J Metuzals
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Explore the profile of J Metuzals including associated specialties, affiliations and a list of published articles.
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31
Citations
342
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Recent Articles
1.
Metuzals J, Chang D, Hammar K, Reese T
J Neurocytol
. 1997 Aug;
26(8):529-39.
PMID: 9350805
The organization of the cortical endoplasmic reticulum in the squid giant axon was investigated by rapid freeze and freeze-substitution electron microscopy, thereby eliminating the effects of fixatives on this potentially...
2.
Metuzals J, Fishman H, Robb I
Biol Bull
. 1995 Oct;
189(2):216-8.
PMID: 8541410
No abstract available.
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Kawahara H, Cadrin M, Perry G, Swierenga S, Metuzals J, Marceau N, et al.
Hepatology
. 1990 Mar;
11(3):435-48.
PMID: 1690170
The role of cytokeratin filaments in the function of hepatocytes was investigated using a nickel-treated hepatocyte in vitro model. Cytokeratin intermediate filaments were selectively dissociated from the cell cortex by...
5.
Metuzals J, Robitaille Y, Houghton S, Gauthier S, LeBlanc R
J Neurocytol
. 1988 Dec;
17(6):827-33.
PMID: 3230400
The cytoplasmic-nuclear interface has been investigated by conventional thin sectioning electron microscopy of neurons from frontal lobe biopsies of 13 patients with Alzheimer's disease. Nine patients were in the early...
6.
Ohta M, Marceau N, Perry G, Manetto V, Gambetti P, Metuzals J, et al.
Lab Invest
. 1988 Dec;
59(6):848-56.
PMID: 2462130
To investigate the relationship of cytokeratin intermediate filaments (IFs) and Mallory bodies (MBs) to the regulatory protein ubiquitin, the griseofulvin-fed mouse was examined by double-label immunocytochemistry. In controls, immunofluorescence of...
7.
Metuzals J, Robitaille Y, Houghton S, Gauthier S, Kang C, LeBlanc R
Cell Tissue Res
. 1988 May;
252(2):239-48.
PMID: 3383209
Brains of nine early and four advanced Alzheimer patients have been investigated, utilizing three approaches to specify the threshold state of Alzheimer's disease (AD). Extensive thin sectioning electron microscopy (EM)...
8.
Metuzals J, Pant H, Gainer H, Eagles P, White N, Houghton S
Cell Tissue Res
. 1988 May;
252(2):249-62.
PMID: 3133114
Using electron microscopy (EM), optical diffraction and image reconstruction techniques, we have demonstrated polymorphism of neurofilamentous network (NFN) in vitro based on phase transitions of the protein assemblies. The specific...
9.
Metuzals J, Hodge A, Lasek R
Cell Tissue Res
. 1983 Jan;
228(3):415-32.
PMID: 6403243
The contribution of the neurofilamentous network to the structure of the squid giant axon was analyzed electron-microscopically. Axial 10-nm filaments cross-linked by radial 5-nm bridges form a network that is...
10.
Allen R, Metuzals J, Tasaki I, Brady S, Gilbert S
Science
. 1982 Dec;
218(4577):1127-9.
PMID: 6183744
Video-enhanced contrast-differential interference contrast microscopy has revealed new features of axonal transport in the giant axon of the squid, where no movement had been detected previously by conventional microscopy. The...