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Rapid presumptive identification of the Mycobacterium tuberculosis-bovis complex by radiometric determination of heat stable urease

Journal Article · · Am. J. Med. Technol.; (United States)
OSTI ID:6915555
; ;

Simple and rapid Bactec methodologies for the determination of neat (unaltered) and heat stable urease activity of mycobacteria are presented. Clinical isolates (63) and stock cultures (32)--consisting of: M. tuberculosis (19), M. bovis (5), M. kansasii (15), M. marinum (4), M. simiae (3), M. scrofulaceum (16), M. gordonae (6), M. szulgai (6), M. flavescens (1), M. gastri (1), M. intracellulare (6), M. fortuitum-chelonei complex (12), and M. smegmatis (1)--were tested for neat urease activity by Bactec radiometry. Mycobacterial isolates (50-100 mg wet weight) were incubated at 35 degrees C for 30 minutes with microCi14C-urea. Urease-positive mycobacteria gave Bactec growth index (GI) values greater than 100 units, whereas urease-negative species gave values less than 10 GI units. Eighty-three isolates possessing neat urease activity were heated at 80 degrees C for 30 minutes followed by incubation at 35 degrees C for 30 minutes with 1 microCi14C-urea. Mycobacterium tuberculosis-bovis complex demonstrated heat-stable urease activity (GI more than 130 units) and could be distinguished from mycobacteria other than tuberculosis (MOTT), which gave GI values equal to or less than 40 units.

Research Organization:
Department of Pathology, Schumpert Medical Center, Shreveport, LA
OSTI ID:
6915555
Journal Information:
Am. J. Med. Technol.; (United States), Journal Name: Am. J. Med. Technol.; (United States) Vol. 49:12; ISSN AJMTA
Country of Publication:
United States
Language:
English

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Related Subjects

550701* -- Microbiology-- Tracer Techniques
59 BASIC BIOLOGICAL SCIENCES
AMIDINASES
BACTERIA
CARBON 14 COMPOUNDS
CHEMICAL ANALYSIS
ENZYME ACTIVITY
ENZYMES
HYDROLASES
ISOTOPE APPLICATIONS
LABELLED COMPOUNDS
MICROORGANISMS
MYCOBACTERIUM
MYCOBACTERIUM TUBERCULOSIS
NON-PEPTIDE C-N HYDROLASES
QUANTITATIVE CHEMICAL ANALYSIS
RADIOMETRIC ANALYSIS
SEPARATION PROCESSES
TRACER TECHNIQUES
UREASE