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Publications

by Keyword: enterobacter

del Moral Zamora B, Azpeitia JMÁ, Farrarons JC, Català PLM, Corbera AH, Juárez A, Samitier J, (2022). Towards Point-of-Use Dielectrophoretic Methods: A New Portable Multiphase Generator for Bacteria Concentration World Congress On Medical Physics And Biomedical Engineering: Radiation Oncology 41, 856-859

This manuscript presents portable and low cost electronic system for specific point-of-use dielectrophoresis applications. The system is composed of two main modules: a) a multiphase generator based on a Class E amplifier, which provides 4 sinusoidal signals (0°, 90°, 180°, 270°) at 1 MHz with variable output voltage up to 10 Vpp (Vm) and an output driving current of 1 A; and b) a dielectrophoresis-based microfluidic chip containing two interdigitated electrodes. The system has been validated by concentrating Escherichia Coli at 1 MHz while applying a continuous flow of 5 ?L/min. Device functionalities were verified under different conditions achieving a 83% trapping efficiency in the best case. © Springer International Publishing Switzerland 2014.

JTD Keywords: bacteria, emulsifier, enterobacter, exopolysaccharide, Bacteria, Bacteria concentrations, Biochemical engineering, Cell concentrator, Class e amplifier, Class-e amplifier, Device functionality, Dielectrophoresis, Electronic equipment, Electronics, Electrophoresis, Emulsifier, Enterobacter, Escherichia coli, Exopolysaccharide, Inter-digitated electrodes, Lab-on-a-chip (loc), Low cost, Low costs, Low-cost electronics, Medical computing, Monosaccharide, Portable device, Power amplifiers, Trapping efficiencies


Paytubi, S., Garcia, J., Juarez, A., (2011). Bacterial Hha-like proteins facilitate incorporation of horizontally transferred DNA Central European Journal of Biology , 6, (6), 879-886

Horizontal gene transfer (HGT), non-hereditary transfer of genetic material between organisms, accounts for a significant proportion of the genetic variability in bacteria. In Gram negative bacteria, the nucleoid-associated protein H-NS silences unwanted expression of recently acquired foreign DNA. This, in turn, facilitates integration of the incoming genes into the regulatory networks of the recipient cell. Bacteria belonging to the family Enterobacteriaceae express an additional protein, the Hha protein that, by binding to H-NS, potentiates silencing of HGT DNA. We provide here an overview of Hha-like proteins, including their structure and function, as well as their evolutionary relationship. We finally present available information suggesting that, by expressing Hha-like proteins, bacteria such as Escherichia coli facilitate HGT incorporation and hence, the impact of HGT in their genetic diversity.

JTD Keywords: Hha, H-NS, HGT DNA, Enterobacteria, Nucleoid-associated proteins, Enterica serovar typhimurium, Histone-like protein, h-ns, Escherichia-coli, Yersinia-enterocolitica, Salmonella-enterica