Background: When two targets are presented in close temporal proximity amongst a rapid serial visual stream of distractors, a period of disrupted attention and attenuated awareness lasting 200-500 ms follows identification of the first target (T1). This phenomenon is known as the "attentional blink" (AB) and is generally attributed to a failure to consolidate information in visual short-term memory due to depleted or disrupted attentional resources. Previous research has shown that items presented during the AB that fail to reach conscious awareness are still processed to relatively high levels, including the level of meaning.
View Article and Find Full Text PDFDrug discovery compounds are often isolated as salts of trifluoroacetate from preparative high performance liquid chromatography, which are then used for biological assays in order to assess their efficacy against the biochemical target of interest. It is, therefore, imperative to determine the TFA content in order to ascertain the correct formula weight and when required, to ensure that the TFA has been completely exchanged for another counterion in order to have superior pharmacokinetic properties and to avoid potential toxicity effects. In this paper, we present capillary electrophoresis and (19)F nuclear magnetic resonance methods for determining the TFA content of drug discovery compounds.
View Article and Find Full Text PDFThe biotechnology industry has undergone rapid growth in recent years largely due to the development and success of protein-based therapeutics for a wide range of disorders. Similar to traditional pharmaceuticals, characterization of a therapeutic protein for its physicochemical properties, process monitoring and lot release is crucial. Electrophoresis in the slab-gel format has and continues to be a mainstay of the protein laboratory; and more recently, CE has begun to make significant inroads for protein analysis in industrial settings.
View Article and Find Full Text PDFA variety of 3'-untranslated regions (UTRs) were cloned from infectious hepatitis C virus human samples and examined in NS5B polymerase de novo initiation reactions. We isolated and characterized four distinct 3'-UTRs that harbor the conserved terminal 98 nucleotides, but have poly(U/UC) tracts of 25, 93, 98, and 101 nucleotides, respectively. Reconstitution of de novo initiation by the mature NS5B with the different 3'-UTR RNA substrates revealed distinctively sized products that are consistent with internal initiation at specific sites within the polypyrimidine tract.
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