Bacterial cells can be characterized in terms of their cell properties using flow cytometry. Flow cytometry is able to deliver multiparametric measurements of up to 50,000 cells per second. However, there has not yet been a thorough survey concerning the identification of the population to which bacterial single cells belong based on flow cytometry data. This paper not only aims to assess the quality of flow cytometry data when measuring bacterial populations, but also suggests an alternative approach for analyzing synthetic microbial communities. We created so-called in silico communities, which allow us to explore the possibilities of bacterial flow cytometry data using supervised machine learning techniques. We can identify single cells ...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
High-throughput amplicon sequencing has become a well-established approach for microbial community p...
Bacterial cells can be characterized in terms of their cell properties using flow cytometry. Flow cy...
<div><p>Bacterial cells can be characterized in terms of their cell properties using flow cytometry....
Bacterial cells can be characterized in terms of their cell properties using flow cytometry. Flow cy...
Flow cytometry is able measure up to 50.000 cells in various dimensions in seconds of time. This lar...
Single cells can be characterized in terms of their phenotypic properties using flow cytometry. Howe...
Flow cytometry is an important technology for the study of microbial communities. It grants the abil...
Cross feeding between microbes is ubiquitous, but its impact on the diversity and productivity of mi...
The study of complex microbial communities typically entails high-throughput sequencing and downstre...
Some evidences show that a clonal population of microbial cells exhibits variation at their physiolo...
Measuring the microbial diversity in natural and engineered environments is important for ecosystem ...
Fluorescence flow cytometry is increasingly being used to quantify single-cell expression distributi...
1. Measuring the microbial diversity in natural and engineered environments is important for ecosyst...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
High-throughput amplicon sequencing has become a well-established approach for microbial community p...
Bacterial cells can be characterized in terms of their cell properties using flow cytometry. Flow cy...
<div><p>Bacterial cells can be characterized in terms of their cell properties using flow cytometry....
Bacterial cells can be characterized in terms of their cell properties using flow cytometry. Flow cy...
Flow cytometry is able measure up to 50.000 cells in various dimensions in seconds of time. This lar...
Single cells can be characterized in terms of their phenotypic properties using flow cytometry. Howe...
Flow cytometry is an important technology for the study of microbial communities. It grants the abil...
Cross feeding between microbes is ubiquitous, but its impact on the diversity and productivity of mi...
The study of complex microbial communities typically entails high-throughput sequencing and downstre...
Some evidences show that a clonal population of microbial cells exhibits variation at their physiolo...
Measuring the microbial diversity in natural and engineered environments is important for ecosystem ...
Fluorescence flow cytometry is increasingly being used to quantify single-cell expression distributi...
1. Measuring the microbial diversity in natural and engineered environments is important for ecosyst...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
The determination of cell volumes and biomass offers a means of comparing the standing stocks of aut...
High-throughput amplicon sequencing has become a well-established approach for microbial community p...