Found 33 results
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Journal Article
J. P. Osborne, R de Orduña, M., Pilone, G. J., and Liu, S. Q., Acetaldehyde metabolism by wine lactic acid bacteria., FEMS Microbiol Lett, vol. 191, no. 1, pp. 51-5, 2000.
Q. Zhou, Qian, Y. P. L., and Qian, M. C., Analysis of volatile phenols in alcoholic beverage by ethylene glycol-polydimethylsiloxane based stir bar sorptive extraction and gas chromatography-mass spectrometry., J Chromatogr A, vol. 1390, pp. 22-7, 2015.
S. Chen, Xu, Y., and Qian, M. C., Aroma characterization of chinese rice wine by gas chromatography-olfactometry, chemical quantitative analysis, and aroma reconstitution., J Agric Food Chem, vol. 61, no. 47, pp. 11295-302, 2013.
F. Yuan and Qian, M. C., Aroma Potential in Early- and Late-Maturity Pinot noir Grapes Evaluated by Aroma Extract Dilution Analysis., J Agric Food Chem, vol. 64, no. 2, pp. 443-50, 2016.
C. Liu, Chen, R., and Su, Y. - C., Bactericidal effects of wine on Vibrio parahaemolyticus in oysters., J Food Prot, vol. 69, no. 8, pp. 1823-8, 2006.
J. P. Osborne, A Morneau, D., and R de Orduña, M., Degradation of free and sulfur-dioxide-bound acetaldehyde by malolactic lactic acid bacteria in white wine., J Appl Microbiol, vol. 101, no. 2, pp. 474-9, 2006.
C. D. Curtin, Borneman, A. R., Chambers, P. J., and Pretorius, I. S., De-novo assembly and analysis of the heterozygous triploid genome of the wine spoilage yeast Dekkera bruxellensis AWRI1499., PLoS One, vol. 7, no. 3, p. e33840, 2012.
F. Yuan and Qian, M. C., Development of C13-norisoprenoids, carotenoids and other volatile compounds in Vitis vinifera L. Cv. Pinot noir grapes., Food Chem, vol. 192, pp. 633-41, 2016.
A. Tseng and Zhao, Y., Effect of different drying methods and storage time on the retention of bioactive compounds and antibacterial activity of wine grape pomace (Pinot Noir and Merlot)., J Food Sci, vol. 77, no. 9, pp. H192-201, 2012.
J. Song, Smart, R., Wang, H., Dambergs, B., Sparrow, A., and Qian, M. C., Effect of grape bunch sunlight exposure and UV radiation on phenolics and volatile composition of Vitis vinifera L. cv. Pinot noir wine., Food Chem, vol. 173, pp. 424-31, 2015.
S. Holt, Cordente, A. G., Williams, S. J., Capone, D. L., Jitjaroen, W., Menz, I. R., Curtin, C. D., and Anderson, P. A., Engineering Saccharomyces cerevisiae to release 3-Mercaptohexan-1-ol during fermentation through overexpression of an S. cerevisiae Gene, STR3, for improvement of wine aroma., Appl Environ Microbiol, vol. 77, no. 11, pp. 3626-32, 2011.
S. Zara, Gross, M. K., Zara, G., Budroni, M., and Bakalinsky, A. T., Ethanol-independent biofilm formation by a flor wine yeast strain of Saccharomyces cerevisiae., Appl Environ Microbiol, vol. 76, no. 12, pp. 4089-91, 2010.
A. G. Cordente, Curtin, C. D., Varela, C., and Pretorius, I. S., Flavour-active wine yeasts., Appl Microbiol Biotechnol, vol. 96, no. 3, pp. 601-18, 2012.
S. Zara, Bakalinsky, A. T., Zara, G., Pirino, G., Demontis, M. Antonietta, and Budroni, M., FLO11-based model for air-liquid interfacial biofilm formation by Saccharomyces cerevisiae., Appl Environ Microbiol, vol. 71, no. 6, pp. 2934-9, 2005.
C. D. Curtin, Bellon, J. R., Henschke, P. A., Godden, P. W., and Lopes, M. A. de Barro, Genetic diversity of Dekkera bruxellensis yeasts isolated from Australian wineries., FEMS Yeast Res, vol. 7, no. 3, pp. 471-81, 2007.
S. Zara, G Farris, A., Budroni, M., and Bakalinsky, A. T., HSP12 is essential for biofilm formation by a Sardinian wine strain of S. cerevisiae., Yeast, vol. 19, no. 3, pp. 269-76, 2002.
A. Wells and Osborne, J. P., Impact of acetaldehyde- and pyruvic acid-bound sulphur dioxide on wine lactic acid bacteria., Lett Appl Microbiol, vol. 54, no. 3, pp. 187-94, 2012.
C. D. Curtin, Langhans, G., Henschke, P. A., and Grbin, P. R., Impact of Australian Dekkera bruxellensis strains grown under oxygen-limited conditions on model wine composition and aroma., Food Microbiol, vol. 36, no. 2, pp. 241-7, 2013.
G. Winter and Curtin, C. D., In situ high throughput method for H(2)S detection during micro-scale wine fermentation., J Microbiol Methods, vol. 91, no. 1, pp. 165-70, 2012.
J. P. Osborne and Edwards, C. G., Inhibition of malolactic fermentation by a peptide produced by Saccharomyces cerevisiae during alcoholic fermentation., Int J Food Microbiol, vol. 118, no. 1, pp. 27-34, 2007.
A. R. Borneman, Zeppel, R., Chambers, P. J., and Curtin, C. D., Insights into the Dekkera bruxellensis genomic landscape: comparative genomics reveals variations in ploidy and nutrient utilisation potential amongst wine isolates., PLoS Genet, vol. 10, no. 2, p. e1004161, 2014.
V. Gourineni, Shay, N. F., Chung, S., Sandhu, A. K., and Gu, L., Muscadine grape (Vitis rotundifolia) and wine phytochemicals prevented obesity-associated metabolic complications in C57BL/6J mice., J Agric Food Chem, vol. 60, no. 31, pp. 7674-81, 2012.
A. G. Cordente, Cordero-Bueso, G., Pretorius, I. S., and Curtin, C. D., Novel wine yeast with mutations in YAP1 that produce less acetic acid during fermentation., FEMS Yeast Res, vol. 13, no. 1, pp. 62-73, 2013.
Q. Deng and Zhao, Y., Physicochemical, nutritional, and antimicrobial properties of wine grape (cv. Merlot) pomace extract-based films., J Food Sci, vol. 76, no. 3, pp. E309-17, 2011.
J. Song, Smart, R. E., Dambergs, R. G., Sparrow, A. M., Wells, R. B., Wang, H., and Qian, M. C., Pinot Noir wine composition from different vine vigour zones classified by remote imaging technology., Food Chem, vol. 153, pp. 52-9, 2014.