Diisobutylene maleic acid, or DIBMA, offers a novel approach to integral membrane protein extraction without requiring the use of detergent. This copolymer extracts the protein along with the surrounding lipids, creating native nanodiscs. This method of solubilization is the preferred method, as traditional detergent solubilization can possibly alter the structural and functional integrity of the membrane protein. DIBMA solubilization, on the other hand, is able to create a more stable environment for the integral membrane protein, while allowing purification through commonly used chromatography methods similar to established detergent solubilization protocols. In this project, we study the ability of DIBMA to isolate the integral membrane protein, chloroplast ATP synthase, without the use of detergents.
Details
- Structural Discovery of CF1F0 using Nanodiscs: exploring the ability of DIBMA to isolate spinach chloroplast ATP synthase
- Balachandran, Kavya (Author)
- Fromme, Petra (Thesis director)
- Yang, Jay-How (Committee member)
- Barrett, The Honors College (Contributor)
- School of Life Sciences (Contributor)
- College of Health Solutions (Contributor)