Chain propagation and polypeptide polymerization rate

The misfolding of polypeptide chains and ag-and Georgiou, 1991), currently each new protein regregation into the insoluble inclusion body state is a seriquires unique folding optimization on a case-by-case ous problem for biotechnology and biomedical research. basis. An understanding of the polymer

The radical polymerizations of acrylamide and methacrylamide and of acrylic, methacrylic and fluoroacrylic acids have been studied in various solvents. The nature of the solvent affects the overall rate due to changes in kp and Ep. It has been shown that the effect of solvent also depends on the nat

## Abstract In acrylate polymerizations both SPRs and tertiary MCRs occur. Via pulsed laser polymerization, using a wide range of LPRRs, in conjunction with aqueous‐phase size‐exclusion chromatography, the polymerization of 1.35 mol · L^−1^ acrylic acid in aqueous solution has been investigated at

## Abstract ^13^C NMR analysis of propene/1‐butene block copolymers obtained by gas‐phase polymerization with Ziegler‐Natta catalysts allows the determination of the propagation rate constants for the homopolymerization of the two monomers. They are very similar for the Solvay type catalyst δ‐TiCl~