High throughput drug profiling.

High throughput screening has significantly contributed to advances in drug discovery. The great increase in the number of samples screened has been accompanied by increases in costs and in the data required for the investigated compounds. High throughput profiling addresses the issues of compound selectivity and specificity. It combines conventional screening with data mining technologies to give a full set of data, enabling development candidates to be more fully compared.

The pressure-dependence of two beta-glucosidases with respect to their thermostability.

A comparative study of temperature and pressure effects were carried out by using two homologous enzymes exhibiting different thermostability and oligomery: almond beta-glucosidase and Sulfolobus solfataricus beta-glucosidase. Both the activity and stability were studied using an in-house built bioreactor allowing injection, stirring, sampling and on-line spectrophometric monitoring with retention of pressure up to 2.5 kbar and temperature control possible up to 150 degrees C. Almond beta-glucosidase, the most pressure sensitive enzyme of the two was continuously affected by pressure up to 1.5 kbar. Activation volume changes revealed that the inactivation of almond beta-glucosidase was due to both catalytic step inactivation and enzyme-substrate binding inactivation. Structural modifications generated by pressure, related to a loss of activity did not affect the global conformation of almond beta-glucosidase, after depressurization. In contrast, Sulfolobus solfataricus beta-glucosidase was a highly barostable enzyme. It maintained a half-life of 91 h at 60 degrees C and 2.5 kbar. Moreover, this enzyme appeared to be activated by pressure between atmospheric pressure and 2.5 kbar with a maximal activity at 1.25 kbar. However, this enzyme still displayed the best catalytic efficiency at atmospheric pressure because of a Km value drastically increased by pressure. Activation volume changes indicated that the hydrolysis reaction catalysed by Sulfolobus solfataricus beta-glucosidase, was alternatively favoured and disfavoured by pressure due to the catalytic step activation or inactivation associated with the enzyme-substrate binding step being continuously inactivated by pressure.

Modulation of lipase hydrolysis and synthesis reactions using carbohydrates.

A novel method for modulation of lipase hydrolysis and synthesis lipase was investigated by using carbohydrates in the microenvironment of the Candida rugosa enzyme. The influence of the addition of different sugars to the previously dialysed enzyme was tested on the two reactions. Rates of hydrolysis were lowered by using dialysed enzyme but were increased after sugar addition, regardless of the identity of the added sugar. In contrast, synthesis reaction rates depended on the nature of the carbohydrate. Rates were increased by adding lactose, which is not a water activity depressor, but were lowered by adding fructose, glucose, sucrose or sorbitol, which are all water activity depressors.