Lisa F. Gotow scite author profile

The va gene is used in commercial Burley tobacco cultivars including cv TN 86 to confer resistance to tobacco vein mottling virus (TVMV) and, to some extent, other potyviruses. A naturally occurring strain of TVMV (TVMV-S), which overcomes this resistance, was isolated from TN 86 plants. To investigate the mechanism by which TVMV-S overcomes va gene resistance, a cDNA clone encompassing the complete genome of TVMV-S was produced. Using chimeric transcripts combining regions of TVMV-S and regions of the wild-type strain (TVMV-WT) to which TN 86 is resistant, it was demonstrated that a domain within the VPg protein is responsible for overcoming va resistance in TN 86. DNA sequence analysis revealed six amino acid differences between the two strains of TVMV within this domain. Inclusion of sequences for four of the TVMV-S VPg amino acids was sufficient to confer the resistance-overcoming phenotype to all corresponding transcripts. Coinoculation experiments suggested that the resistance of TN 86 to TVMV-WT was not due to the induction of a general host defense response. The results are compatible with the hypothesis that VPg must assume an appropriate configuration in order to interact with appropriate host components and facilitate systemic virus movement.

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Oligosaccharide Sequence of Human Breast Cancer Cell Heparan Sulfate with High Affinity for Laminin

Parthasarathy

Gotow²,

Bottoms³

et al. 1998

Journal of Biological Chemistry

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A Mutational Analysis of Residues in Cholera Toxin A1 Necessary for Interaction with Its Substrate, the Stimulatory G Protein Gsα

Jobling

Gotow

Yang³

et al. 2015

Toxins

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Pathogenesis of cholera diarrhea requires cholera toxin (CT)-mediated adenosine diphosphate (ADP)-ribosylation of stimulatory G protein (Gsα) in enterocytes. CT is an AB5 toxin with an inactive CTA1 domain linked via CTA2 to a pentameric receptor-binding B subunit. Allosterically activated CTA1 fragment in complex with NAD+ and GTP-bound ADP-ribosylation factor 6 (ARF6-GTP) differs conformationally from the CTA1 domain in holotoxin. A surface-exposed knob and a short α-helix (formed, respectively, by rearranging “active-site” and “activation” loops in inactive CTA1) and an ADP ribosylating turn-turn (ARTT) motif, all located near the CTA1 catalytic site, were evaluated for possible roles in recognizing Gsα. CT variants with one, two or three alanine substitutions at surface-exposed residues within these CTA1 motifs were tested for assembly into holotoxin and ADP-ribosylating activity against Gsα and diethylamino-(benzylidineamino)-guanidine (DEABAG), a small substrate predicted to fit into the CTA1 active site). Variants with single alanine substitutions at H55, R67, L71, S78, or D109 had nearly wild-type activity with DEABAG but significantly decreased activity with Gsα, suggesting that the corresponding residues in native CTA1 participate in recognizing Gsα. As several variants with multiple substitutions at these positions retained partial activity against Gsα, other residues in CTA1 likely also participate in recognizing Gsα.

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Parthasarathy

Gotow

Bottoms

et al. 2000

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Altered lipoprotein lipase regulation associated with diabetes leading to the development of hypertriglyceridemia might be attributed to possible changes in content and the fine structure of heparan sulfate and its associated lipoprotein lipase. Adipocyte cell surface is the primary site of synthesis of lipoprotein lipase and the enzyme is bound to cell surface heparan sulfate proteoglycans via heparan sulfate side chains. In this study, the effect of diabetes on the production of adipocyte heparan sulfate and its sulfation (especially N-sulfation) were examined. Mouse 3T3-L1 adipocytes were exposed to high glucose (25 mM) and low glucose (5.55 mM) in the medium and cell-associated heparan sulfate was isolated and characterized. A significant decrease in total content of heparan sulfate was observed in adipocytes cultured under high glucose as compared to low glucose conditions. The degree of N-sulfation was-assessed through oligosaccharide mapping of heparan sulfate after chemical cleavages involving low pH (1.5) nitrous acid and hydrazinolysis/high pH (4.0) nitrous acid treatments; N-sulfation was found to be comparable between the adipocyte heparan sulfates produced under these glucose conditions. The activity and message levels for N-deacetylase/N-sulfotransferase, the enzyme responsible for N-sulfation in the biosynthesis of heparan sulfate, did not vary in adipocytes whether they were exposed to low or high glucose. While most cells or tissues in diabetic situations produce heparan sulfate with low-charge density concomitant with a decrease in N-sulfation, adipocyte cell system is an exception in this regard. Heparan sulfate from adipocytes cultured in low glucose conditions binds to lipoprotein lipase by the same order of magnitude as that derived from high glucose conditions. It is apparent that adipocytes cultured under high glucose conditions produce diminished levels of heparan sulfate (without significant changes in N-sulfation). In conclusion, it is possible that the reduction in heparan sulfate in diabetes could contribute to the decreased levels of heparan sulfate associated lipoprotein lipase, leading to diabetic hypertriglyceridemia.

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Lisa F. Gotow

A cluster of novel serotonin receptor 3-like genes on human chromosome 3

Variations in the VPg Protein Allow a Potyvirus to OvercomevaGene Resistance in Tobacco

Oligosaccharide Sequence of Human Breast Cancer Cell Heparan Sulfate with High Affinity for Laminin

A Mutational Analysis of Residues in Cholera Toxin A1 Necessary for Interaction with Its Substrate, the Stimulatory G Protein Gsα

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