Calculation of the molecular parameters of the α-helix–coil and β-structure–coil transitions

## Synopsis Methods for calculating the rate of cooperative transitions on a linear lattice, for which the helix-coil transition of polypeptides is an example, are reported. The problem is to determine the kinetic characteristics of the transition given the rate constants for a set of elementary s

## SYNOPSIS Circular dichroism (CD) experiments in the backbone (200-240 n m ) region are reported for four isolated, excised two-chain, coiled-coil segments whose chains comprise, respectively, residues 11-127,142-281,l-189, and 190-284 of the rabbit aa-tropomyosin ( T m ) sequence. The uv and CD

A comparison has been made of the intrachain potential energy of an infinite straight a-helix of poly-L-alanine with that of the distorted form adopted in a coiled coil conformation. The energy terms included were the van der Waal's, electrostatic, hydrogen-bond, and the rotational potential terms.

A method is described for preparation of a species of 88 tropomyosin that is sulfhydryl-blocked at C36 and disulfide-cross-linked at C190. Five steps are involved: (1) Rabbit skeletal muscle tropomywin, comprising aa and a8 species, is oxidized with ferricyanide, &sulfide-cross-linking both species

a p a n synopsis Dielectric studies have been carried out for the helix-coil transition of poly-p-benzyl-Gaspartate with m-cresol as a solvent. The transition of the solute molecules has been sharply reflected as a characteristic change in the dielectric dispersion curves in changing temperature. Tw