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35 results on '"Escherichia coli K12"'

1. Characterization of Electrochemically Active Bacteria Utilizing Redox Response in Microbial Electrolysis Cell

Author

Bachira Abada and Amina Saidi

Subjects
escherichia coli k12, pseudomonas putrifisciens, shewanella oneidensis, thiobacillus denitrificans, direct electron transfer, Renewable energy sources, TJ807-830
Abstract

This study focuses on micro-electrochemical screening to select microbial strains capable of directly transfer electrons to the working electrode dependent on specific enzymatic machinery. The main objective of this work is to select and identify promising strains for allow the bioelectrolysis production of hydrogen. To achieve this goal, microbial composites (artificial biofilms), have been developed using Escherichia coli CGE1 from LCPME. CNRS Fransh, Pseudomonas putrifisciens (CIP 69.13) (CIP, Collection Institut Pasteur, Fransh). Shewanella oneidensis MR-1 (ATCC 700550), and Thiobacillus denitrificans, from (ATCC, American Type Culture Collection), each one enclosed in a matrix carbon nanotubes and protamine matrix, forming an artificial biofilm on buckypaper. Cyclic Voltammetry (CV) measurements were performed over a potential range of +0.4 to -0.7V at 5mV/s under 30°C, using a saturated KCl Ag/AgCl reference electrode and a stainless-steel grid counter electrode. For E. coli and P. putrifisciens, the measurement focused on the oxidation of 20mM glucose, while the former bacteria were growth with and without O2. For S. oneidensis and T. denitrificans the focus was on the reduction of fumarate and 20 mM of NaNOH3+, respectively. As results, E. coli and P. putrifisciens species show no notable electrochemical activity, with no signal of glucose oxidation, due to the absence of type C cytochromes in the cytoplasmic membrane, unlike S. oneidensis and T. denitrificans, that demonstrate a direct electron transfer.

Published
2024
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11. [Electron microscopic study of the nuclear transformations 05 E. coli K12S and K12S (lambda 26) after irradiation with ultraviolet rays and x-rays]

Author

A, RYTER

Subjects
Cell Nucleus, Radiation Effects, Microscopy, Electron, Escherichia coli K12, Ultraviolet Rays, X-Rays, Escherichia coli, Electrons, Lysogeny, Article
Abstract

Nuclear transformations induced in E. coli K12S and K12S(lambda(26)) by ultraviolet radiations and x-rays have been studied with ultrathin sections in the electron microscope. The nucleoplasm keeps its normal aspect during "fragmentation" and during "condensation" of the nucleus into the "vesicular" form. Serial sections show that the "fragmented" nucleus consists in reality of only one very tortuous vacuole. No difference either in the shape or in the fine structure of the nucleus could be observed between the lysogenic strain and the non-lysogenic strain. A high concentration of NaCl has a "condensation" effect on the fragmented nuclei and decreases the induction rate.

Published
1960

22. [Electron microscopic study of the nuclear transformations 05 E. coli K12S and K12S (lambda 26) after irradiation with ultraviolet rays and x-rays].

Author

RYTER A

Subjects
X-Rays, Cell Nucleus radiation effects, Electrons, Escherichia coli radiation effects, Escherichia coli K12, Lysogeny, Microscopy, Electron, Radiation Effects, Ultraviolet Rays
Abstract

Nuclear transformations induced in E. coli K12S and K12S(lambda(26)) by ultraviolet radiations and x-rays have been studied with ultrathin sections in the electron microscope. The nucleoplasm keeps its normal aspect during "fragmentation" and during "condensation" of the nucleus into the "vesicular" form. Serial sections show that the "fragmented" nucleus consists in reality of only one very tortuous vacuole. No difference either in the shape or in the fine structure of the nucleus could be observed between the lysogenic strain and the non-lysogenic strain. A high concentration of NaCl has a "condensation" effect on the fragmented nuclei and decreases the induction rate.

Published
1960

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