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Sauren Das,Nirjhar Dasgupta,Anjan Hazraplex mixtures that contain a wide variety of nonprotein substances in addition to the proteins to be analyzed. These substances often interfere with the resolution of the electrophoretic separation or the visualization of the result. Macromolecules (e.g., polysaccharides and DNA) can interfere with
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Rossen Tzonev,
Chavdar Gussevn is usually carried out in a buffer containing chaotropes (typically 9.5 M urea, or 5–8 M urea and 2 M thiourea), 2–4% nonionic and/or zwitterionic detergent(s), reducing agent(s), carrier ampholytes and, depending on the type of sample, protease inhibitors. In this chapter, the major constituents
María Eugenia Figueroa,Guido Lorenz,Ana María Giménezsuch metal ions may modulate essential cellular functions (including signal transduction pathways), may catalyze oxidative damage, and may affect the folding of nascent proteins. Here we describe a new qualitative subproteomic method for the detection, isolation, and identification of metal-interact
Pavol Eliáš jun,Daniel Dítě,Zuzana Dítěg for neuroscience research, as well as for clinical applications. In 7.0 Tesla MRI Brain Atlas: In Vivo Atlas with Cryomacrotome Correlation, Zang-Hee Cho and his colleagues at the Neuroscience Research Institute, Gachon University of Medicine and Science set new standards in neuro-anatomy. This un
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Adrian Oprea,Ana Cojocariu,Marius-Nicuşor Grigorecrotome correlations contextualize each MR image.Recent advances in MRI, especially those in the area of ultra high field (UHF) MRI, have attracted significant attention in the field of brain imaging for neuroscience research, as well as for clinical applications. In 7.0 Tesla MRI Brain Atlas: In Vi