Chloroplast Isolation and Enrichment of Low-Abundance Proteins by Affinity Chromatography for Identification in Complex Proteomes.

Abstract

Comprehensive knowledge of the proteome is a crucial prerequisite to understand dynamic changes in biological systems. Particularly low-abundance proteins are of high relevance in these processes as these are often proteins involved in signal transduction and acclimation responses. Although technological advances resulted in a tremendous increase in protein identification sensitivity by mass spectrometry (MS), the dynamic range in protein abundance is still the most limiting problem for the detection of low-abundance proteins in complex proteomes. These proteins will typically escape detection in shotgun MS experiments due to the presence of high-abundance proteins. Therefore, specific enrichment strategies are still required to overcome this technical limitation of MS-based protein discovery. We have searched for novel signal transduction proteins, more specifically kinases and calcium-binding proteins, and here we describe different approaches for enrichment of these low-abundance proteins from isolated chloroplasts from pea and Arabidopsis for subsequent proteomic analysis by MS. These approaches could be extended to include other signal transduction proteins and target different organelles.