Intensity of the Infrared Amide I Band of Dipeptides in Heavy Water

## Abstract Intensities and other spectral parameters of infrared amide I and II bands of α‐helical polypeptides in solutions have been determined for poly(γ‐benzylglutamate), poly(γ‐ethylglutamate), and polymethionine in chloroform, polylysine, poly(glutamic acid), and fibrillar protein tropomyosi

## Abstract The intensities and other spectral parameters of the main components of infrared amide bands for the random and anti‐parallel pleated sheet forms have been determined for poly‐S‐carbobenzoxymethylcysteine, poly‐__S__‐carboxymethylcysteine, polylysine and silk fibroin of __Bombyx mori__

## Abstract The values of maximum frequencies, intensities, and other spectral parameters of the main absorption bands of amino acid residue side‐chain groups have been obtained in the 1500–1800‐cm^−1^ region for solutions in heavy water at pD 1–12. It is shown that absorption of residues of aspara

## Abstract ## Background and Objectives The aim of this work was to study the effects of low intensity laser radiation on water transport in the toad bladder in vitro. ## Study Design/Materials and Methods The water flow through the membrane was measured gravimetrically in bag preparations of t

Fourier self-deconvolution (FSD) was performed on protein amide I and II Fourier transform infrared (FTIR) spectra to test if the resultant increased band shape variation would lead to improvements in protein secondary structure prediction with our factor analysis based restricted multiple regressio