Electron microscope studies on the structure of collagen fibrils by negative staining

Summary Electron microscope studies on collagen from rat-tail tendon using a negative staining technique have indicated the presence of filaments 15–20 Å in diameter within the fibres. These filaments are thought to correspond to the collagen macromolecule.We would like to thank Prof. R. A. McCance for supplying the specimens of fowl tendon used in this investigation, and Dr. F. H. C. Crick, Dr. S. Fitton-Jackson and Dr. T. Gillman for a number of valuable discussions. One of us (W. J. T.) wishes to thank the Medical Research Council for financial support during this work.     

Electron microscope studies on Tomentella

Summary Tomentella bombycina andT. fuscoferruginosa were examined by routine techniques of light and electron microscopy. Special attention was paid to the ultrastructure and inter-relationships of the generative subicular hyphae and subhymenial hyphae. The cell wall consisted of three layers in the generative subicular hyphae and only one layer in the subhymenial hyphae; this corresponded to the inner layer of the first and originated from it. Cells with two nuclei, normal mitochondria, large vacuoles, sparse endoplasmic reticulum and lomasomes were observed. Sometimes the nuclear membrane had unusually large pores and larger open gaps extending over 1/4 of the circumference. Septa with central dolipore-type pores were present. Clamp connections were not frequent. Finally, certain cells of the subhymenial hyphae appeared full of globular material, presumably lipids.     

Electron microscope studies on Leucothrix mucor

Summary Electron microscopic studies of thin sections of filaments, knots, resettes, gonidia, and gonidial-forming filaments of Leucothrix mucor were carried out. The cell wall is typical of gram-negative bacteria, with a double outer layer of variable thickness, a single thin middle layer which is probably peptidoglycan, and a double inner layer which is the cell membrane. The transverse septa of these filaments show two peptidoglycan layers, and no clearly demarked outer layer. During gonidial formation, there is a gradual rounding up of the cells, and the transverse septa become part of the gonidial wall. The cell membrane contains many invaginations, both along the outer wall and along the transverse septa. Thin sections through rosettes show the holdfast as material which is a heavily-staining amorphous material peripheral to the outer wall layer. Sections through knots show highly contorted cell walls, closely appressed. Fibrillar nuclear material, ribosomes, and storage granules can be seen within the cytoplasmic matrix.     

Electron microscope studies on salivary gland cells

Summary A study of the ultrastructure of the nuclear envelope of the salivary glands cells in the sciarid Bradysia suggests that it probably consists of four membranes, instead of two as found in most cells. The fine structure associated with the pores closely resembles that described in amphibian oocytes by Wischnitzer 1958.British Empire Cancer Campaign.     

Electron microscope studies of glycogen synthase

Summary Glycogen synthase from rabbit muscle was examined with the electron microscope. In preparations of the completely converted glucose-6-phosphate dependent form (GSD) and the independent form (GSI) three structures were observed: toroids, hexagons and stacks of four elements which appear to be aggregates of four toroids. Toroids can be formed from hexagons by radial inward movement of subunits which form the vertices of the hexagons. Analysis of the dimensions of these structures and comparison of the known chemistry of the enzyme to the subunits as inferred from electron microscopy suggests a model for the structure of glycogen synthase. The model allows predictions of types of subunits in the enzyme, their relation to phosphorylatable and -SH sites and the possibilities of control by small effector molecules.     

Electron microscope studies on the morphogenesis of plastids

Comparisons of the ultrastructure of plastids in three kinds of variegated leaves of tomato plants were made. No difference in the structure and development of chloroplasts in normal green leaves and in the green tissue of variegated leaves was found. The albescent tissues of chromosomal genetic variegated leaves contained only aberrant plastids, which were amoeboid or cup-shaped and had large vacuoles in the stroma. Ribosomes were absent from all plastids in this kind of variegated leaves. Three types of plastids, i.e. chloroplasts containing grana, chloroplasts lacking grana, and plastids lacking internal membranes, were present in the pale green tissues of the variegated leaves of extrachromosomal genetic tomato mutants. Depending on the distribution of these plastids, five cell types were observed in these tissues. Ribosomes were present in all plastids in this type of variegated leaves. In the albescent tissues of variegated leaves induced by streptomycin treatment, two kinds of plastids were observed, one containing giant grana and the other lacking organized internal membranes. A common feature of plastids in this albescent tissue was the presence of light stainable ribosomes. It was suggested that the development of variegated leaves may be caused by blocking an early stage of plastid development. This work was carried out in the Department of Botany, University of California, Davis, by Grant-GB-11906 from National Science Foundation of U.S.A.     

Electron microscope studies on the morphogenesis of plastids

Streptomycin sulphate (2 mg/ml) did not affect the formation of proplastids or the elaboration of prolamellar bodies. The plastids of the streptomycin (SM)-treated cotyledons contained both crystalline prolamellar bodies and ribosomes, and were undistinguishable from the plastids of the water-grown cotyledon. However, plastids from dark-grown SM-treated cotyledons were no longer able to differentiate to more advanced stages of development, even after exposure to light. The plastids of light and dark-grown SM-treated cotyledons often contained prolamellar bodies and abnormal giant grana. Variegation developed in the cotyledons germinated in Hoagland's solution plus SM. The plastids in pale green tissue contained stroma-lamellae and one or two giant grana, whereas in those of pale yellow tissue, many osmiophilic globules, large vacuoles and crystal bodies were observed. It is suggested that the formation of prolamellar bodies may depend on cytoplasmic protein synthesis whereas functional stroma- and grana-lamellae may depend on protein synthesis within the plastids. The inhibitory effects of SM on protein synthesis were used as a tool to test this hypothesis. This work was carried out in the Department of Botany, University of California, Davis, by Grant-GB-11906 from National Science Foundation of U.S.A.     

Electron microscope studies of human spermatozoa.

Semen of 40 healthy fertile men aged between 22--44 years was investigated. A triple morphological investigation of the semen was performed in each person. For the ultramicroscopic evaluation the semen specimens were selected according to the quantative criterion of normospermic. The ultrastructure of spermatozoon was described in comphiance with its division into head, neck and tail. The substructure of the axial fibre was separately analyzed. The physiological role of individual organelles of normal spermatozoon in fertilization was discussed.