Models of biological molecules based on wave function electron densities

Visualization methods of two-electron wave functions, electron᎐electron correlation plot, proposed previously are developed for magnetic molecules. This method can provide intuitive understanding of the two-body wave function and is a useful tool to compare characteristics of various approximation m

## Abstract Various molecular similarity measures (overlap, Coulomb, kinetic, electrostatic energy) and similarity indices (Carbó, Hodgkin–Richards, Kulczynski, Shape Tanimoto) are applied to the superposition of 3D promolecular electron density (PED) distributions. The original aspect of the paper

A. Salin / Wave functions and collision matrix elements for one-electron diatomic molecules Overlay structure: Optionally overlaid Nature of the physical problem: Determination of the norm of the wave-functions and of radial and rotational coupling No. of magnetic tapes required: none matrix element

## A. Salin / Wave functions and collision matrix elements for one-electron diatomic molecules Overlay structure: Optionally overlaid No.

## Abstract We present __ab‐initio__ density functional theory studies on the interactions of small biologically active molecules, namely NO, CO, O~2~, H~2~O, and NO with the full‐size heme group. Our results show that the small molecule–iron bond is the strongest in carbonyl and the weakest in nit