Topics
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Mass spectrometryTopical concept
lipidBand
yeastپھُپھُوندی
Saccharomyces cerevisiaeپھُپھُوندی
dynamicsMusic genre
homeostasisBuilding
Mass spectrometry is increasingly used in research on membrane lipid homeostasis, both in analyses of the steady state lipidome at the level of molecular lipid species, and in pulse-chase approaches employing stable isotope-labeled lipid precursors addressing the dynamics of lipid metabolism. Here my experience with, and view on mass spectrometry-based lipid analysis is presented, with emphasis on aspects of quantification of membrane lipid composition of the yeast Saccharomyces cerevisiae. This article is part of a Special Issue entitled: BBALIP_Lipidomics Opinion Articles edited by Sepp Kohlwein
The lipid composition of biological membranes can differ significantly between organisms and even be...
Lipids are natural substances found in all living organisms and involved in many biological function...
The regulatory pathways required to maintain eukaryotic lipid homeostasis are largely unknown. We de...
Mass spectrometry is increasingly used in research on membrane lipid homeostasis, both in analyses o...
Mass spectrometry-based shotgun lipidomics has enabled the quantitative and comprehensive assessment...
<div><p>Mass spectrometry-based shotgun lipidomics has enabled the quantitative and comprehensive as...
Lipids are ubiquitous in the human organism and play essential roles as components of cell membranes...
The regulatory pathways required to maintain eukaryotic lipid homeostasis are still largely unknown,...
Lipidomics, a major part of metabolomics, constitutes the detailed analysis and global characterizat...
Glycerophospholipids (GP) are the building blocks of cellular membranes and play essential roles in ...
AbstractLipids are essential eukaryotic cellular constituents. Lipid metabolism has a strong impact ...
Lipidomics studies the large-scale changes in nonwater-soluble metabolites (lipids) accompanying per...
Cells, whether bacterial, fungal or mammalian, are all equipped with metabolic pathways capable of p...
Quantification is an essential task in comprehensive lipidomics studies challenged by the high numbe...
All cells are delimited by membranes that protect the cell from the surrounding environment. In euka...
The lipid composition of biological membranes can differ significantly between organisms and even be...
Lipids are natural substances found in all living organisms and involved in many biological function...
The regulatory pathways required to maintain eukaryotic lipid homeostasis are largely unknown. We de...
Mass spectrometry is increasingly used in research on membrane lipid homeostasis, both in analyses o...
Mass spectrometry-based shotgun lipidomics has enabled the quantitative and comprehensive assessment...
<div><p>Mass spectrometry-based shotgun lipidomics has enabled the quantitative and comprehensive as...
Lipids are ubiquitous in the human organism and play essential roles as components of cell membranes...
The regulatory pathways required to maintain eukaryotic lipid homeostasis are still largely unknown,...
Lipidomics, a major part of metabolomics, constitutes the detailed analysis and global characterizat...
Glycerophospholipids (GP) are the building blocks of cellular membranes and play essential roles in ...
AbstractLipids are essential eukaryotic cellular constituents. Lipid metabolism has a strong impact ...
Lipidomics studies the large-scale changes in nonwater-soluble metabolites (lipids) accompanying per...
Cells, whether bacterial, fungal or mammalian, are all equipped with metabolic pathways capable of p...
Quantification is an essential task in comprehensive lipidomics studies challenged by the high numbe...
All cells are delimited by membranes that protect the cell from the surrounding environment. In euka...
The lipid composition of biological membranes can differ significantly between organisms and even be...
Lipids are natural substances found in all living organisms and involved in many biological function...
The regulatory pathways required to maintain eukaryotic lipid homeostasis are largely unknown. We de...
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