1 |
Antifungal action of chitosan in combination with fungicides in vitro and chitosan conjugate with gallic acid on tomatoes against Botrytis cinerea Karpova N, Shagdarova B, Lunkov A, Il'ina A, Varlamov V Biotechnology Letters, 43(8), 1565, 2021 |
2 |
Antifungal effects of lycorine on Botrytis cinerea and possible mechanisms Zhao SX, Guo YH, Wang QN, An B Biotechnology Letters, 43(7), 1503, 2021 |
3 |
Transcriptome analysis of Botrytis cinerea in response to tea tree oil and its two characteristic components Li ZB, Shao XF, Wei YY, Dai K, Xu JY, Xu F, Wang HF Applied Microbiology and Biotechnology, 104(5), 2163, 2020 |
4 |
Grey mould disease of strawberry in northern Germany: causal agents, fungicide resistance and management strategies Weber RWS, Hahn M Applied Microbiology and Biotechnology, 103(4), 1589, 2019 |
5 |
Effects of cold plasma, UV-C or aqueous ozone treatment on Botrytis cinerea and their potential application in preserving blueberry Zhou D, Wang Z, Tu S, Chen S, Peng J, Tu K Journal of Applied Microbiology, 127(1), 175, 2019 |
6 |
Production, purification, characterization and application of a new halotolerant and thermostable endoglucanase of Botrytis ricini URM 5627 Silva TP, de Albuquerque FS, dos Santos CWV, Franco M, Caetano LC, Pereira HJV Bioresource Technology, 270, 263, 2018 |
7 |
Application of ozone during grape drying for the production of straw wine. Effects on the microbiota and compositive profile of grapes Guzzon R, Franciosi E, Moser S, Carafa I, Larcher R Journal of Applied Microbiology, 125(2), 513, 2018 |
8 |
Fluidised-bed spray-drying formulations of Candida sake CPA-1 by adding biodegradable coatings to enhance their survival under stress conditions Carbo A, Torres R, Usall J, Solsona C, Teixido N Applied Microbiology and Biotechnology, 101(21), 7865, 2017 |
9 |
Alteration of oxidative phosphorylation as a possible mechanism of the antifungal action of p-coumaric acid against Botrytis cinerea Morales J, Mendoza L, Cotoras M Journal of Applied Microbiology, 123(4), 969, 2017 |
10 |
Gene Overexpression and RNA Silencing Tools for the Genetic Manipulation of the S-(+)-Abscisic Acid Producing Ascomycete Botrytis cinerea Ding ZT, Zhang Z, Luo D, Zhou JY, Zhong J, Yang J, Xiao L, Shu D, Tan H International Journal of Molecular Sciences, 16(5), 10301, 2015 |