S, Canciglia P, and Mita DG

Subjects

technology, industry, and agriculture

Abstract

The behaviour of three different catalytic membranes, obtained by immobilizing urease on nylon sheets chemically grafted with methyl methacrylate, was studied in a bioreactor operating under isothermal and non-isothermal conditions. Membrane activation was carried out by condensation or acyl azide reaction, and spacers of different length, such as hexamethylendiamine or hydrazine were used. Under isothermal conditions, the activities of the catalytic membranes and soluble urease were characterized as a function of pH, temperature and urea concentration. Both enzyme forms showed the same optimum pH, whereas the optimum temperature was lower for the immobilized enzymes. The spacer length appeared to determine broader pH- and temperature-activity profiles for the urease derivatives. The apparent Km values of the insoluble urease were dependent on membrane type and resulted higher than those of the soluble counterpart, thus indicating an affinity loss for urea. Under non-isothermal conditions, all membranes exhibited increase of percentage activity proportional to the applied temperature difference and decreasing with the increase of urea concentrations. A decrease of the apparent Km was also observed. These results suggest that substrate diffusion limitations due to the immobilization process can be overcome in the presence of temperature gradients. In addition, the remarkable reduction of the production times supports the use of non-isothermal bioreactors for the treatment of urea polluted waste waters.

Published

2002

4. ADVANTAGES OF USING NON-ISOTHERMAL BIOREACTORS IN AGRICOLTURAL WASTE WATER TREATMENT BY MEANS OF IMMOBILIZED UREASE. STUDY ON THE INFLUENCE OF SPACER LENGHT AND IMMOBILIZATION METHOD

Author

EL SHERIF, H., DI MARTINO, S., Travascio, P., DE MAIO, A., Portaccio, M., Durante, D., Rossi, S., Canciglia, Paolo, and Mita, D. G.

Published

2002

5. Enzyme Reaction Engineering: Effect of Methanol on the Synthesis of Antibiotics Catalyzed by Immobilized Penicillin G Acylase under Isothermal and Non-Isothermal Conditions

Author

T. Bertolini, V. Grano, S. Di Martino, P. Travascio, Marianna Portaccio, N. Diano, E. Zito, Damiano Gustavo Mita, S. Rossi, Travascio, P, Zito, E, Portaccio, Marianna Bianca Emanuela, Diano, Nadia, Grano, V, DI MARTINO, S, Bertolini, T, Rossi, S, and Mita, Dg

Subjects

Immobilized enzyme, Sensitivity and Specificity, Catalysis, chemistry.chemical_compound, Bioreactors, Bioreactor, Escherichia coli, Organic chemistry, Cephalexin, Methanol, Temperature, technology, industry, and agriculture, Substrate (chemistry), Water, Membranes, Artificial, Grafting, Enzymes, Immobilized, Anti-Bacterial Agents, Cephalosporins, Enzyme Activation, Nylons, Membrane, Monomer, chemistry, Propylene Glycols, Methacrylates, Penicillin Amidase, Hydrophobic and Hydrophilic Interactions, Biotechnology, Nuclear chemistry

Abstract

The effect of methanol on the kinetically controlled synthesis of cephalexin by free and immobilized penicillin G acylase (PGA) was investigated. Catalytic and hydrophobic membranes were obtained by chemical grafting, activation, and PGA immobilization on hydrophobic nylon supports. Butyl methacrylate (BMA) was used as graft monomer. Increasing concentrations of methanol were found to cause a greater deleterious effect on the activity of free than on that of the immobilized enzyme. Methanol, however, improved the kinetic stability of cephalexin synthesized by free PGA, resulting in higher maximum yields. By contrast, immobilized PGA reached 100% yields even in the absence of the cosolvent. Cephalexin synthesis by the catalytic membrane was also performed in a non-isothermal bioreactor. Under these conditions, a 94% increase of the synthetic activity and complete conversion of the limiting substrate to cephalexin were obtained. The addition of methanol reduced the non-isothermal activity increase. The physical cause responsible for the non-isothermal behavior of the hydrophobic catalytic membrane was identified in the process of thermodialysis.

Published

2002