1. Enhanced Production of the Mical Redox Domain for Enzymology and F-actin Disassembly Assays.
- Author
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Yoon, Jimok, Wu, Heng, Hung, Ruei-Jiun, Terman, Jonathan R., and Gupta, Vijai Kumar
- Subjects
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F-actin , *FLAVIN adenine dinucleotide , *NICOTINAMIDE adenine dinucleotide phosphate , *RECOMBINANT proteins , *OXIDATION-reduction reaction , *FLAVOPROTEINS , *ACTIN - Abstract
To change their behaviors, cells require actin proteins to assemble together into long polymers/filaments—and so a critical goal is to understand the factors that control this actin filament (F-actin) assembly and stability. We have identified a family of unusual actin regulators, the MICALs, which are flavoprotein monooxygenase/hydroxylase enzymes that associate with flavin adenine dinucleotide (FAD) and use the co-enzyme nicotinamide adenine dinucleotide phosphate (NADPH) in Redox reactions. F-actin is a specific substrate for these MICAL Redox enzymes, which oxidize specific amino acids within actin to destabilize actin filaments. Furthermore, this MICAL-catalyzed reaction is reversed by another family of Redox enzymes (SelR/MsrB enzymes)—thereby revealing a reversible Redox signaling process and biochemical mechanism regulating actin dynamics. Interestingly, in addition to the MICALs' Redox enzymatic portion through which MICALs covalently modify and affect actin, MICALs have multiple other domains. Less is known about the roles of these other MICAL domains. Here we provide approaches for obtaining high levels of recombinant protein for the Redox only portion of Mical and demonstrate its catalytic and F-actin disassembly activity. These results provide a ground state for future work aimed at defining the role of the other domains of Mical — including characterizing their effects on Mical's Redox enzymatic and F-actin disassembly activity. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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