[HTML][HTML] Metabolic fingerprinting of bacteria by fluorescence lifetime imaging microscopy
Bacterial populations exhibit a range of metabolic states influenced by their environment,
intra-and interspecies interactions. The identification of bacterial metabolic states and …
intra-and interspecies interactions. The identification of bacterial metabolic states and …
Applications of imaging for bacterial systems biology
KC Huang - Current opinion in microbiology, 2015 - Elsevier
Highlights•Bacterial cell biology has powerful synergies with systems biology.•Single-cell
and single-molecule imaging reveal the robustness of cell-wall growth.•Genetic pathways …
and single-molecule imaging reveal the robustness of cell-wall growth.•Genetic pathways …
Metabolic footprinting: Extracellular metabolomic analysis
V Behrends, HD Williams, JG Bundy - Pseudomonas Methods and …, 2014 - Springer
Uptake and excretion of nutrients is an integral part of a cell's physiology. Using analytical
chemistry techniques, metabolite uptake and excretion from the culture medium can be …
chemistry techniques, metabolite uptake and excretion from the culture medium can be …
Real-time Analysis of Metabolic Activity Within Lactobacillus acidophilus by Phasor Fluorescence Lifetime Imaging Microscopy of NADH
K Torno, BK Wright, MR Jones, MA Digman… - Current …, 2013 - Springer
Nicotinamide adenine dinucleotide (NADH) is an endogenous fluorescent molecule
commonly used as a metabolic biomarker. Fluorescence lifetime imaging microscopy (FLIM) …
commonly used as a metabolic biomarker. Fluorescence lifetime imaging microscopy (FLIM) …
Visualizing bacterial colony morphologies using time-lapse imaging chamber MOCHA
M Peñil Cobo, S Libro, N Marechal… - Journal of …, 2018 - Am Soc Microbiol
Capturing microbial growth on a macroscopic scale is of great importance to further our
understanding of microbial life. However, methods for imaging microbial life on a scale of …
understanding of microbial life. However, methods for imaging microbial life on a scale of …
[PDF][PDF] Rediscovering bacteria through single-molecule imaging in living cells
Bacteria are microorganisms central to health and disease, serving as important model
systems for our understanding of molecular mechanisms and for developing new …
systems for our understanding of molecular mechanisms and for developing new …
Intracellular Dynamics-Resolved Label-Free Scattering Reveals Real-Time Metabolism of Single Bacteria
J Kim, SB Ahn, S Hong, K Kim, EH Ko, IJ Jo… - Nano Letters, 2023 - ACS Publications
Nanoscopic investigation of bacterial cells is essential to reveal their physiological status,
impacting all cellular functions. Currently, this requires labeled probes or targeted staining …
impacting all cellular functions. Currently, this requires labeled probes or targeted staining …
Live‐cell fluorescence imaging reveals dynamic production and loss of bacterial flagella
Bacterial flagella are nanomachines that drive bacteria motility and taxis in response to
environmental changes. Whether flagella are permanent cell structures and, if not, the …
environmental changes. Whether flagella are permanent cell structures and, if not, the …
[HTML][HTML] From differential stains to next generation physiology: chemical probes to visualize bacterial cell structure and physiology
Chemical probes have been instrumental in microbiology since its birth as a discipline in the
19th century when chemical dyes were used to visualize structural features of bacterial cells …
19th century when chemical dyes were used to visualize structural features of bacterial cells …
Single-cell tracking reveals antibiotic-induced changes in mycobacterial energy metabolism
Ž Maglica, E Özdemir, JD McKinney - MBio, 2015 - Am Soc Microbiol
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …