[HTML][HTML] Proteomics strategies for protein identification
KA Resing, NG Ahn - FEBS letters, 2005 - Elsevier
KA Resing, NG Ahn
FEBS letters, 2005•ElsevierThe information from genome sequencing provides new approaches for systems-wide
understanding of protein networks and cellular function. DNA microarray technologies have
advanced to the point where nearly complete monitoring of gene expression is feasible in
several organisms. An equally important goal is to comprehensive survey cellular proteomes
and profile protein changes under different cellular states. This presents a complex
analytical problem, due to the chemical variability between proteins and peptides. Here, we …
understanding of protein networks and cellular function. DNA microarray technologies have
advanced to the point where nearly complete monitoring of gene expression is feasible in
several organisms. An equally important goal is to comprehensive survey cellular proteomes
and profile protein changes under different cellular states. This presents a complex
analytical problem, due to the chemical variability between proteins and peptides. Here, we …
The information from genome sequencing provides new approaches for systems-wide understanding of protein networks and cellular function. DNA microarray technologies have advanced to the point where nearly complete monitoring of gene expression is feasible in several organisms. An equally important goal is to comprehensive survey cellular proteomes and profile protein changes under different cellular states. This presents a complex analytical problem, due to the chemical variability between proteins and peptides. Here, we discuss strategies to improve accuracy and sensitivity of peptide identification, distinguish represented protein isoforms, and quantify relative changes in protein abundance.
Elsevier
