Potentiometric titration of poly(L-glutamic acid) in aqueous solutions and binding of divalent cations

The objective has been to establish if those ions which are known to change the stability of the struct,ure of proteins, have any influence on the properties of ionizable polypeptides. Potentiometric titrations and complementary optical rotation data are presented for aqueous solutions of poly-L-lys

## Synopsis Aqiieoris solritions of poly-1,-tyrosine were studied by potentiometric titrations, lightsrat,teririg measrirements, and infrared spectroscopy in order to characterize the conformational changes the macromolecules exhibit when the hydrogen-ion concentration of the solutions is varied.

## Abstract pH titration measurements of poly‐ __S__‐carboxymethyl‐L‐cysteine were undertaken in the aqueous Nacl solution in relation to the β form–random coil transition. The titration curves show a marked molecular weight dependence because of the shortened chain length of materials. Comparison

## Abstract Random copolymers of L‐glutamic acid and ortho‐nitrobenzyl‐L‐glutamate were synthesized with different percentages of nitrobenzyl‐L‐glutamate, from 3 to 22%. These copolymers were studied by circular dichroism (CD) and potentiometric titrations in aqueous solutions in order to determine

To investigate the flexibility or motility of the secondary structure of poly-Lglutamic acid, a simple model molecule of proteins, the kinetics of the tritium-hydrogen exchange of this polymer in aqueous solutions waa followed at various pH values by use of a freezedrying technique and a liquid scin

Chimica delle Macromolecole (CNR) Sex. ZZZ, Ztaly ## Synopsis Further direct evidences are given that a clear correlation exists between potentiometric and spectroscopic measurements in monitoring the poly( bglutamic acid) helix + coil transition. Specific Li + ion poly(r,-glutamic acid) interact