The crystal structure of amylose–DMSO complex

## Abstract The conformation and crystalline packing of V‐anhydrous amylose has been investigated by a combination of linked atom model building and X‐ray diffraction analysis. The unit cell, the P2~1~2~1~2~1~ space group, the left‐handed sixfold helical conformation with all O(6) in __gt__ rotatio

## Synopsis Complexes of amylose with n-butanol were prepared both as crystalline precipitates and as oriented fibers. These complexes were subjected to x-ray analysis, their unit cells were calculated, and the space group of F212121 was confirmed. n-Butanol complexes exist in both hydrated and an

It is considered that, in the amylose-iodine complex, the helical amylose moiety polarizes the trapped iodine molecules, generating blue color in the product'. The stability of the complex depends2 on such factors as the temperature, the pH, and the additives. The standard free-energy, enthalpy, and

## Abstract The NaNCS complex of the macrotetrolide antibiotic nonactin, which acts as an ionophore with biological and artificial membranes crystallizes in the space group C2/c, __a__ = 15.55, __b__ = 19.59, __c__ = 15.31 Å, β = 90°. The X‐ray crystal structure investigation shows that Na^+^ is co

## Abstract The NH~4~NCS complex of the macrotetrolide antibiotic nonactin crystallizes in the space group P1, __a__ = 12.565, __b__ = 13.115, __c__ = 14.999 Å, α= 91.22, β= 90.10, γ= 104.97°. The X‐ray crystal structure analysis shows that the NH ion is coordinated by hydrogen bonds to the four et