An x-ray examination of poly-O-acetyl-L-serine

Poly(0-benzyl-L-serine) of degree. polymerization 90 in oriented film cast from dichloroacetic acid (DC,4) solution yielded the x-ray patterns of the intramolecular cross-/3 form, in which the extended segments stand upward and downward to the surfaces of a thin film. These x-ray photographs further

## Abstract An X‐ray study of the synthetic polypeptide poly(L‐homoarginine hydrochloride) has been made to investigate whether, like the chemically related polypeptides poly(L‐lysine hydrochloride), poly(L‐arginine hydrochloride), and poly(L‐ornithine hydrobromide), it can undergo conformational t

## Abstract A structural study of the synthetic polypeptide poly(L‐lysine hydrobromide) has been made by X‐ray fiber techniques. The investigation was undertaken to determine whelther this polymer undergoes conformational transitions as a function of hydration in a manner similar to other chemicall

## Abstract An X‐ray study has been made of the synthetic polypeptide poly‐L‐ornithine hydrobromide to investigate whether, like the chemically related polypeptides poly‐L‐lysine and poly‐L‐arginine hydrochlorides, it can undergo conformational changes merely from variations in its degree of hydrat

An x-ray study has been made of polyarginine hydrochloride to investigate whether, like polylysine hydrochloride, it can undergo conformational changes merely from variations in the degree of hydration. X-ray powder and fiber photographs of specimens containing up to about five molecules of water pe

## Abstract X‐ray diffraction studies have been made on the polytripeptide poly(L‐prolyl‐L‐α‐phenylglycyl‐L‐proline). Its structure has been found to be helical, with a poly(L‐proline) II conformation, packed in an orthorhombic lattice, space group P2~1~2~1~2, with __a__ = 14.3 Å, __b__ = 13.5 Å, a