Mikroskalige Massenbilanzierung in mikrofluidischen Umgebungen-Reference-Cited by-同舟云学术

Mikroskalige Massenbilanzierung in mikrofluidischen Umgebungen

Published:2023-09 Issue:5 Volume:29 Page:534-535
ISSN:0947-0867
Container-title:BIOspektrum
language:de
Short-container-title:Biospektrum

Author:

Smaluch Katharina,Dusny Christian,Kohlheyer Dietrich,Grünberger Alexander

Abstract

AbstractImplementing key biochemical engineering principles based on the kinetics and stoichiometry of growth unlocks the full potential of microfluidic single-cell analysis. We introduce a unique integrative approach, using non-invasive advanced microfluidic cultivation and analysis technologies to integrate physiologic single-cell data. Our groundwork enables microscale material balancing beyond population-based average values and advances modern bioprocess modeling [1].

Publisher

Springer Science and Business Media LLC

Subject

Molecular Biology,Biotechnology

Link

https://link.springer.com/content/pdf/10.1007/s12268-023-1978-8.pdf

Reference6 articles.

1. Smaluch K, Wollenhaupt B, Steinhoff H et al. (2023) Assessing the growth kinetics and stoichiometry of Escherichia coli at the single-cell level. Eng Life Sci 23: e2100157

2. Lee S, Mattanovich D, Villaverde A (2012) Systems metabolic engineering, industrial biotechnology and microbial cell factories. Microb Cell Fact 11: 156

3. Dusny C, Grunberger A (2020) Microfluidic single-cell analysis in biotechnology: from monitoring towards understanding. Curr Opin Biotechnol 63: 26–33

4. Dusny C (2022) Microfluidic Single-Cell Analytics. In: Bahnemann J, Grünberger A (Hrsg.) Microfluidics in Biotechnology. Springer International Publishing, Basel, 159–189

5. Ackermann M (2015) A functional perspective on phenotypic heterogeneity in microorganisms. Nat Rev Microbiol 13: 497–508