35 research outputs found

    Extrinsic Fluorescent Dyes as Tools for Protein Characterization

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    Noncovalent, extrinsic fluorescent dyes are applied in various fields of protein analysis, e.g. to characterize folding intermediates, measure surface hydrophobicity, and detect aggregation or fibrillation. The main underlying mechanisms, which explain the fluorescence properties of many extrinsic dyes, are solvent relaxation processes and (twisted) intramolecular charge transfer reactions, which are affected by the environment and by interactions of the dyes with proteins. In recent time, the use of extrinsic fluorescent dyes such as ANS, Bis-ANS, Nile Red, Thioflavin T and others has increased, because of their versatility, sensitivity and suitability for high-throughput screening. The intention of this review is to give an overview of available extrinsic dyes, explain their spectral properties, and show illustrative examples of their various applications in protein characterization

    Eosinophil count in premature infants

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    Phagocytosis by catfish neutrophils

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    Channel catfish peripheral blood leucocytes were separated on a Percoll gradient to establish the phagocytic function of the neutrophils. Four fractions of leucocytes were formed on the Percoll gradient, including a fraction that contained 50–80% neutrophils at a density of 1.08–1.09 g ml−1 and a fraction that contained 10% monocytes at a density of 1.071–1.074 g ml−1. Phagocytic assays, using 3H‐uridine, showed that the two fractions had similar phagocytic indices, although neutrophils were less phagocytic than monocytes. Neutrophils were confirmed to be phagocytic when examined with transmission electron microscopy. Staining with 3,3‐diaminobenzidine‐tetrahydrochloride demonstrated peroxidase‐positive granules in the cytoplasm of actively phagocytic cells as well as peroxidase reaction products in a number of phagosomes containing bacteria. Phagocytosis of bacteria by channel catfish neutrophils was further confirmed by differential staining of external bacteria and cell surfaces with ruthenium red during the fixation process. Copyright © 1987, Wiley Blackwell. All rights reserve
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