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Years Active: 2019-2025
Title: Richard Ting: Innovator in Evolved Labeling Proteins
Introduction
Richard Ting, based in New York, NY, is a notable inventor recognized for his contributions in the field of evolved labeling proteins. He holds one patent that showcases innovative advancements in fluorescence technology, specifically in the design of red-shifted smURFPs, which have significant implications for deep tissue imaging and biological research.
Latest Patents
Richard Ting’s patent is centered around the invention of Allophycocyanin alpha-subunit evolved labeling proteins, known as smURFPs. This invention brings forth several key characteristics:
1. Enhanced fluorescence compared to infrared fluorescent proteins (FPs) such as IFP1.4 and iRFP713.
2. Efficient expression with minimal toxicity.
3. The capability of covalent attachment of its chromophore, biliverdin, without the need for a lyase.
4. The ability to achieve longer wavelengths than those possible with jellyfish- or coral-derived FPs using smURFP and IFP2.0.
5. Functional fusion to hCdt1(30/120), unlike jellyfish- or coral-derived FPs mAG, eGFP, and mRFP1, which are nonfunctional.
6. The promise for improved deep tissue imaging, enhancing the capabilities for researchers in the field.
Career Highlights
Richard Ting is associated with the University of California, where he pursues his research and innovation. His contributions to the field are not only technological but also impactful in enhancing our understanding of biological systems through advanced imaging techniques.
Collaborations
During his career, Richard has collaborated with others in the field, including notable coworkers such as Erik Rodriguez and John Lin. These collaborations reflect a strong network of innovation and teamwork in the pursuit of scientific advancements.
Conclusion
In conclusion, Richard Ting's innovative work in the development of smURFPs showcases his significant contributions to the realm of evolved labeling proteins. His patent illustrates not only technological advancements but also the potential for future discoveries in deep tissue imaging, positioning him as an influential figure in modern biological research.