NMR and ESR study of the conformations and dynamical properties of poly(L-lysine) in aqueous solutions

The absorption and circular dichroism spectra of the 1:l copolymer (L-LYS, L-Tyr), have been investigated in aqueous solutions at pH ranging from 3 to 13. The spectral patterns indicate that the fully charged polyampholyte assumes a nonperiodic conformation on the acid and basic sides of the isoelec

## Abstract The conformational changes of poly‐__N__^ε^‐glutaryl‐L‐lysine (PGL) and poly‐__N__^ε^‐succinyl‐L‐lysine (PSL) in various salt solutions were studied by use of ORD and potentiometric titration measurements. The addition of alkali metal salts to the fully ionized PGL or PSL solution cause

351 00 Padova, Ilaly synopsis Circular Dichroism measurements have been carried out on poly-L-lysine (PLL) and on random copolymers of lysine and phenylalanine a t various pH values and in the presence of different amounts of NaClOr. The results indicate that either the homopolymer or the copolymers

Poly-L-lysine exists as an a-helix at high pH and a random coil at neutral pH. When the a-helix is heated above 27ЊC, the macromolecule undergoes a conformational transition to a b-sheet. In this study, the stability of the secondary structure of poly-L-lysine in solutions subjected to shear flow, a

## Abstract The Raman and infrared spectra of poly(L‐lysine) and poly(DL‐lysine) in solution are reported and the effects of various salts are investigated. The results demonstrate that α‐helix formation in solution is induced by specific salts and the spectral data support the hypothesis of region

Dimer formation of poly(L-lysine HBr) in carbonate buffer a t pD 10.5 was reported in our previous paper [Biopolymers (1981) 20,345-3571. The mechanism of the dimer formation was investigated employing carbon-13 and proton nmr. pD dependence of the 13CC-nmr spectrum of poly(L-lysine HBr) in the pres