| Popis: |
Phosphorylase kinase, the first protein kinase discovered, is a key regulatory enzyme in glycogen metabolism. Although its biochemical properties are well characterized, details of its three-dimensional structure and subunit topology are yet to be elucidated. This study describes four characteristic views of the hexadecameric holoenzyme (alpha 4 beta 4 gamma 4 delta 4) as observed in both negatively stained and unstained electron micrographs. The predominant views are the widely reported "butterfly" with two wing-like lobes connected by thin bridges, and the previously described "chalice", composed of "cup" and "stem" segments. Two additional views, a "cube", similar to the previously reported "tetrad", and a "cross" or "X" are less common, but illustrate the overall geometry of the particle. Based on these images, the first three-dimensional model of the enzyme has been constructed. It is composed of four identical protomers that associate with D2 symmetry to form the two major structural elements (the two lobes). Two protomers in a head to head arrangement make up each symmetrical lobe; to complete the holoenzyme, one lobe is inverted and placed perpendicular to the other. Thus, the overall structure has three 2-fold axes of symmetry, and the arrangement of the four protomers approximates a tetrahedron. Each lobe of the model corresponds to a wing of the butterfly projection. Two projections form the chalice: in the intra-lobe orientation, one lobe forms the cup and the other forms the stem, and in the inter-lobe view, one-half of each lobe contributes to each segment of the image. The cube and cross projections result from 90 degrees rotations from the butterfly orientation. In the cube, the distal portions of each lobe are projected separately. In the cross, one lobe is crossed over and is above the other. This model both accounts for and predicts all of the observed microscopic images. |
