ACCURACY OF DETERMINATION OF POSITION AND WIDTH OF MOLECULAR GROUPS IN BIOLOGICAL AND LIPID-MEMBRANES VIA NEUTRON-DIFFRACTION

Neutron diffraction combined with the deuterium-labelled molecular gro ups of biological and model membrane components allows one to detect w ith high accuracy the structure of these objects. Experiments of this kind are only possible at unique high-flux neutron sources, and the pl anning of neutron-diffraction experiments must take into account some special requirements primarily related to the duration of the experime nt and the accuracy of estimation of membrane structure parameters as a result of finite time of the measurements. This paper deals with the question of statistical accuracy of the position x(0) and width nu of the distribution of deuterium labels in membranes along the normal of their plane, which are determined in a neutron diffraction experiment . It is shown that the accuracy of x(0) and nu estimation does not dep end on membrane constitution. It is dependent only on the scattering a mplitude of the deuterium label, the label position x(0) and the distr ibution width nu. Analytic calculations show that the statistical erro rs Delta x(0) and Delta nu are inversely proportional to the scatterin g amplitude of the label and, as usual, to the square root of measurem ent time. The question of Delta x(0) and Delta nu dependence on the nu mber of structure factors used in the calculations of x(0) and nu is a lso studied. It is shown that, the accuracy of x(0) estimation is appr oximately constant with down to four structure factors used, and, with the number of the factors below four, it deteriorates drastically. An alogous is the behaviour of Delta nu(h(max)) relation with one excepti on: abrupt deterioration of the accuracy occurs beginning with five st ructure factors used. One does not have to measure the highest diffrac tion reflections which takes a much longer time compared with the firs t ones. It is an important result. All the problems mentioned above ha ve also been considered for the case of two different deuterium labels in membranes.