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Engineering Microbial Physiology with Synthetic Polymers: Cationic Polymers Induce Biofilm Formation in Vibrio cholerae and Downregulate the Expression of Virulence Genes
Nicolas Perez-Soto, Lauren Moule, Daniel N. Crisan, Ignacio Insua, Leanne M. Taylor-Smith, Kerstin Voelz, Francisco Fernandez-Trillo, Anne Marie Krachler
doi: https://doi.org/10.1101/066563
Nicolas Perez-Soto
Lauren Moule
Daniel N. Crisan
Ignacio Insua
Leanne M. Taylor-Smith
Kerstin Voelz
Francisco Fernandez-Trillo
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Posted February 10, 2017.
Engineering Microbial Physiology with Synthetic Polymers: Cationic Polymers Induce Biofilm Formation in Vibrio cholerae and Downregulate the Expression of Virulence Genes
Nicolas Perez-Soto, Lauren Moule, Daniel N. Crisan, Ignacio Insua, Leanne M. Taylor-Smith, Kerstin Voelz, Francisco Fernandez-Trillo, Anne Marie Krachler
bioRxiv 066563; doi: https://doi.org/10.1101/066563
Engineering Microbial Physiology with Synthetic Polymers: Cationic Polymers Induce Biofilm Formation in Vibrio cholerae and Downregulate the Expression of Virulence Genes
Nicolas Perez-Soto, Lauren Moule, Daniel N. Crisan, Ignacio Insua, Leanne M. Taylor-Smith, Kerstin Voelz, Francisco Fernandez-Trillo, Anne Marie Krachler
bioRxiv 066563; doi: https://doi.org/10.1101/066563
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