植物学技术

It is impossible to capture in just one experiment all or most of the total set of protein species that constitute the cell’s proteome. Thus, according to our results, and even considering that they depend on the experimental system carried out (plant, yeast, fungi, or bacteria), the best protein extr ...

Proteomic analysis of xylem sap has recently become a major field of interest to understand several biological questions related to plant development and responses to environmental clues. The xylem sap appears as a dynamic fluid undergoing changes in its proteome upon abiotic and biotic ...

Rather than providing a single specific protocol, the inclusive area of seed proteomics is reviewed; methods are described and compared and primary literature citations are provided. The limitations and challenges of proteomics as an approach to study seed biology are emphasized. The p ...

In proteomics, liquid chromatography coupled to mass spectrometry (LC-MS/MS) is an invaluable technique to accurately identify and quantify large sets of proteins. In this chapter we show a time-effective, and detergent compatible, Ge-LC-LTQ-Orbitrap/MS proteomics workflow. T ...

Biological research has focused in the past on model organisms and most of the functional genomics studies in the field of plant sciences are still performed on model species or reference species that are characterized to a great extent. However, numerous non-model plants are essential as food, ...

Medicago truncatula has become the focus of systems biology research for improved legume crop breeding. In plant systems biology, several comparative studies have been carried out using liquid chromatography shotgun mass spectrometry (LC-MS/MS) and database-dependent prote ...

Soybean, the world’s most widely grown seed legume, is an important global source of vegetable oil and protein. Though, complete draft genome sequence of soybean is now available, but functional genomics studies remain in their infancy, as this agricultural legume species exhibits genet ...

In this chapter we describe the workflow used in our laboratory to analyze rice leaf samples using label-free shotgun proteomics based on SDS-PAGE fractionation of proteins. Rice proteomics has benefitted substantially from successful execution of shotgun proteomics techniqu ...

Arabidopsis is the model plant of choice for large-scale proteome analyses, because its genome is well annotated, essentially free of sequencing errors, and relatively small with little redundancy. Furthermore, most Arabidopsis organs are susceptible to standard protein solubi ...

The question of low-abundance proteins from biological tissues is still a major issue. Technologies have been devised to improve the situation and in the last few years a method based on solid-phase combinatorial peptide ligand libraries has been extensively applied to animal extracts. T ...

Proteomic technologies have become a successful tool to provide relevant information on fungal biology. In the case of plant pathogenic fungi, this approach would allow a deeper knowledge of the interaction and the biological cycle of the pathogen, as well as the identification of pathoge ...

Plant tissues contain high levels of nonprotein contaminants such as lipids, phenolic compounds, and polysaccharides among others, which interfere with protein extraction and electrophoretic separation. Preparation of good-quality protein extracts is a critical issue for ...

Functional proteomics of plant membrane proteins is an important approach to understand the comprehensive architecture of each metabolic pathway in plants. One bottleneck in the characterization of membrane proteins is the difficulty in producing sufficient quantities of fu ...

Imaging techniques based on mass spectrometry (MS) have become powerful approaches to decipher the spatial distribution of metabolites and proteins. MS imaging (MSI) mostly relies on matrix-assisted laser desorption/ionization coupled to MS detection, but desorption electr ...

The yeast two-hybrid system is currently one of the most standardized protein interaction mapping techniques. The rationale of the yeast two-hybrid system relies on the physical separation of the DNA-binding domain from the transcriptional activation domain of several transcrip ...

Moving past the discovery phase of proteomics, the term targeted proteomics combines multiple approaches investigating a certain set of proteins in more detail. One such targeted proteomics approach is the combination of liquid chromatography and selected or multiple reaction mo ...

The Mass Western describes the absolute quantification of proteins based on stable isotope labeled integral standard peptides and liquid chromatography coupled selective reaction monitoring triple quadrupole mass spectrometry (LC-SRM/MS). Here, we present a detailed wor ...

Oil bodies, lipid-storage organelles, are stabilized by a number of specific proteins. These proteins are very hydrophobic, which complicates their identification by “classical” proteomic protocols using trypsin digestion. Due to the lack of trypsin cleavage sites, the achievab ...

As the field of proteomics shifts from qualitative identification of protein “subfractions” to quantitative comparison of proteins from complex biological samples, it is apparent that the number of approaches for quantitation can be daunting for the result-oriented biologist. T ...

Protein relative quantitation is one of the main targets in many proteomic experiments. Among the range of techniques available for both top-down and bottom-up approaches, isobaric tags for relative and absolute quantitation (iTRAQ) have gained positions within the top-rank techni ...