应用优化的双向电泳技术建立纤维堆囊菌So0157-2蛋白质组数据库

堆囊菌丰富的次级代谢产物是新药的重要来源,而蛋白质组学分析是研究代谢调控的有效方法．然而堆囊菌含有大量的胞外多糖以及黏液,干扰了蛋白质组学分析中蛋白质的溶解度、分辨率及重现性．为了高通量地筛选Sorangium cellulosum So0157-2表达的特异性蛋白,实验优化了S. cellulosum So0157-2双向电泳方法．首先,S. cellulosum So0157-2蛋白在裂解液中有更好的溶解度．pH 3～10非线性胶条和1 mg的蛋白上样量适用于第一向等电聚焦,分别提高了蛋白质点的分辨率和低丰度蛋白质的表达．15% SDS-PAGE 改善了S. cellulosum So0157-2蛋白分离的分辨率和重现性．最终,通过优化的双向电泳方法获得了S. cellulosum So0157-2 在M26培养基中培养3天的全蛋白质表达谱,并检测到552个蛋白质点．进而对表达蛋白通过MALDI-TOF-MS进行质谱鉴定,其中474个蛋白质得到鉴定,鉴定率85.9%．得到鉴定的蛋白质包括细胞结构和功能组分,以及细胞代谢合成酶类,其中8个蛋白质与糖类的转化和代谢相关,这有助于糖基化埃博霉素A的深入研究．该优化方法为进一步建立纤维堆囊菌So0157-2在各种培养条件下的蛋白质组表达数据库打下基础．     

Protein extraction/solubilization protocol for monocot and dicot plant gel-based proteomics

Sample preparation in plant proteomics is tedious, requiring modifications depending on the type of tissue involved. Here, we describe a protein extraction protocol for both monocotyledonous (monocot) and dicotyledonous (dicot) species, which significantly improves the solubilization of total proteins. For example, we used the primary leaf tissue and seeds from rice, a cereal crop and genome model system. Total protein was first precipitated with trichloroacetic acid/acetone extraction buffer (TCAAEB) and subsequently solubilized with a modified O’Farrell lysis buffer (LB) containing thiourea and tris (LB-TT). Separation of total leaf proteins by two-dimensional gel electrophoresis (2-DGE) revealed improved solubilization, as determined by an increased number of spots detected with Coomassie brilliant blue (CBB) staining. In addition, the resolution was better than when LB-TT was used alone for protein extraction. Seed proteins could be extracted in LB-TT itself without the need for TCAAEB, which resulted in a highly insoluble precipitate. Our CBB-stained 2-D gel protein profiles also demonstrated the efficacy of this protocol for total protein extraction/solubilization from the dicot genome model (Arabidopsis), a dicot disease model (cucumber), and two other important monocot cereal crop models (maize and wheat). Moreover, this is the first report on generating a 2-D gel proteome profile for wheat crown and cucumber leaf tissues. Finally, as examples of proteome reference maps, we obtained silver nitrate-stained, large-format 2-D gels for rice leaf and wheat crown LB-TT solubilized proteins.     

Lateral roots affect the proteome of the primary root of maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.)

Lateral roots are initiated from the pericycle cells of other types of roots and remain in contact with these roots throughout their life span. Although this physical contact has the potential to permit the exchange of signals, little is known about the flow of information from the lateral roots to the primary root. To begin to study these interactions the proteome of the primary root system of the maize (Zea mays L.) lrt1 mutant, which does not initiate lateral roots, was compared with the corresponding proteome of wild-type seedlings 9 days after germination. Approximately 150 soluble root proteins were resolved by two-dimensional electrophoresis and analyzed by MALDI-ToF mass spectrometry and database searching. The 96 most abundant proteins from a pH 4–7 gradient were analyzed; 67 proteins representing 47 different Genbank accessions were identified. Interestingly, 10 (15/150) of the detected proteins were preferentially expressed in lrt1 roots that lack lateral roots. Eight of these lrt1-specific proteins were identified and four are involved in lignin metabolism. This study demonstrates for the first time the influence of lateral roots on the proteome of the primary root system. To our knowledge this is the first study to demonstrate an interaction between two plant organs (viz., lateral and primary roots) at the level of the proteome.     

Proteomic analysis of parasitized Plutella xylostella larvae plasma

Insects use their innate immunity to defend themselves against foreign invaders, such as microorganisms, nematodes and parasites. Cotesia plutellae, an endoparasitoid wasp that parasitizes the diamondback moth Plutella xylostella, uses several strategies to attack the host immune system, such as injection of viruses, venom, and serosal membrane-derived cells denoted teratocytes. However, the proteome profiles related to these immune deficiency systems have yet to be clearly defined. In this study, we investigate differences in protein expression patterns in parasitized P. xylostella larvae, with a view to identifying parasitism-specific factors. Using 2D polyacrylamide gel electrophoresis, proteins in the host plasma were assessed every 48 h after parasitism by C. plutellae. A large number of protein spots (350 in total) were detected, and approximately 50 spots were differentially expressed in the parasitized P. xylostella larvae every 48 h. In total, 26 potential candidates, including P. xylostella Serpin 2 (pxSerpin 2), translationally controlled tumor protein, signal transduction histidine kinase, apolipophorin-III, and fatty-acid binding protein were identified through quadrupole time-of-flight tandem mass spectrometry and sequence homology analysis. These proteins were classified into the following functional groups: immunity, signaling, lipid metabolism, energy metabolism, amino acid/nucleotide metabolism, and others. The pxSerpin 2 gene was cloned, and its expression profile investigated during the course of parasitism. Real-time PCR analysis of pxSerpin 2 revealed a poor correlation between the mRNA level and protein abundance. Our results clearly suggest that parasitism-specific proteins participate in suppression of the host immune response.     

High throughput two-dimensional blue-native electrophoresis: a tool for functional proteomics of cytoplasmatic protein complexes from Chlorobium tepidum

Chl. tepidum is a Gram-negative green-sulfur bacterium, which is strict by anaerobic and grows by utilizing sulfide or thiosulfate as an electron source. Blue native-polyacrylamide gel electrophoresis (BN-PAGE) is widely used for the analysis of oligomeric state and molecular mass non-dissociated protein complexes. In this study, a number of proteomic techniques were used to investigate the oligomeric state enzymes. In particular, the Chl. tepidum-soluble proteome was monitored under native condition by using BN-PAGE. The BN-PAGE protein complexes map was analyzed by MALDI-TOF MS after trypsin treatment and from 42 BN proteins bands, 62 different proteins were identified. Additionally, functional information regarding protein–protein interactions was assembled, by coupling 2-D BN-PAGE with MALDI-TOF MS. One-hundred and seventy gel bands were spotted, out of which 187 different proteins were identified. The identified proteins belong to various functional categories like energy metabolism, protein synthesis, amino acid biosynthesis, central intermediate metabolism, and biosynthesis of cofactors indicating the potential of the method for elucidation of functional proteomes.     

Two‐dimensional proteome reference map for the radiation‐resistant bacterium Deinococcus geothermalis

2‐DE reference maps for Deinococcus geothermalis cytosolic and cell envelope proteomes were constructed. In total, 403 spots were identified as 299 different proteins. Unique in the proteomes were four subunits of V‐type ATPase and Deinococcus specific proteins constituting one‐fourth of cell envelope proteome. The cytoplasmic proteome included enzymes of the central carbon metabolism, chaperones, enzymes of protein and DNA repair, and oxidative stress. A total of 34 abundant proteins with unknown function may relate to the extreme stress tolerance of D. geothermalis.     

New insights into the brain protein metabolism of Gastrodia elata-treated rats by quantitative proteomics

Gastrodia elata (tianma) is a traditional Chinese herbal medicine (TCM) often used for the treatment of cerebrovascular diseases. In this study, we investigated the effects of tianma on the brain protein metabolism by quantitative proteomics to gain evidence for a direct relationship between tianma treatment and brain functions. One-year-old rats were treated with tianma (~2.5 g/kg/day) for 3months and the brain tissue proteome was analyzed by using the iTRAQ (isobaric tag for relative and absolute quantification) technology. According to our results, the long-term treatment with tianma could modulate the brain protein metabolism at the proteome level by down-regulating the expressions of various proteins, such as Gnao1 and Dctn2, which are related to neuronal growth cone control and synaptic activities. In addition, tianma treatment also induced the up-regulation of molecular chaperons and proteins related to the misfolded protein response, like Anxa5, and also other proteins involved in Huntington's disease (HD) (e.g. Pacsin1 and Arf3). Concluding, tianma could eventually contribute to activities related to synaptic plasticity and neuro-restorative processes and thus might be a novel candidate agent for the treatment of neurodegenerative diseases by regulating the brain proteome.     

Crucial role of antioxidant proteins and hydrolytic enzymes in pathogenicity of Penicillium expansum: analysis based on proteomics approach

Penicillium expansum, a widespread filamentous fungus, is a major causative agent of fruit decay and may lead to the production of mycotoxin that causes harmful effects on human health. In this study, we compared the cellular and extracellular proteomes of P. expansum in the absence and presence of borate, which affects the virulence of the fungal pathogen. The differentially expressed proteins were identified using ESI-Q-TOF-MS/MS. Several proteins related to stress response (glutathione S-transferase, catalase, and heat shock protein 60) and basic metabolism (glyceraldehyde-3-phosphate dehydrogenase, dihydroxy-acid dehydratase, and arginase) were identified in the cellular proteome. Catalase and glutathione S-transferase, the two antioxidant enzymes, exhibited reduced levels of expression upon exposure to borate. Because catalase and glutathione S-transferase are related to oxidative stress response, we further investigated the reactive oxygen species (ROS) levels and oxidative protein carbonylation (damaged proteins) in P. expansum. Higher amounts of ROS and carbonylated proteins were observed after borate treatment, indicating that catalase and glutathione S-transferase are important in scavenging ROS and protecting cellular proteins from oxidative damage. Additionally to find secretory proteins that contribute to the virulence, we studied the extracellular proteome of P. expansum under stress condition with reduced virulence. The expression of three protein spots were repressed in the presence of borate and identified as the same hydrolytic enzyme, polygalacturonase.     

Proteomic insights into cold adaptation of psychrotrophic and mesophilic <Emphasis Type="Italic">Acidithiobacillus ferrooxidans</Emphasis> strains

Cold tolerant strains of Acidithiobacillus ferrooxidans play a role in metal leaching and acid mine drainage (AMD) production in northern latitude/boreal mining environments. In this study we used a proteomics and bioinformatics approach to decipher the proteome changes related to sustained growth at low temperatures to increase our understanding of cold adaptation mechanisms in A. ferrooxidans strains. Changes in protein abundance in response to low temperatures (5 and 15°C) were monitored and protein analyses of a psychrotrophic strain (D6) versus a mesophilic strain (F1) showed that both strains increased levels of 11 stress-related and metabolic proteins including survival protein SurA, trigger factor Tig, and AhpC-Tsa antioxidant proteins. However, a unique set of changes in the proteome of psychrotrophic strain D6 were observed. In particular, the importance of protein fate, membrane transport and structure for psychrotrophic growth were evident with increases in numerous chaperone and transport proteins including GroEL, SecB, ABC transporters and a capsule polysaccharide export protein. We also observed that low temperature iron oxidation coincides with a relative increase in the key iron metabolism protein rusticyanin, which was more highly expressed in strain D6 than in strain F1 at colder growth temperatures. We demonstrate that the psychrotrophic strain uses a global stress response and cold-active metabolism which permit growth of A. ferrooxidans in the extreme AMD environment in colder climates.     

Proteomic profile changes in membranes of ethanol-tolerant <Emphasis Type="Italic">Clostridium thermocellum</Emphasis>

Clostridium thermocellum, a cellulolytic, thermophilic anaerobe, has potential for commercial exploitation in converting fibrous biomass to ethanol. However, ethanol concentrations above 1% (w/v) are inhibitory to growth and fermentation, and this limits industrial application of the organism. Recent work with ethanol-adapted strains suggested that protein changes occurred during ethanol adaptation, particularly in the membrane proteome. A two-stage Bicine-doubled sodium dodecyl sulfate-polyacrylamide gel electrophoresis protocol was designed to separate membrane proteins and circumvent problems associated with membrane protein analysis using traditional gel-based proteomics approaches. Wild-type and ethanol-adapted C. thermocellum membranes displayed similar spot diversity and approximately 60% of proteins identified from purified membrane fractions were observed to be differentially expressed in the two strains. A majority (73%) of differentially expressed proteins were down-regulated in the ethanol-adapted strain. Based on putative identifications, a significant proportion of these down-regulated proteins were involved with carbohydrate transport and metabolism. Approximately one-third of the up-regulated proteins in the ethanol-adapted species were associated with chemotaxis and signal transduction. Overall, the results suggested that membrane-associated proteins in the ethanol-adapted strain are either being synthesized in lower quantities or not properly incorporated into the cell membrane.     

Proteomics Analysis of Thermoplasma Quinone Droplets

A novel type of lipid droplet/lipoprotein (LD/LP) particle from Thermoplasma acidophilum has been identified recently, and based on biochemical evidences, it was named Thermoplasma Quinone Droplet (TaQD). The major components of TaQDs are menaquinones, and to some extent polar lipids, and the 153 amino acid long Ta0547 vitellogenin‐N domain protein. In this paper, the aim is to identify TaQD proteome components with 1D‐SDS‐PAGE/LC–MS/MS and cross reference them with Edman degradation. TaQD samples isolated with three different purification methods—column chromatography, immunoprecipitation, and LD ultracentrifugation—are analyzed. Proteins Ta0093, Ta0182, Ta0337, Ta0437, Ta0438, Ta0547, and Ta1223a are identified as constituents of the TaQD proteome. The majority of these proteins is uncharacterized and has low molecular weight, and none of them is predicted to take part in lipid metabolism. Bioinformatics analyses does not predict any interaction between these proteins, however, there are indications of interactions with proteins taking part in lipid metabolism. Whether if TaQDs provide platform for lipid metabolism and the interactions between TaQD proteins and lipid metabolism proteins occur in the reality remain for further studies.     

Two‐dimensional proteome reference maps for the human pathogenic filamentous fungus Aspergillus fumigatus

The filamentous fungus Aspergillus fumigatus has become the most important airborne fungal pathogen causing life‐threatening infections in immunosuppressed patients. We established a 2‐D reference map for A. fumigatus. Using MALDI‐TOF‐MS/MS, we identified 381 spots representing 334 proteins. Proteins involved in cellular metabolism, protein synthesis, transport processes and cell cycle were most abundant. Furthermore, we established a protocol for the isolation of mitochondria of A. fumigatus and developed a mitochondrial proteome reference map. 147 proteins represented by 234 spots were identified.     

Proteomic approach to study leaf proteins in a fast-growing tree species, Gmelina arborea Linn. Roxb

Foliar proteome studies have become highly significant for a comprehensive understanding of complex processes associated with plant growth and development. In the present study, we present a proteomic approach to analyze leaf proteins in an important timber-yielding and fast-growing forest tree species, Gmelina arborea Linn. Roxb. (Verbanaceae). Foliar protein analysis involved protein extraction, two-dimensional electrophoresis (2-DE) and matrix-assisted laser desorption/ionization time of flight (MALDI–TOF–TOF). From the 2-DE protein profile of Gmelina leaves, we identified and isolated 150 well-separated protein spots; among these, 64 protein spots were identified by mass spectrometric (MS/MS) analysis. These proteins were classified according to their involvement in basic biological functions, such as photosynthesis, amino acid metabolism, cytoskeleton, cell wall metabolism, stress-related proteins, redox maintenance, electron transport chain, phytohormone metabolism and protein translation and folding. Analytical variance was determined for the protein spots of samples from different plants. The present study is believed to provide a foundation for the use of leaf proteomics in addressing fundamental physiological and biochemical processes associated with growth and productivity of tree species such as Gmelina arborea.     

Proteomic characterization of the sulfur-reducing hyperthermophilic archaeon Thermococcus onnurineus NA1 by 2-DE/MS–MS

Thermococcus onnurineus NA1, a sulfur-reducing hyperthermophilic archaeon, was isolated from a deep-sea hydrothermal vent area in Papua New Guinea. The strain requires elemental sulfur as a terminal electron acceptor for heterotrophic growth on peptides, amino acids and sugars. Recently, genome sequencing of Thermococcus onnurineus NA1 was completed. In this study, 2-DE/MS–MS analysis of the cytosolic proteome was performed to elucidate the metabolic characterization of Thermococcus onnurineus NA1 at the protein level. Among the 1,136 visualized protein spots, 110 proteins were identified. Enzymes related to metabolic pathways of amino acids utilization, glycolysis, pyruvate conversion, ATP synthesis, and protein synthesis were identified as abundant proteins, highlighting the fact that these are major metabolic pathways in Thermococcus onnurineus NA1. Interestingly, multiple spots of phosphoenolpyruvate synthetase and elongation factor Tu were found on 2D gels generated by truncation at the N-terminus, implicating the cellular regulatory mechanism of this key enzyme by protease degradation. In addition to the proteins involved in metabolic systems, we also identified various proteases and stress-related proteins. The proteomic characterization of abundantly induced proteins using 2-DE/MS–MS enables a better understanding of Thermococcus onnurineus NA1 metabolism.     

Cadmium response and redoxin targets in Chlamydomonas reinhardtii: a proteomic approach

A proteomic approach including two-dimensional electrophoresis and MALDI-TOF analysis has been developed to identify the soluble proteins of the unicellular photosynthetic algae Chlamydomonas reinhardtii. We first described the partial 2D-picture of soluble proteome obtained from whole cells grown on acetate. Then we studied the effects of the exposure of these cells to 150 μM cadmium (Cd). The most drastic effect was the decrease in abundance of both large and small subunits of the ribulose-1,5-bisphosphate carboxylase/oxygenase, in correlation with several other enzymes involved in photosynthesis, Calvin cycle and chlorophyll biosynthesis. Other down-regulated processes were fatty acid biosynthesis, aminoacid and protein biosynthesis. On the other hand, proteins involved in glutathione synthesis, ATP metabolism, response to oxidative stress and protein folding were up-regulated in the presence of cadmium. In addition, we observed that most of the cadmium-sensitive proteins were also regulated via two major cellular thiol redox systems, thioredoxin and glutaredoxin.     

沈阳地区北虫草野生与市售菌株人工培育子实体的蛋白质组学比较

【背景】北虫草作为冬虫夏草的代用品,具有与冬虫夏草类似的药理活性,其富含的蛋白质和氨基酸通常作为衡量真菌营养价值的重要指标,从中分离纯化具有潜在临床应用价值的蛋白质或多肽,已成为一个研究热点。【目的】检测沈阳北虫草野生与市售菌株人工培育子实体的蛋白质组成,分析相同培育条件下获得的蛋白种类、数量及其功能的差异,为深入研究鉴定沈阳地区北虫草药用蛋白和针对性驯化提供了蛋白质组学数据基础。【方法】采集沈阳棋盘山野生北虫草菌株,与市售人工栽培北虫草菌株同期分别经组织分离、液体发酵后培育获得子实体,通过蛋白提取、胰酶酶解后,采用非标定量技术液相色谱-质谱联用方法,对野生和市售来源培育的子实体样本进行定量蛋白组的研究。【结果】共鉴定到9 233条特异性肽段和1 923个蛋白,其中含有1 163个可定量蛋白,野生来源培育子实体有214个蛋白表达发生上调,181个蛋白表达发生下调,对这些差异蛋白进行功能富集分析发现,其主要参与能量生产/转换、氨基酸转运/代谢、抗氧化功能。在相同的营养摄取条件下,野生来源培育菌种在各个能量代谢、氨基酸代谢功能中的相关蛋白表达量高于市售来源培育的菌种。野生来源培育菌种的一种抗氧化重要蛋白(Gene Name:ISF_02112)表达量远远高于(Fold Change9)市售来源培育菌种。同时与抗氧化和代谢功能相关的差异蛋白有22个。【结论】沈阳地区北虫草野生菌株经适当人工培育会保留部分优良的生物学特性,2种来源菌株培育的子实体具有丰富及优异抗氧化功能的蛋白,子实体蛋白的抗氧化能力与其整体代谢能力相关。本研究结果为深入研究鉴定北虫草药用蛋白和针对性驯化提供蛋白质组学数据基础。