FTIR-ATR investigations of an α-helix to β-sheet conformational transition in poly(l-lysine)

## Abstract Poly(L‐lysine) of various molecular weights between 2700 and 475,000 was spin‐labeled. From the electron spin resonance spectra, the degree of freedom of the nitroxide was determined by calculation of the rotational correlation time as the poly(L‐lysine) underwent the pH‐induced random

## Abstract We used Fourier transform infrared (FTIR) microspectroscopy to investigate pressure‐induced conformational changes in secondary structure of fibrinogen (FBG). Solid state FBG was compressed on a KBr pellet (1KBr method) or between two KBr pellets (2KBr method). The peak positions of the

## Abstract The chain‐length dependence of the α‐helix to β‐sheet transition in poly(L‐lysine) is studied by temperature‐tuned FTIR spectroscopy. This study shows that heterogeneous samples of poly(L‐lysine), comprising polypeptide chains with various lengths, undergo the α–β transition at an inter

Conformational changes of poly(i-ornithine) [(Orn),] were studied in a sodium dodecyl sulfate (NaDodSO,) solution by CD. (Orn), adopted a n unstable and a stable helical structure below and above the NaDodSO, concentration range where &structure was favored, respectively. CD stopped-flow was used to