Structure determination of crystalline lobster d-glyceraldehyde-3-phosphate dehydrogenase

Abstract

Single crystal X-ray data were collected on film for the holoenzyme of lobster d-glyceraldehyde-3-phosphate dehydrogenase to 3·0 Å resolution. Films of potassium tetraiodomercurate, K 2HgI 4, comprising a complete low resolution set, with some additional high resolution terms, were given to us by Drs H. C. Watson and L. J. Banaszak. A 3·0 Å high resolution data set was collected of a p-chloromercuri-phenylsulfonate derivative. All these films were processed on a computer controlled Optronics film scanner. The K 2HgI 4 derivative difference Patterson was initially interpreted in terms of four single sites, one for each polypeptide chain, consistent with the previously determined molecular 222 symmetry. Single isomorphous replacement phases were then sufficient to identify other heavy atom sites. Least-squares refined parameters were used to give multiple isomorphous replacement phases at low resolution, and single isomorphous replacement phases at high resolution. The resultant electron density map was oriented along the molecular 2-fold axes and then averaged over all four equivalent subunits. This process produced a much improved electron density map, which could easily be interpreted in terms of a single polypeptide chain per subunit consistent with the known amino acid sequence. The use of non-crystallographic symmetry to improve the electron density map is equivalent to the molecular replacement method. A comparison is also made with other dehydrogenases.