Laser excited Raman spectroscopy of biomolecules. 13—conformational study of α-chymotrypsin and trypsin

The a-helical form of poly(L-glutamic acid) [a-poly(Glu)] gives rise to the same amide I and I11 lines as a-poly(y-benzyl-L-glutamate) a t 1652 and 1296 cm-', respectively. The latter is a superposition of the amide I11 line near 1290 cm-l and a line due to a vibrational mode of CH2 groups of the si

## Abstract Raman spectroscopic studies have been carried out on polymers of L‐valine ranging in degree of polymerization (__DP__) from 2 to 930. The spectrum of the hexapeptide (__DP__ = 6) is closely similar over the entire range 40–1750 cm^−1^ to those of polymers with much higher __DP__, and th

## Abstract Reduction of one disulfide bond in bovine pancreatic ribonuclease A, which leaves the enzyme with nearly unimpaired biological activity, makes barely perceptible changes in the aqueous Raman spectrum. Reduction of all four disulfide bonds, which inactivates the enzyme, produces serious

## Abstract X‐ray diffraction and Raman spectra have been studied for crystalline ribonuclease A as a function of temperature, up to 50°C for diffraction and 70°C for the spectra. Changes in the geometry of hydrogen‐bonded tyrosines, disulfide groups and methionine side chains have been followed by

This paper presents the results of Raman and Fourier transform IR studies investigating the interaction between Al(III) and trypsin, carried out in order to understand better how Al(III) can modify the biological properties of this proteolytic enzyme. The results indicate that Al(III) inÑuences the