Imaging

Imaging

Imaging equipment tailored for biomolecules has emerged as an indispensable toolkit, unlocking the mysteries of life at the molecular and cellular levels. These cutting-edge technologies empower scientists to peer into the intricacies of DNA and protein structures, as well as the dynamic processes within living cells.

DNA and Protein Imaging: The visualization of DNA and proteins stands as a foundational pillar in the study of molecular biology. DNA, the repository of genetic information, and proteins, the molecular machines orchestrating cellular functions, both demand precise examination. Specialized imaging equipment, including gel electrophoresis systems for DNA and techniques like Western blotting for proteins, are crucial. These tools enable scientists to separate, quantify, and identify biomolecules, unraveling genetic mysteries, studying protein expressions, and uncovering post-translational modifications.

Live Cell Imaging: As molecular biology advances, so does the quest to understand the dynamic world within living cells. Live cell imaging equipment is the window through which researchers observe and dissect cellular processes in real-time. Utilizing fluorescent probes, markers, and advanced microscopy systems, scientists delve into the dynamic ballet of cellular life. Live cell imaging unravels cellular behaviors, such as mitosis, cellular trafficking, signal transduction, and responses to stimuli. This real-time observation aids in decoding cellular mechanisms, investigating disease pathways, and advancing drug discovery.