Add to ORKGSachs C, Grünberger A, Probst C, Wiechert W, Kohlheyer D. Automated image analysis pipeline for single cell bacterial growth studies. Presented at the Advanced Imaging in Cell- and Microbiology: Technology and Applications (AICMB), Jülich, Germany
The cellular morphology and sub-cellular spatial structure critically influence the function of micr...
Helfrich S, Grünberger A, Kohlheyer D, Wiechert W, Nöh K. Analysis of microbial observables on singl...
Advances in automated fluorescence microscopy have made snapshot and time‐lapse imaging of bacterial...
BackgroundMicrofluidic lab-on-chip technology combined with live-cell imaging has enabled the observ...
Background: Automation in microbiology laboratories impacts management, workflow, productivity and q...
Microscopy is an essential tool for studying bacteria, but is today mostly used in a qualitative or ...
With the contiguous shift of biology from a qualitative toward a quantitative field of research, digi...
Recombinant proteins are produced using a variety of fermentation, cell culture and transgenic anima...
BACKGROUND:Microfluidic lab-on-chip technology combined with live-cell imaging has enabled the obser...
Grünberger A, Helfrich S, Mustafi N, et al. Automated High-Throughput Time-Lapse Microscopy of Bacte...
Image analysis is commonly used nowadays in a wide range of applications due to the development of ...
Cytometer is used to identify and photograph the different particles present in the sample and ideal...
We describe a method that enabled us to observe large numbers of individual bacterial cells during a...
The state-of-the-art technology using ow-chamber microscopy imaging enables us to gain insight into ...
BackgroundAntibiotics of the β-lactam group are able to alter the shape of the bacterial cell wall, ...
The cellular morphology and sub-cellular spatial structure critically influence the function of micr...
Helfrich S, Grünberger A, Kohlheyer D, Wiechert W, Nöh K. Analysis of microbial observables on singl...
Advances in automated fluorescence microscopy have made snapshot and time‐lapse imaging of bacterial...
BackgroundMicrofluidic lab-on-chip technology combined with live-cell imaging has enabled the observ...
Background: Automation in microbiology laboratories impacts management, workflow, productivity and q...
Microscopy is an essential tool for studying bacteria, but is today mostly used in a qualitative or ...
With the contiguous shift of biology from a qualitative toward a quantitative field of research, digi...
Recombinant proteins are produced using a variety of fermentation, cell culture and transgenic anima...
BACKGROUND:Microfluidic lab-on-chip technology combined with live-cell imaging has enabled the obser...
Grünberger A, Helfrich S, Mustafi N, et al. Automated High-Throughput Time-Lapse Microscopy of Bacte...
Image analysis is commonly used nowadays in a wide range of applications due to the development of ...
Cytometer is used to identify and photograph the different particles present in the sample and ideal...
We describe a method that enabled us to observe large numbers of individual bacterial cells during a...
The state-of-the-art technology using ow-chamber microscopy imaging enables us to gain insight into ...
BackgroundAntibiotics of the β-lactam group are able to alter the shape of the bacterial cell wall, ...
The cellular morphology and sub-cellular spatial structure critically influence the function of micr...
Helfrich S, Grünberger A, Kohlheyer D, Wiechert W, Nöh K. Analysis of microbial observables on singl...
Advances in automated fluorescence microscopy have made snapshot and time‐lapse imaging of bacterial...