Your search keyword '"A.B. Sarr"' showing total 2 results

1. An in vitro study of theaflavins extracted from black tea to neutralize bovine rotavirus and bovine coronavirus infections

Author

Patrick G. Grant, Gerald N. Woode, J.R Belakere, K.J Clark, C.L Swaggerty, A.B. Sarr, and Timothy D. Phillips

Subjects

Rotavirus, Models, Molecular, Molecular Conformation, Cattle Diseases, Biology, medicine.disease_cause, Microbiology, High-performance liquid chromatography, Antiviral Agents, Article, Catechin, Rotavirus Infections, Cell Line, chemistry.chemical_compound, Theaflavin gallate, Neutralization, Gallic Acid, medicine, Animals, Biflavonoids, Theaflavin, Chromatography, High Pressure Liquid, Bovine coronavirus, Coronavirus, EC50, Chelating Agents, Coronavirus, Bovine, Chromatography, General Veterinary, Tea, Biological activity, General Medicine, Biochemistry, chemistry, Cattle, Coronavirus Infections

Abstract

Crude theaflavin was extracted from black tea and then fractionated by HPLC into five components (initial peaks (IP), TF1, TF2A, TF2B, and TF3). The crude extract and the various fractions of theaflavin were collected and tested, individually and in combination, for antirotaviral activity. The mean effective concentration (EC50) was calculated and compared. Activity varied from the most active being the uncharacterized theaflavin-like initial peaks (IP) with an EC50 of 0.125 microgram/ml to the least active being theaflavin-3 monogallate (TF2A) with an EC50 of 251.39 micrograms/ ml. The combination of TF1 + TF2A + TF2B + TF3 was more active than the sum of the activities of these four fractions individually, indicating synergism among the peaks. Only the crude extract was assayed for activity against coronavirus; the EC50 was 34.7 micrograms/ml.

Published

1998

2. In vitro studies on the use of clay, clay minerals and charcoal to adsorb bovine rotavirus and bovine coronavirus

Author

Gerald N. Woode, Patrick G. Grant, K.J Clark, A.B. Sarr, and Timothy D. Phillips

Subjects

Rotavirus, viruses, Reoviridae, Cattle Diseases, Biology, medicine.disease_cause, Microbiology, Virus, Rotavirus Infections, Article, medicine, Coronaviridae, Animals, Charcoal, Coronavirus, Bovine coronavirus, Infectivity, Coronavirus, Bovine, Minerals, General Veterinary, Viral adsorbers, virus diseases, General Medicine, biology.organism_classification, Virology, visual_art, visual_art.visual_art_medium, Clay, Aluminum Silicates, Cattle, Adsorption, Coronavirus Infections

Abstract

Rotaviruses are the leading cause and coronaviruses are the major contributors of acute gastroenteritis in the young of various mammalian and avian species. Despite numerous trials and decades of research, vaccines have limited efficacy particularly for calves. As an alternative method of controlling infection, we have investigated broad spectrum antiviral agents that are not discriminatory among various viruses. This report involves testing a variety of adsorbent agents including charcoal, clay, and clay minerals to adsorb rotavirus and coronavirus in vitro. Results revealed that all the adsorbent agents had good to excellent capability of adsorbing rotavirus and excellent capability of adsorbing coronavirus. Percent adsorptions ranged from 78.74% to 99.89% for rotavirus and 99.99% for coronavirus; while sand (negative control) was < 0.01%. A high affinity binding was present as determined by a low percent desorption (0.06-3.09%). However, the adsorbent bound virus complex retained, and may have actually enhanced, infectivity.

Published

1998