Structural association of Bax with nuclear matrix and cytomatrix revealed by embedment-free immunogold electron microscopy

Bax is a cellular protein functioning as a promoter of apoptosis. It is ultrastructurally associated with mitochondrial membranes, where it participates in permeability transition pore formation. By employing embedment-free electron microscopy (EFEM), we present evidence that Bax is also associated with the nuclear matrix and cytomatrix of cultured human tumour cells (COLO 205, PA-1, U-373 MG). Extracted cellular scaffolds were probed with anti-Bax antibody using the immunogold electron microscopy technique. Bax immunoreactivity was found on 10-15 nm intermediate filaments of karyo- and cytoskeleton, stretched between the nucleus, nuclear lamina and cell periphery. Bax immunoreactivity was preferentially localized to certain areas of filaments (spot-like). The target molecules for Bax binding in the cellular matrix and their physiological significance remain to be established.     

A new look at the acetolysis method

The acetolysis method intreduced byGunnar Erdtman is still a very welcome and highly successful technique in palynology. However, acetolysis destroys all pollen material with the exception of sporopollenin that forms the outer pollen wall, the exine. Modern palynology in its application to plant systematics and phylogeny must consider all sporoderm characters, not only those of the exine. The neglect of the intine may distort some principal palynological aspects. This is illustrated by cases of total breakdown or gross modification of thin exine structures (e.g. inBeilschmiedia, Strelitzia) and by the clarification of apertures (e.g.,Polyalthia, Fissistigma, Calluna). In our view the investigation of both acetolysed and non-acetolysed pollen is obligatory for a well balanced view of pollen structure and function.     

A new method of the immunohistochemical detection of cellular antigens for light and electron microscopy

Summary A new immunohistochemical method for light and electron microscopy of tissue- and cell-specific antigens by using ferric colloid-labeled antibody is presented. The antibodies labeled with the cationic cacodylate ferric colloid are stable and bind specifically to the target antigens to show clearly the site of antigens in tissue sections and on free cells by Prussian blue reaction for light microscopy and by the specific figure of electron opaque ferric colloid particles for electron microscopy. The staining procedure is very simple and it gives clear picture. So the method will be of beneficial for general laboratory use in immuno-histochemical researches.     

A new method of the immunohistochemical detection of cellular antigens for light and electron microscopy

A new immunohistochemical method for light and electron microscopy of tissue- and cell-specific antigens by using ferric colloid-labeled antibody is presented. The antibodies labeled with the cationic cacodylate ferric colloid are stable and bind specifically to the target antigens to show clearly the site of antigens in tissue sections and on free cells by Prussian blue reaction for light microscopy and by the specific figure of electron opaque ferric colloid particles for electron microscopy. The staining procedure is very simple and it gives clear picture. So the method will be of beneficial for general laboratory use in immunohistochemical researches.     

A new side opening on prolyl oligopeptidase revealed by electron microscopy

Prolyl oligopeptidase (POP) has gained importance as a target for the treatment of neuropsychiatric diseases and cognitive disturbances. Therefore, a variety of strategies are currently used to identify POP inhibitors. Here we performed electron microscopy (EM) studies of human POP. Our data reveal for the first time the presence of a new side opening in POP that was not observed in any of the crystallographic structures described to date. Finally, molecular dynamics, the relevant normal modes that contribute to the fluctuation of the catalytic triad residues and the algorithm CAVERN also support the existence of a new large side opening on POP.     

Serial block face‐scanning electron microscopy: A tool for studying embryonic development at the cell–matrix interface

Studies of gene regulation, signaling pathways, and stem cell biology are contributing greatly to our understanding of early embryonic vertebrate development. However, much less is known about the events during the latter half of embryonic development, when tissues comprising mostly extracellular matrix (ECM) are formed. The matrix extends far beyond the boundaries of individual cells and is refractory to study by conventional biochemical and molecular techniques; thus major gaps exist in our knowledge of the formation and three‐dimensional (3D) organization of the dense tissues that form the bulk of adult vertebrates. Serial block face‐scanning electron microscopy (SBF‐SEM) has the ability to image volumes of tissue containing numerous cells at a resolution sufficient to study the organization of the ECM. Furthermore, whereas light microscopy was once relatively straightforward and electron microscopy was performed in specialist laboratories, the tables are turned; SBF‐SEM is relatively straightforward and is becoming routine in high‐end resolution studies of embryonic structures in vivo. In this review, we discuss the emergence of SBF‐SEM as a tool for studying embryonic vertebrate development. Birth Defects Research (Part C) 105:9–18, 2015. © 2015 Wiley Periodicals, Inc.     

A new method for isolation of leukocytes from the peripheral blood of amphibians [Bufo himalayanus, (Gunther)] and study of their surface morphology by scanning electron microscopy

Using percoll as the density gradient, a new single step method to isolate leukocytes from the peripheral blood of amphibians (B. himalayanus) has been described. Isolated leukocytes were photographed under the scanning electron microscope and an attempt has been made to characterize the leukocyte population on the basis of surface morphology. Apart from regular blood cell types, B. himalayanus have slender, elongated and slightly curved leukocyte type cells in their peripheral blood. Such slender elongated cells were absent in the blood of a related species B. stomnaticus and hence could not be categorized under the known blood cell types.