Conformational changes of polypeptides in intense electric fields

We are interested in determining whether polypeptides retain their conformation on crystallizing from various solvent systems.'-3 We give here a brief summary of some systematic infrared measurements on a series of five polypeptides. The spectra of solutions of the polypeptides in pure trifluoroacet

## Abstract Single‐stranded polynucleotides are used as model systems for the investigation of conformational changes induced by electric fields. It is demonstrated that the single‐strand helix–coil transition in poly(A), poly(dA), and poly(C) can be induced by application of high electric fields.

## Abstract Transient electric birefringence measurements on poly(L‐lysine hydrobromide) in methanol–water mixtures have been carried out at various solvent compositions in the vicinity of the helix–coil transition region (from 87 to 98 vol % methanol). Anomalous birefringence transients were obser

Changes in the solvent dielectric properties are correlated with changes in polypeptide conformer populations. Gramicidin A, a peptide native to membrane environments, forms a variety of well deÐned dimeric conformations in relatively low dielectric organic solvents. However, changes in this environ

## Abstract The electric birefringence of poly(L‐glutamic acid) (PLGA) in dimethylsulfoxide (DMSO)–methanol mixtures has been measured by use of the rectangular pulse technique. The length distribution curve, the mean molecular length, and the mean apparent permanent dipole moment of PLGA in soluti

We develop a numerical calculation scheme of a dynamics of the quantum network for linear molecular aggregates under time-dependent electric fields. Each molecule is assumed to be an electric dipole arranged linearly with an arbitrary angle from the longitudinal axis. This approximation is considere