
Proteins differ from each other in their size, molecular structure and physiochemical properties. These differences allow for protein analysis and characterization by separation and identification. Separation is typically done via electrophoresis where proteins are differentiated by size or mass, and isoelectric focusing, where protein are separated by charge. These techniques can be done independently, or in combination- referred to as 2D electrophoresis. Equipment for separation includes polyacrylamide gels, organic stains, electrophoresis boxes, isoelectric focusing immobilized strips, 2D electrophoresis equipment, and protein standards. Identification is done via mass spectrometry where molecules are ionized to determine their mass to charge ratios. Mass spectrometry equipment includes protein fractionators, GC/MS, LC/MS, CE/MS and time of flight systems. Identification can also be done via amino acid sequencing by Edman degradation, crystal imaging and surface plasmon resonance. With so many options available, laboratories typically will employ multiple strategies for protein analysis and characterization.
PPIs offer a system-level understanding of cell behavior
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Following the moving molecular target
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Set up a live demo with a Bio-Rad Imaging Specialist - Request a DemoUse the ChemiDoc MP Imaging System for flexible, high-sensitivity multiplex fluorescent and chemiluminescence western blot detection, imaging gels, analysis and documentation. This ...
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The Sapphire FL Biomolecular Imager is a field-upgradable laser scanner, with a wide selection of user-adjustable lasers and filters. It features 5-micron resolution, adjustable Z-plane focus and a wide field of view of 25cm X 25cm. Applications ...
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My research focuses on understanding how changes in the cell wall affect cell growth, shape, and cell division. I used Vancomycin-BODIPY-FL conjugate to label newly made cell wall material during fluorescence microscopy, allowing me to compare normal...
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Using organ-on-chip devices for in vitro experiments is a good option to see the cellular interactions and also to mimics as much as possible what happens in vivo. The only "problem" is since it is a small device, when you use a small amount of cells...
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