Purification and properties of the isolated honeybee Z-disc

Abstract

Z-discs have been isolated from honeybee indirect flight muscle fibers with 0.43% lactic acid, and have been purified with differential and sucrose density-gradient centrifugation. In the light microscope, isolated Z-discs are pale, round, homogeneous structures with diameters ranging from 2 μm to 9 μm, depending on the nature of the suspending medium. In the electron microscope, small Z-discs (2 μm in diameter) examined on Formvar-coated grids are thick, dense and lacking in detail; swollen Z-discs (6 μm in diameter) have a reticular pattern with 3-fold symmetry. Sectioned isolated Z-discs show fine projections extending about 1300 Å from both surfaces. These projections may represent insoluble stubs of thin filaments or “C” filaments, which connect thick filaments to the Z-band. Although honeybee isolated Z-discs are very resistant structures that remain insoluble in a number of protein solvents and in solutions reported to extract Z-band material from vertebrate fibrils, it has been possible to solubilize them in 7 m-guanidine-HCl, 2.5 m m-dithiothreitol, 2.5 m m-EDTA (pH 7.5), and to resolve their components electrophoretically. Sodium dodecyl sulfate gel electrophoresis studies indicate that there are at least four polypeptides, with molecular weights of 87,000, 113,000, 158,000, and 175,000, localized in the isolated Z-disc. The Z-disc backbone contains no significant quantity of lipid as earlier reports have suggested. Total lipid extracted from Z-disc preparations with chloroform/ methanol comprises less than 1% of the Z-disc protein.