. . . . "RIV/00027006:_____/99:#####899!RIV06-MZE-00027006" . "740101" . "[59887C543B4D]" . . . "Wien" . . "Wien" . . "Krejzar, V\u00E1clav" . . "RIV/00027006:_____/99:#####899" . "Ervinia amylovora - biochemick\u00E1 identifikace pomoc\u00ED syst\u00E9mu Biolog"@cs . "1999-09-27+02:00"^^ . "170;171" . "Beitr\u00E4ge. 2. Symposium Phytomedizin und Pflanzenschutz im Gartenbau, Wien" . "2"^^ . . "1"^^ . "Universit\u00E4t f\u00FCr Bodenkultur, Wien" . "The Biolog GN MicroPlate SystemTM was evaluated for accuracy in identifying of Erwinia amylovora, causing fire blight disease. Biolog Inc. (Hayward, CA, USA) MicroPlate system for diagnosis of gram-negative and gram-positive bacteria is based on different utilisation of series 95 carbon sources, including alcohols, polymeric chemicals, organic acids, organic acid salts and amino acids by individual taxonomic bacteria groups (Bochner 1989, Jones et al., 1993). All 95 carbon sources are placed in dried state in microplate. Microplate is inoculated by bacterial suspension and incubated for 4 and 24 hr at 28\u00B0C. Positive reaction utilisation of certain carbon source with tested bacteria is demonstrated by increased respiration, which is detected as resultant coloured reaction developed by reduction of tetrazolium viloet to a purple formazan. The resulting reaction pattern is called the bacterium's %22metabolic fingerprint%22 (Jones et al., 1993)." . "Z(MZE-M01-01-03)" . "1"^^ . "Erwinia amylovora - Biochemical Identification using the Biolog System" . . "The Biolog GN MicroPlate SystemTM was evaluated for accuracy in identifying of Erwinia amylovora, causing fire blight disease. Biolog Inc. (Hayward, CA, USA) MicroPlate system for diagnosis of gram-negative and gram-positive bacteria is based on different utilisation of series 95 carbon sources, including alcohols, polymeric chemicals, organic acids, organic acid salts and amino acids by individual taxonomic bacteria groups (Bochner 1989, Jones et al., 1993). All 95 carbon sources are placed in dried state in microplate. Microplate is inoculated by bacterial suspension and incubated for 4 and 24 hr at 28\u00B0C. Positive reaction utilisation of certain carbon source with tested bacteria is demonstrated by increased respiration, which is detected as resultant coloured reaction developed by reduction of tetrazolium viloet to a purple formazan. The resulting reaction pattern is called the bacterium's %22metabolic fingerprint%22 (Jones et al., 1993)."@cs . . "Ervinia amylovora - biochemick\u00E1 identifikace pomoc\u00ED syst\u00E9mu Biolog"@cs . "Erwinia amylovora - Biochemical Identification using the Biolog System" . "Erwinia amylovora, Biochemical Identification, Biolog System,"@en . . "The Biolog GN MicroPlate SystemTM was evaluated for accuracy in identifying of Erwinia amylovora, causing fire blight disease. Biolog Inc. (Hayward, CA, USA) MicroPlate system for diagnosis of gram-negative and gram-positive bacteria is based on different utilisation of series 95 carbon sources, including alcohols, polymeric chemicals, organic acids, organic acid salts and amino acids by individual taxonomic bacteria groups (Bochner 1989, Jones et al., 1993). All 95 carbon sources are placed in dried state in microplate. Microplate is inoculated by bacterial suspension and incubated for 4 and 24 hr at 28\u00B0C. Positive reaction utilisation of certain carbon source with tested bacteria is demonstrated by increased respiration, which is detected as resultant coloured reaction developed by reduction of tetrazolium viloet to a purple formazan. The resulting reaction pattern is called the bacterium's %22metabolic fingerprint%22 (Jones et al., 1993)."@en . . "Erwinia amylovora - Biochemical Identification using the Biolog System"@en . . . "Erwinia amylovora - Biochemical Identification using the Biolog System"@en .