A miniaturized, disposable microbial culture chip has been fabricated by microengineering a highly porous ceramic sheet with up to one million growth compartments. This versatile culture format, with discrete compartments as small as 7 x 7 mu m, allowed the growth of segregated microbial samples at an unprecedented density. The chip has been used for four complementary applications in microbiology. (i) As a fast viable counting system that showed a dynamic range of over 10,000, a low degree of bias, and a high culturing efficiency. (ii) In high-throughput screening, with the recovery of 1 fluorescent microcolonly in 10,000. (iii) In screening for an enzyme-based, non-dominant phenotype by the targeted recovery of Escherichia coli transforme...
We report here an experimentation platform directly made in a commercially available Petri dish for ...
From the microbiologists perspective, microfluidic droplets deliver a paradigm-changing experimental...
International audienceA multiple microfermentor battery was designed for high-throughput recombinant...
A miniaturized, disposable microbial culture chip has been fabricated by microengineering a highly p...
A new microfluidic chip integrated with 120 parallel microbial suspension culture units is demonstra...
Microfluidic systems could, in principle, enable high-throughput breeding and screening of microbial...
Culture conditions including pH, nutrient concentration and temperature strongly influence the prope...
Development of a microfluidic chip for quantitative microbiology. The chip allow for parallel cultur...
A highly porous inorganic material (Anopore) was shown to be an effective support for culturing and ...
This paper describes a microfluidics-based workflow for genetically targeted isolation and cultivati...
ABSTRACT Current in vitro techniques for the culture of microorganisms, and particularly of delicate...
The screening and isolation of target microorganisms from mutated recombinant libraries are crucial ...
Microfluidics has enabled various research projects in the field of microbial single-cell analysis. ...
La microbiologie est la science qui s'attache à l'étude des microorganismes et de leurs propriétés. ...
High-throughput growth phenotyping is receiving great attention for establishing the genotype–phenot...
We report here an experimentation platform directly made in a commercially available Petri dish for ...
From the microbiologists perspective, microfluidic droplets deliver a paradigm-changing experimental...
International audienceA multiple microfermentor battery was designed for high-throughput recombinant...
A miniaturized, disposable microbial culture chip has been fabricated by microengineering a highly p...
A new microfluidic chip integrated with 120 parallel microbial suspension culture units is demonstra...
Microfluidic systems could, in principle, enable high-throughput breeding and screening of microbial...
Culture conditions including pH, nutrient concentration and temperature strongly influence the prope...
Development of a microfluidic chip for quantitative microbiology. The chip allow for parallel cultur...
A highly porous inorganic material (Anopore) was shown to be an effective support for culturing and ...
This paper describes a microfluidics-based workflow for genetically targeted isolation and cultivati...
ABSTRACT Current in vitro techniques for the culture of microorganisms, and particularly of delicate...
The screening and isolation of target microorganisms from mutated recombinant libraries are crucial ...
Microfluidics has enabled various research projects in the field of microbial single-cell analysis. ...
La microbiologie est la science qui s'attache à l'étude des microorganismes et de leurs propriétés. ...
High-throughput growth phenotyping is receiving great attention for establishing the genotype–phenot...
We report here an experimentation platform directly made in a commercially available Petri dish for ...
From the microbiologists perspective, microfluidic droplets deliver a paradigm-changing experimental...
International audienceA multiple microfermentor battery was designed for high-throughput recombinant...