Craic Technologies is proud to introduce circular dichotomy microscopy. The field of biology monitors a transformative jump forward with the appearance of circular dichotomy (CD), an innovative analytical technique that bridges the accuracy of the small scale with organic applications. By incorporating the principles of circular dichotomy with advanced microscopy, this revolutionary technology redefines the understanding of biological structures and functions.
Credit Picture: Craic Technologies, Inc.
What is circular dichotomy microscopy?
Circular dichout microscopy combines the fundamental science of circular dichotomy-which measures differences in the absorption of the left and right circular polarized light-with high resolution microscopy. This hybrid approach allows researchers to explore biomolecular structures with unparalleled spatial precision, providing innovative knowledge of biological processes.
Basic features and advantages
- Biological relevance: Provides critical data on protein folding, nucleic acid configurations and handmade biomorts, which are fundamental to understand life processes.
- Microscopic analysis: Reveals localized molecular interactions and structural details within cells, tissues and complex biological tables.
- Non -invasive analysis: Keeps biological samples, making it ideal for rare, sensitive or live samples.
- Interdisciplinary applications: Supports research throughout Molecular Biology, Biochemistry and Cell Biology.
Transforming Applications in Biology
- Protein structure and function: Provides information on protein configurations, incorrect folding and interactions that are critical for understanding diseases such as Alzheimer’s and Parkinson.
- Discovery and development of drugs: Enhances the characterization of biomolecular goals, facilitating the development of more effective treatments.
- Cellular and tissue analysis: Spatially activates biomolecular changes in specific cellular areas, helping cancer research and regenerative medicine.
- Environmental biology: Examines the structural dynamics of biomolecules in natural ecosystems, contributing to ecological preservation and biological monitoring.
CD microscopy has converted the way we study organic macromolecules. It provides a unique window to the structural dynamics that supports life itself. ”
Dr. Paul Martin, President, Craic Technologies
Future perspectives in biological research
As CD technology, it is ready to provide even more accuracy and flexibility. Emerging developments promise enhanced opportunities for in vivo studies, personalized medicine and biomedical diagnostics, further enhancing its role as a cornerstone of modern biological research.
