植物学技术

Two-dimensional gel electrophoresis (2-DE) with immobilized pH gradients (IPGs) combined with protein identification by mass spectrometry (MS) is currently the workhorse for proteome analysis. 2-DE allows separation of highly complex mixtures of proteins according to isoel ...

Because of the outstanding separating capabilities of two-dimensional electrophoresis for complete proteins, it would be advantageous to be able to apply it to all types of proteins. Unfortunately, severe solubility problems hamper the analysis of many classes of proteins, but espe ...

The plasma membrane (PM) exists as the interface between the cytosol and the environment in all living cells and is one of the most complex and differentiated membrane. The identification and characterization of membrane proteins (either extrinsic or intrinsic) is a crucial challenge si ...

The use of 2D electrophoresis for comparative proteomics allows the revelation of variations of protein relative amounts according to various physiological or genetic criteria. The statistical significance of these results is related to different factors, from the experiment ...

The integrity of a subcellular proteome such as the nucleus, is largely dependent on purification of the isolated compartment away from other cellular contaminants. The separation of high-purity nuclei from plants is a difficult task. However, successful purification has been achie ...

Fractionation and extraction of nuclear proteins are techniques intended to facilitate dedicated plant proteomic studies. These techniques rely on subcellular fractionation, which makes it possible to define and characterize the proteome of a subcellular organelle, in this c ...

Mitochondria carry out a variety of biochemical processes in plant cells. Their primary role is the oxidation of organic acids via the tricarboxylic acid cycle and the synthesis of ATP coupled to the transfer of electrons from reduced NAD+ to O2 via the electron transport chain. However, they also p ...

This chapter describes a simple protocol for large-scale chloroplast purification for proteome analysis. The protocol has not been tested for protein import activity but is optimized for chloroplast proteome yield and purity and minimal protein degradation.

In this chapter we present a protocol for total protein extraction optimized for wood-forming tissue (differentiating secondary xylem). The protocol is then used for a series of other organs (root, leaf, pollen, bud, flower, cambium, and phloem) in broadleaf (oak and poplar) and conifer (pine) s ...

It is well known that phloem and xylem vessels transport small nutrient molecules over long distances in higher plants. The finding that proteins also occur in both transport fluids was unexpected, and the function of most of these proteins is not yet well understood. This chapter outlines how pr ...

Seeds may contain different components such as starch and complex carbohydrates that can seriously reduce protein extraction. The proteins in cereal seeds are usually classified in four groups according to their solubility criteria: albumins, globulins, prolamins, and gluteli ...

Phenol extraction of proteins is an alternative method to classical TCA-acetone extraction. It allows efficient protein recovery and removes nonprotein components in the case of plant tissues rich in polysaccharides, lipids, and phenolic compounds. We present here a tried and tested ...

Identifying protein kinase substrates is one major focus of protein kinase research and supports the elucidation of signal transduction pathways and their complex regulation. In this chapter we describe a protein microarray-based in vitro method, which permits a systematic scree ...

The application of proteomics methods, such as the protein microarray technology, in plant science has been strongly supported by the completion of genome sequencing projects of Arabidopsis thaliana and rice. In this chapter we describe a method to generate plant protein microarrays a ...

A method has been developed for the extraction of intact proteins from SDS-PAGE gels and for subsequent MALDI-TOF MS analysis to determine precise molecular mass. The method consists of an electroelution step and a subsequent low-temperature matrix-analyte cocrystallization step ...

High-resolution protein separation procedures are an important prerequisite for proteome analyses. Classically, protein separations are based on 2D IEF/SDS-PAGE. Unfortunately, this technique only poorly recovers hydrophobic proteins, and it is not compatible with analy ...

In plant cells, as in other eucaryotic cells, glycosylation is one of the most studied posttranslational events. It can be of two types, N- or O-glycosylation, depending on the linkage involved between the protein backbone and the oligosaccharide moiety. In this review, we present different me ...

Reversible protein phosphorylation is crucially involved in all aspects of plant cell physiology. The highly challenging task of revealing and characterizing the dynamic protein phosphorylation networks in plants has only recently begun to become feasible, owing to applicati ...

PROTICdb is a web-based database mainly designed to store and analyze plant proteome data obtained by 2D polyacrylamide gel electrophoresis (2D PAGE) and mass spectrometry (MS). The goals of PROTICdb are (1) to store, track, and query information related to proteomic experiments, i.e., from t ...

Membrane protein identification by matrix-assisted laser desorption/ionization-time of flight-mass spectrometry (MALDI-TOF-MS) requires that proteins be separated prior to MS analysis. After membrane solubilization with the nondenaturing detergent n-dodecyl-β ...