Proteomics has evolved substantially since its early days, some 20 years ago. In this mini-review, we aim to provide an overview of general methodologies and more recent developments in mass spectrometric approaches used for relative and absolute quantitation of proteins. Enhancement of sensitivity of the mass spectrometers as well as improved sample preparation and protein fractionation methods are resulting in a more comprehensive analysis of proteomes. We also document some upcoming trends for quantitative proteomics such as the use of label-free quantification methods. Hopefully, microbiologists will continue to explore proteomics as a tool in their research to understand the adaptation of microorganisms to their ever changing environme...
Mass spectrometry is a powerful tool in the hand of life science researchers, who constantly develop...
Proteomics has enabled the direct investigation of biological material, at first through the analysi...
The rapid advances in life science, including the sequencing of the human genome and numerous other ...
Proteomics has evolved substantially since its early days, some 20 years ago. In this mini-review, w...
It is now more than 10 years since the publication of the first microbial genome sequence and scienc...
Copyright © 2013 Valerie C. Wasinger et al. This is an open access article distributed under the Cre...
In recent years, mass spectrometry has moved more than ever before into the front line of protein-ce...
In the current omics-age of research, major developments have been made in technologies that attempt...
Mass spectrometry has become a powerful technology for proteome analysis. It would be highly desirab...
In the biological sciences, model organisms have been used for many decades and have enabled the gat...
Mass spectrometry-based proteomics has been extensively used to map bacterial proteomes, which has l...
Modern microbial systematics requires a range of methodologies for the comprehensive characterizatio...
Proteomics concerns itself with the characterization and function of all cellular proteins, the ulti...
Modern microbial systematics requires a range of methodologies for the comprehensive characterizatio...
For some years now, scientists have been spending a lot of effort in developing methods to analyse a...
Mass spectrometry is a powerful tool in the hand of life science researchers, who constantly develop...
Proteomics has enabled the direct investigation of biological material, at first through the analysi...
The rapid advances in life science, including the sequencing of the human genome and numerous other ...
Proteomics has evolved substantially since its early days, some 20 years ago. In this mini-review, w...
It is now more than 10 years since the publication of the first microbial genome sequence and scienc...
Copyright © 2013 Valerie C. Wasinger et al. This is an open access article distributed under the Cre...
In recent years, mass spectrometry has moved more than ever before into the front line of protein-ce...
In the current omics-age of research, major developments have been made in technologies that attempt...
Mass spectrometry has become a powerful technology for proteome analysis. It would be highly desirab...
In the biological sciences, model organisms have been used for many decades and have enabled the gat...
Mass spectrometry-based proteomics has been extensively used to map bacterial proteomes, which has l...
Modern microbial systematics requires a range of methodologies for the comprehensive characterizatio...
Proteomics concerns itself with the characterization and function of all cellular proteins, the ulti...
Modern microbial systematics requires a range of methodologies for the comprehensive characterizatio...
For some years now, scientists have been spending a lot of effort in developing methods to analyse a...
Mass spectrometry is a powerful tool in the hand of life science researchers, who constantly develop...
Proteomics has enabled the direct investigation of biological material, at first through the analysi...
The rapid advances in life science, including the sequencing of the human genome and numerous other ...