Enzymatic Synthesis of Biologically Active -Phosphinic Analogue of α-Ketoglutarate.

Amino acid analogues with a phosphorus-containing moiety replacing the carboxylic group are promising sources of biologically active compounds. The -phosphinic group, with hydrogen-phosphorus-carbon (H-P-C) bonds and a flattened tetrahedral configuration, is a bioisostere of the carboxylic group. Consequently, amino--phosphinic acids undergo substrate-like enzymatic transformations, leading to new biologically active metabolites.

Evaluation of the antiprotozoan properties of 5'-norcarbocyclic pyrimidine nucleosides.

Carbocyclic nucleoside analogues have a distinguished history as anti-infectious agents, including key antiviral agents. Toxicity was initially a concern but this was reduced by the introduction of 5'-nor variants. Here, we report the result of our preliminary screening of a series of 5'-norcarbocyclic uridine analogues against protozoan parasites, specifically the major pathogens Leishmania mexicana and Trypanosoma brucei.

Elongation complexes of Thermus thermophilus RNA polymerase that possess distinct translocation conformations.

We have characterized elongation complexes (ECs) of RNA polymerase from the extremely thermophilic bacterium, Thermus thermophilus. We found that complexes assembled on nucleic acid scaffolds are transcriptionally competent at high temperature (50-80 degrees C) and, depending upon the organization of the scaffold, possess distinct translocation conformations. ECs assembled on scaffolds with a 9 bp RNA:DNA hybrid are highly stable, resistant to pyrophosphorolysis, and are in the posttranslocated state.