Parthasarathi Chakraborty scite author profile

The success of Mycobacterium species as pathogens depends on their ability to maintain an infection inside the phagocytic vacuole of the macrophage. Although the bacteria are reported to modulate maturation of their intracellular vacuoles, the nature of such modifications is unknown. In this study, vacuoles formed around Mycobacterium avium failed to acidify below pH 6.3 to 6.5. Immunoelectron microscopy of infected macrophages and immunoblotting of isolated phagosomes showed that Mycobacterium vacuoles acquire the lysosomal membrane protein LAMP-1, but not the vesicular proton-adenosine triphosphatase (ATPase) responsible for phagosomal acidification. This suggests either a selective inhibition of fusion with proton-ATPase-containing vesicles or a rapid removal of the complex from Mycobacterium phagosomes.

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Identification of integrated hepatitis B virus DNA and expression of viral RNA in an HBsAg-producing human hepatocellular carcinoma cell line

Chakraborty

Ruiz-Opazo

Shouval

et al. 1980

Nature

226

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Activity of the Anthelmintic Benzimidazoles against Giardia lamblia In Vitro

Edlind

Hang

Chakraborty

1990

Journal of Infectious Diseases

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In vitro growth of the protozoan parasite Giardia lamblia was highly sensitive to certain anthelmintic benzimidazoles. Albendazole and mebendazole were 30- to 50-fold more active than metronidazole and 4- to 40-fold more active than quinacrine. Thiabendazole, a noncarbamate benzimidazole, was less active. Since lack of intestinal absorption makes mebendazole an attractive new antigiardial agent, its in vitro activity was further characterized. At low concentrations (0.05 micrograms/ml) mebendazole had a static effect on G. lamblia growth; however, lethal activity was observed at a concentration fivefold lower (0.3 micrograms/ml) than necessary for the cidal agent metronidazole. Two observations are consistent with a microtubule target for mebendazole. First, attachment of cells to the culture tube, mediated by the ventral disk and flagella, was rapidly disrupted by mebendazole treatment. Second, the characteristic cell structure was grossly distorted by treatment. No mebendazole-resistant G. lamblia were detected in a population of 10(8) cells.

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Unusual ribosomal RNA of the intestinal parasiteGiardia lamblia

Edlind

Chakraborty

1987

Nucl Acids Res

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The anaerobic protozoan Giardia lamblia is a common intestinal parasite in humans, but is poorly defined at molecular and phylogenetic levels. We report here a structural characterization of the ribosomal RNA (rRNA) and rRNA genes of G. lamblia. Gel electrophoresis under native or non-denaturing conditions identified two high molecular weight rRNA species corresponding to the 16-18S and 23-28S rRNAs. Surprisingly, both species (1300 and 2300 nucleotides long, respectively) were considerably shorter than their counterparts from other protozoa (typically 1800 and 3400 nucleotides), and from bacteria as well (typically 1540 and 2900 nucleotides long). Denaturing polyacrylamide gel electrophoresis identified a major low molecular RNA of 127 nucleotides and several minor species, but no molecules with the typical lengths of 5.8S (160 nucleotides) and 5S (120 nucleotides) rRNA. The G. lamblia 1300, 2300, and 127 nucleotide RNAs are encoded within a 5.6 kilobase pair tandemly repeated DNA, as shown by Southern blot analysis and DNA cloning. Thus, the rRNA operon of this eukaryotic organism can be no longer than a typical bacterial operon. Sequence analysis identified the 127 nucleotide RNA as homologous to 5.8S RNA, but comparisons to archaebacterial rRNA suggest that Giardia derived from an early branch in eukaryotic evolution.

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