Jerome J. Paulin scite author profile

SYNOPSIS. Elaboration of ciliated feeding organelles in the protozoon Stentor coeruleus was reinvestigated for the first time by scanning electron microscopy which gives the most realistic 3‐dimensional images. Parallel transmission EM studies of synchronized regenerating stentors gave further ultrastructural details of stomatogenesis, while also confirming the expectation that in the structure of its kineties this now classical experimental object does not differ from other species of Stentor previously studied. Within 2 hr after the stimulus to regeneration, several generations of new kinetosomes for the oral primordium are produced, first in association with kinetosomes of kineties at the restricted primordium site. These kinetosomes rapidly sprout membranellar cilia as well as subpellicular microtubules but are still randomly oriented (anarchic field). The forming membranellar band increases from its center‐line to both sides while it grows in length. Young cilia are blunt‐ended. Recession of the early anlage occurs without rupture of the pellicle; soon apparent is the clear border stripe of unknown function along the right side of the membranellar band. Instantaneous fixation of beating cilia in early primordia revealed random beating, with coordination and presumably membranellar organization not yet attained. In late anlagen there are 2 types of metachronal rhythm: transversely from cilium to cilium across any given membranelle, as well as the easily observable serial beating of membranelles along the entire band. A single file of cilia leads the subsequent cytostomal invagination. The posterior end of the membranellar band then follows to line the cytopharynx.

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The cellulolytic enzyme complex of Clostridium thermocellum is very large

Coughlan

Hon-Nami

Hon-nami

et al. 1985

Biochemical and Biophysical Research Communications

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Trypanosoma cruzi Infection of BSC‐1 Fibroblast Cells Causes Cytoskeletal Disruption and Changes in Intracellular Calcium Levels

Low

Paulin

Keith

1992

The Journal of Protozoology

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The disruption of vimentin and actin filaments of host BSC-1 fibroblast cells by Trypanosoma cruzi was investigated using a mouse monoclonal anti-vimentin antibody and rhodamine phalloidin, respectively. Indirect immunofluorescence microscopy demonstrated that infection of BSC-1 cells by T. cruzi caused disruption of both cytoskeletal components. The disruption was greater as infection progressed. Mechanisms other than mechanical ones may play a role in the disruption since disrupted cytoskeletal elements were well removed from the parasites. In the determination of intracellular calcium concentrations using Fura-2 AM, infected and uninfected cells both showed an initial increase in intracellular calcium levels. At later times of infection (3 to 5 days), intracellular calcium levels of infected cells were significantly lower than those of control cells. There was no specific localization of intracellular calcium in the infected host cells as determined by image analysis.

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The chondriome of selected trypanosomatids. A three-dimensional study based on serial thick sections and high voltage electron microscopy.

Paulin¹

1975

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The unitary nature of the chondriome of two species of trypanosomatids, Blastocrithidia culicis and Trypanosoma eruzi, has been demonstrated by utilizing serial thick-sectioning techniques combined with high voltage electron microscopy. Profiles of mitochondrial elements seen in thin sections and suspected to be parts of a continuum were confirmed by serial thick sectioning (0.25-0.50 um thick) and stereopair analysis to be parts of the same mitochondrion. Three-dimensional models obtained from tracings of mitochondrial profiles on cellulose acetate reveal the mitochondrion of B. culicis to consist of a posterior mass with six tubular extensions extending upward and terminating in the anterior apex. The kinetoplast was found suspended between two of the tubular extensions, or less frequently, protruding as a nodule from one of the extensions. A bifurcation of one of the extensions was found in some specimens. The mitochondrion of T.. cruzi consists of a triangular-shaped convoluted tubule, the base being the kinetoplast portion while the apex is directed posteriorly. The mitochondrion bifurcates behind the flagellar pocket, lateral to the kinetoplast, sending two entwined extensions into the tenuous anterior apex. Whether the mitochondrion of T. cruzi is unitary in the trypomastigote form was not determined in this study, since only epimastigote forms were used.For over a decade it has been speculated that the chondriome of the trypanosomatids is unitary, i.e., morphologically either a simple vermiform organelle or a highly branched reticulum. This hypothesis is based on random electron micrographs of fortuitous sections or light microscopical observations demonstrating NADH-tetrazolium reductase activity (17). These techniques provide only limited data, for the former is abstracting a three-dimensional object from two dimensions while the latter suffers from lack of resolution. Vickerman (18,19) and Brown et al. (4) have postulated that in the T.brucei group of trypanosomes pleomorphism may be the result of changes in mitochondrial configurations in response to metabolic changes elicited by host and vector environments. Culture or insect forms have reticulated mitochondria while their blood stream counterparts have simple tubularshaped mitochondria. Growth and/or regression of the mitochondrion elicit morphotypic epimastigote forms, respectively.The purpose of this investigation is to show that 40~

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Presence and Localization of Vinculin in Giardia

Narcisi

Paulin²,

Fechheimer³

1994

The Journal of Parasitology

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A requisite element of pathogenicity in Giardia infections is the parasites' ability to adhere to the intestinal epithelial brush border. The presence of vinculin in Giardia was studied because this protein is known to link the cytoskeleton to the plasma membrane and is localized at adhesion foci in many cell-cell and cell-substrate contact sites. Actin, alpha-actinin, and vinculin were identified in Giardia by western blot analysis. Giardia trophozoites attached to glass substrates were examined by interference reflection microscopy (IRM) and immunofluorescence. The IRM defined the lateral crest, bare area, and overlap region of the ventral disk, as well as the ventrolateral flange and lateral shields as close contact areas between parasite and substrate. These close contact regions were then correlated with immunofluorescence localization of actin, alpha-actinin, and vinculin. Actin was seen in the lateral crest, while alpha-actinin was observed in the ventral disc periphery and lateral shields. Vinculin was viewed at the bare and overlap areas of the ventral disc and portions of the lateral crest, as well as the ventrolateral flange and lateral shields. The correspondence of close contact sites with vinculin localization suggests a role for vinculin in Giardia attachment and adherence.

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Jerome J. Paulin

Oral Regeneration in the Ciliate Stentor coeruleus: A Scanning and Transmission Electron Optical Study

The cellulolytic enzyme complex of Clostridium thermocellum is very large

Trypanosoma cruzi Infection of BSC‐1 Fibroblast Cells Causes Cytoskeletal Disruption and Changes in Intracellular Calcium Levels

The chondriome of selected trypanosomatids. A three-dimensional study based on serial thick sections and high voltage electron microscopy.

Presence and Localization of Vinculin in Giardia

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