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This research paper addresses the hypotheses that Kluyveromyces marxianus can be cultured with good alcohol production on different whey-derived matrices, and that the fermented product can be used in order to develop alcoholic beverages with acceptable sensory characteristics by mixtures with yeast-fermented fruit-based matrices. Growth and fermentative characteristics of Kluyveromyces marxianus LFIQK1 in different whey-derived matrices were explored by culturing (24 h, 30°C) on reconstituted whey, demineralized whey, heat-treated whey and milk permeate media. High lactose consumption, ethanol production and yield were observed. Reconstituted whey matrix was selected for mixing with orange or strawberry juices fermented using Saccharomyces cerevisiae to obtain alcoholic beverages (W-OR and W-ST, respectively). Consumer evaluation of beverages was performed using acceptability and Check-All-That-Apply (CATA) questions. Good acceptance was observed, significantly higher for W-ST than for W-OR. CATA questions gave information about organoleptic characteristics of beverages. Penalty analysis showed W-R and W-ST were positively associated with smooth/refreshing and fruity/natural, respectively. Liking was represented, accordingly with penalty analysis, by natural/refreshing. A novel alternative for utilization of whey and whey-related matrices by alcoholic beverages production with natural ingredients is presented.

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The genus Geobacillus is composed of thermophilic bacteria that exhibit diverse biotechnological potentialities. Specifically, Geobacillus stearothermophilus is included as a test bacterium in commercial microbiological inhibition methods, although it exhibits limited sensitivity to aminoglycosides, macrolides, and quinolones. Therefore, this article evaluates the antibiotic susceptibility profiles of five test bacteria (G. stearothermophilus subsp. calidolactis C953, Geobacillus thermocatenulatus LMG 19007, Geobacillus thermoleovorans LMG 9823, Geobacillus kaustophilus DSM 7263 and Geobacillus vulcani 13174). For that purpose, the minimum inhibitory concentrations (MICs) of 21 antibiotics were determined in milk samples for five test bacteria using the radial diffusion microbiological inhibition method. Subsequently, the similarities between bacteria and antibiotics were analyzed using cluster analysis. The dendrogram of this multivariate analysis shows an association between a group formed by G. thermocatenulatus and G. stearothermophilus and another by G. thermoleovorans, G. kaustophilus and G. vulcani. Finally, future microbiological methods could be developed in microtiter plates using G. thermocatenulatus as test bacterium, as it exhibits similar sensitivities to G. stearothermophilus. Conversely, G. vulcani, G. thermoleovorans and G. kaustophilus show higher MICs than G. thermocatenulatus.

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Abstract A novel microbiological system in microtiter plates consisting of five bioassays is presented for the detection and classification of antibiotic residues in milk. The bioassays were optimized for the detection of beta-lactams (Bioassay B: Geobacillus stearothermophilus), macrolides (Bioassay M: Bacillus megaterium with fusidic acid), tetracyclines (Bioassay T: B. megaterium with chloramphenicol), quinolones (Bioassay Q: Bacillus licheniformis) and sulfamides (Bioassay QS: B. licheniformis with trimethoprim) at levels near the maximum residue limits (MRL). The response of each bioassay was interpreted visually (positive or negative) after 4-5.5h of incubation. The system detects and classifies beta-lactams (5 pg/l of amoxicillin, 4 pg/l of ampicillin, 36 pg/l of cloxacillin, 22 pg/l of amoxicillin, 3 pg/l of penicillin, 114 pg/l of cephalexin, 89pg/l of cefoperazone and 116 pg/l of ceftiofur), tetracyclines (98 pg/l of chlortetracycline, 92 pg/l of oxytetracycline and 88 pg/l of tetracycline), macrolides (33 pg/l of erythromycin, 44 pg/l of tilmicosin and 50 pg/l of tylosin), sulfonamides (76 pg/l of sulfadiazine, 85 pg/l of sulfadimethoxine, 77 pg/l of sulfamethoxazole and 87pg/l of sulfathiazole) and quinolones (94 pg/l of ciprofloxacin, 98 pg/l of enrofloxacin and 79 pg/l marbofloxacin). In addition, the specificity values were high for B, T, Q (99.4%), M (98.8%) and QS (98.1%) bioassays. The control of antibiotics through this system can contribute to improving the quality and safety of dairy products.

Resumen Se presenta un novedoso sistema microbiológico en placas de microtitulación compuesto por 5 bioensayos para la detección y clasificación de residuos de antibióticos en leche. Los bioensayos fueron optimizados para la detección de betalactámicos (bioensayo B: Geobacillus stearothermophilus), macrólidos (bioensayo M: Bacillus megaterium con ácido fusídico), tetraciclinas (bioensayo T: Bacillus megaterium con cloranfenicol), quinolonas (bioensayo Q: Bacillus licheniformis) y sulfamidas (bioensayo QS: Bacillus licheniformis con trimetoprima), a niveles cercanos a los límites máximos de residuos (LMR). La respuesta de cada bioensayo se interpretó visualmente (positiva o negativa) después de 4 a 5,5 h de incubación. El sistema detecta y clasifica betalactámicos (5 pg/l de amoxicilina, 4 pg/l de ampicilina, 36 pg/l de cloxacilina, 22 pg/l de amoxicilina, 3 pg/l de penicilina, 114 pg/l de cefalexina, 89 pg/l de cefoperazona y 116 pg/l de ceftiofur), tetraciclinas (98 pg/l de clortetraciclina, 92 pg/l de oxitetraciclina y 88 pg/l de tetraciclina), macrólidos (33 pg/l de eritromicina, 44 pg/l de tilmi-cosina y 50 pg/l de tilosina), sulfamidas (76 pg/l de sulfadiacina, 85 pg/l de sulfadimetoxina, 77 pg/l de sulfametoxazol y 87 pg/l de sulfatiazol) y quinolonas (94 pg/l de ciprofloxacina, 98 pg/l de enrofloxacina y 79pg/l de marbofloxacina). Además, los valores de especificidad fueron altos para los bioensayos B, T, Q (99,4%), M (98,8%) y QS (98,1%). El control de residuos de antibióticos mediante este sistema puede contribuir a mejorar la calidad e inocuidad de los productos lácteos.

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A novel microbiological system in microtiter plates consisting of five bioassays is presented for the detection and classification of antibiotic residues in milk. The bioassays were optimized for the detection of beta-lactams (Bioassay B: Geobacillus stearothermophilus), macrolides (Bioassay M: Bacillus megaterium with fusidic acid), tetracyclines (Bioassay T: B. megaterium with chloramphenicol), quinolones (Bioassay Q: Bacillus licheniformis) and sulfamides (Bioassay QS: B. licheniformis with trimethoprim) at levels near the maximum residue limits (MRL). The response of each bioassay was interpreted visually (positive or negative) after 4-5.5h of incubation. The system detects and classifies beta-lactams (5µg/l of amoxicillin, 4µg/l of ampicillin, 36µg/l of cloxacillin, 22µg/l of amoxicillin, 3µg/l of penicillin, 114µg/l of cephalexin, 89µg/l of cefoperazone and 116µg/l of ceftiofur), tetracyclines (98µg/l of chlortetracycline, 92µg/l of oxytetracycline and 88µg/l of tetracycline), macrolides (33µg/l of erythromycin, 44µg/l of tilmicosin and 50µg/l of tylosin), sulfonamides (76µg/l of sulfadiazine, 85µg/l of sulfadimethoxine, 77µg/l of sulfamethoxazole and 87µg/l of sulfathiazole) and quinolones (94µg/l of ciprofloxacin, 98µg/l of enrofloxacin and 79µg/l marbofloxacin). In addition, the specificity values were high for B, T, Q (99.4%), M (98.8%) and QS (98.1%) bioassays. The control of antibiotics through this system can contribute to improving the quality and safety of dairy products.

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Tetracyclines are used for the prevention and control of dairy cattle diseases. Residues of these drugs can be excreted into milk. Thus, the aim of this study was to develop a microbiological method using Bacillus megaterium to detect tetracyclines (chlortetracycline, oxytetracycline and tetracycline) in milk. In order to approximate the limits of detection of the bioassay to the Maximum Residue Limit (100µg/l) for milk tetracycline, different concentrations of chloramphenicol (0, 1000, 1500 and 2000µg/l) were tested. The detection limits calculated were similar to the Maximum Residue Limits when a bioassay using B. megaterium ATCC 9885 spores (2.8×10(8)spores/ml) and chloramphenicol (2000µg/l) was utilized. This bioassay detects 105µg/l of chlortetracycline, 100µg/l of oxytetracycline and 134µg/l of tetracycline in 5h. Therefore, this method is suitable to be incorporated into a microbiological multi-residue system for the identification of tetracyclines in milk.

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