With bioimaging and microscopy, researchers take advantage of the high-power magnification available today to visualize specimens close up. Bioimaging and microscopy allow greater resolution than ever before, leading to the image-based, information-rich data than can be collected in high-content screening. Fluorescence microscopy images specific molecular labels that have been tagged with fluorescent reporter molecules. Similar fluorescent or chemiluminescent labels are also used in Western blot imaging or gel documentation systems. Confocal imaging allows optical sectioning to examine the 3D structures of specimens. Whole-cell and live animal imaging is also yielding new information with techniques such as live cell, infrared, and in vivo imaging. Microscopy is also used in laser capture microdissection, in which delicate dissections of tissue or cells is accomplished using ultraviolet and infrared lasers.
Advantages and disadvantages as well as future outlook
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New tools and techniques are helping overcome the challenges
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The revolutionary MACSima™ Platform streamlines your spatial biology research from end to end, reducing experimental workload and generating impactful data in no time. At its core is the fully automated MACSima™ System, which utilizes fluorescence ...
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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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I highly recommend this kit. It save a lot of time and energy to image actin. Sir-actin stains endogenous F-actin without the need for genetic manipulation or overexpression.
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This is good for doing APEX-DAB staining experiment.
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