Plant tissues usually contain high levels of proteases and secondary metabolites that severely interfere with protein extraction, separation, and identification. Preparation of high-quality protein samples from plant tissues for proteomic analysis represents a great challenge. This article briefly describes the critical points in protein separation, especially secondary metabolites in plant tissues, and removal strategy. It provides an updated overview of three total protein extraction methods and their applications in proteomic analysis of various recalcitrant tissues.
To identify specific proteins related to maize seed viability, seeds of Zhengdan 958 (one of the highyield maize hybrids in China) were sorted based on viability evaluation with triphenyltetrazolium chloride (TTC) assay and used for comparative proteomic analysis. After TTC staining, embryos of high-viability seeds were deep red (R type), while embryos of dead seeds were white (W type). Proteomic analysis revealed that 28 protein spots identified were differently expressed significantly between R and W embryos, of which 20 were up-regulated and 8 down-regulated in R embryos. Among them were proteins involved in stress response, protein folding, and stabilization, as wells as proteins related to nutrient reservoir and metabolism. Prominently, small heat shock proteins, late embryogenesis abundant (LEA) proteins, and antioxidant enzymes were highly up-regulated, while two proteases were highly down-regulated in R embryos compared to W embryos. One of LEA proteins was EMB564, which declined in abundance during artificial aging of seeds. Our results suggested an association of EMB564 with maize seed viability. It would be of interest to use these small proteins to develop quick tests for seed quality.
Soil contains low amounts of protein but high amounts of interfering substances. Current extraction methods for soil protein cannot produce high-quality samples suitable for proteomic analysis. To resolve the problem, we devised a sequential extraction method, through sequentially extracting soil in citrate and SDS buffers, followed by phenol extraction. The method allows for obtaining applicable 1-D and 2-D protein profiles with various agricultural soils and detecting glomalin-related soil protein. The method may be a valuable tool for soil proteomics.
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