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Years Active: 2015
Title: The Innovations of Daniel Austin Bochar
Introduction
Daniel Austin Bochar is an accomplished inventor based in Ann Arbor, MI. He holds a patent that showcases his expertise in the field of molecular probes and assay methods. His work has significant implications for measuring test compound interactions with proteins.
Latest Patents
Daniel Bochar's notable patent is titled "Fluorescent molecular probes for use in assays that measure test compound competitive binding with SAM-utilizing proteins." This patent describes assay methods that involve forming homogeneous mixtures containing target SAM-utilizing proteins, fluorescent detection analytes, and test compounds. The process includes incubating these mixtures and measuring the emitted FP or TR-FRET signals to determine the binding interactions between the test compound and the SAM-utilizing protein. The assay mixtures are designed to generate signal properties based on the inherent binding interactions of both the test compound and the detection analyte with the SAM-utilizing protein. The fluorescent detection analytes consist of a fluorophore moiety, a covalent linker moiety, and a SAM-utilizing protein ligand moiety, which can be utilized in FP or TR-FRET assays.
Career Highlights
Throughout his career, Daniel has worked with reputable organizations, including Cayman Chemical Company and the University of Michigan. His experience in these institutions has contributed to his development as an inventor and researcher in the field of molecular biology.
Collaborations
Daniel has collaborated with notable individuals such as Stephen Douglas Barrett and Levi Lynn Blazer. These partnerships have likely enriched his work and expanded the impact of his inventions.
Conclusion
Daniel Austin Bochar's contributions to the field of molecular probes and assay methods demonstrate his innovative spirit and dedication to advancing scientific research. His patent reflects a significant achievement in understanding protein interactions, which can lead to further advancements in various applications.