Affinity purification of an interferon-induced human guanylate-binding protein and its characterization

Among the proteins that are synthesized only in interferon-treated human cells, a Mr = 67,000 protein has been previously identified by its binding to guanylate agaroses. After a 24-h treatment of human diploid fibroblasts with 200 units/ml of interferon-gamma, about 3 X 10(5) molecules of guanylate-binding protein (GBP) accumulate in each cell. We have developed a one-step purification procedures for GBP using guanylate affinity chromatography. To further elucidate the specific binding of this protein to guanylates, we have used a photoactive probe, 8-azidoguanosine [alpha 32P] triphosphate for the labeling of the GBP. Photolysis of the 8-azido-[alpha-32P]GTP in the presence of GBP results in the covalent attachment of the 32P-guanylate to the GBP. This photolabeling reaction can be inhibited only by guanylates but cannot be inhibited by other nucleotides, suggesting a specific association of GBP to guanylates. Using the purified GBP as an immunogen, we have successfully made rabbit antiserum for GBP. Both the GBP antigen and its guanylate-binding activity are detected only in the cytoplasm of interferon-treated human fibroblasts. The synthesis of the mRNA of GBP is also found in mice exposed to endogenous interferon and in interferon-treated human lymphocytes.     

Development and application of site-specific proteomic approach for study protein S-nitrosylation

Protein S-nitrosylation is the covalent redox-related modification of cysteine sulfhydryl groups with nitric oxide, creating a regulatory impact similar to phosphorylation. Recent studies have reported a growing number of proteins to be S-nitrosylated in vivo resulting in altered functions. These studies support S-nitrosylation as a critical regulatory mechanism, fine-tuning protein activities within diverse cellular processes and biochemical pathways. In addition, S-nitrosylation appears to have key roles in the etiology of a broad range of human diseases. In this review, we discuss recent advances in proteomic approaches for the enrichment, identification, and quantitation of cysteine S-nitrosylated proteins and peptides. These advances have provided analytical tools with the power to interpret the impact of S-nitrosylation at the system level, providing a new platform for drug discovery and the identification of diagnostic markers for human diseases.     

蝇蛆蛋白粉对凡纳滨对虾生长的影响

设计了4种实验饲料(ABCD)并进行了8周饲养试验来评定添加蝇蛆粉对凡纳滨对虾生长性能的影响.以实用饲料D作为对照组,ABC是在D的基础上,分别以5%,10%和15%的蝇蛆粉替代鱼粉.养殖试验结束后,分别计算体长、全长和背甲宽等生长性能.实验结果显示,AB组凡纳滨对虾的生长性能与对照组差异不显著(P>0.05).C组与对照组差异极显著(P<0.01).结果表明,饲料中添加适量的蝇蛆蛋白粉对凡纳滨对虾有一定的促生长作用,可用适量的蝇蛆蛋白粉替代对虾配合饲料中的部分鱼粉.     

A protein chip approach for high-throughput antigen identification and characterization

Proteomics research in humans and other eukaryotes demands a large number of high-quality mAbs. Here, we report a new approach to produce high-quality mAbs against human liver proteins using a combined force of high-throughput mAb production and protein microarrays. After immunizing mice with live cells from human livers, we isolated 54 hybridomas with binding activities to human cells and identified the corresponding antigens for five mAbs via screening on a protein microarray of 1058 unique human liver proteins. Finally, we demonstrated that using the five mAbs we could characterize the expression profiles of their corresponding antigens by using tissue microarrays. Among them, we discovered that eIF1A expressed only in normal liver tissues, not in hepatocellular carcinoma in humans.     

Adaptation of proteomic techniques for the identification and characterization of protein species from murine heart

Disturbed energy metabolism with impaired fatty acid oxidation, ATP synthesis and changing levels of contractile proteins has been observed during the development and manifestation of cardiovascular diseases, with the latter showing sexual differences in terms of onset, manifestation and progress. Estrogenic compounds, such as estrogens and phytoestrogens, are known to exert beneficial effects on several cardiovascular parameters. However, global studies implying the normal, non-failing myocardium are rare. Thus, identifying and characterizing protein patterns involved in the maintenance of normal heart physiology at the protein species level will help understanding disease conditions. In this study, we performed an adapted 2-DE/MS approach in order to identify and characterize post-translational modified and truncated protein species from murine heart. Female and male animals of different age were receiving the phytoestrogen genistein and comparative analyses were performed to identify sex and genistein treatment-related effects. Selected 2-DE spots that exposed varying abundance between animal groups and identified as identical proteins were subject to multi-protease cleavage to generate an elevated sequence coverage enabling characterization of post-translational modifications and truncation loci via high-resolution MS. Several truncated, phosphorylated and acetylated species were identified for mitochondrial ATP synthase, malate dehydrogenase and trifunctional enzyme subunit alpha. However, confirmation of several of these modifications by manual spectra interpretation failed. Thus, our results warrant caution for the blind trust in software output. For the regulatory light chain of myosin, we identified an N-terminal processed species, which so far has been related to ischemic conditions only. We tried to unravel the information content of protein species separated by high-resolution 2-DE as an alternative to high-throughput proteomics, which mainly is interested in lists of protein names, ignoring the protein species identity.     

Purification and characterization of an intracellular lipase from pleopods of whiteleg shrimp (Litopenaeus vannamei)

An intracellular lipase present in the whiteleg shrimp Litopenaeus vannamei was detected in pleopods. The lipase from pleopods was purified and characterized by biochemical and kinetic parameters. Purified intracellular lipase has a molecular mass of 196kDa, the polypeptide is assembled by two monomers, 95.26 and 63.36kDa. The enzyme lacks glycosylation, and it has an isoelectric point of 5.0. The enzyme showed the highest activity at a temperature range of 30-40°C at pH 8.0-10.0. Activity was completely inhibited by tetrahydrolipstatin and diethyl p-nitrophenyl phosphate, suggesting that the intracellular lipase is a serine lipase. The lipase hydrolyzes short and long-chain triacylglycerides, as well as naphthol derivatives at comparable rates in contrast to other sources of lipases. Specific activity of 930U mg(-1) and 416.56U mg(-1) was measured using triolein and tristearin at pH 8.0 at 30°C as substrates, respectively. The lipase showed a K(M,app) of 41.03mM and k(cat)/K(M,app) ratio of 4.88 using MUF-butyrate as the substrate. The intracellular lipase described for shrimp has a potential role in hydrolysis of triacylglycerides stored as fat body, as has been shown in humans.     

A proteomic approach to the identification and characterisation of protein composition in wheat germ

Proteome analyses were carried out on commercial wheat germ of mature grain from the biscuit-making wheat cultivar, Rosella. Wheat germ protein extracts were fractionated by two-dimensional gel electrophoresis across two different immobilised pH gradients: pH 4.0–7.0 and 6.0–9.0. A total of 612 individual protein spots were excised from the gels and characterised by peptide mass fingerprinting. From these analyses, 347 individual proteins were identified from protein sequence database interrogation, and 301 different types of protein were catalogued according to protein function. The remaining 265 protein spots gave poor or no matches to proteins in the databases and were not identified in this study. Six different classes of enzymes were identified in the germ, many of them having roles in the mobilisation of energy reserves for germination. Abundantly expressed enzyme classes include the oxidoreductases, transferases and hydrolases. A comparison was also made between the major protein classes expressed in the germ and protein classes expressed in the endosperm from previous proteomic work. This study contributes significantly to our knowledge of protein expression and heterogeneity in the germ of wheat grain and forms the basis for future studies in regard to the characterisation of proteins during the initial stages of germination.     

Isolation and characterization of microsatellites in Pacific white shrimp Penaeus (Litopenaeus) vannamei

Five polymorphic microsatellite loci were characterized for Penaeus (Litopenaeus) vannamei. Loci were isolated using a partial Sau3A1 genomic library by the sequencing of randomly selected clones and by a biotinylated (CT)₁₀ and (GT)₁₀ probes screening procedure. The last strategy resulted in the most useful data. About 40% of the clones showed a previously reported satellite/microsatellite (PVS1), reducing the chance of finding new microsatellite regions. Whereas two of the microsatellite loci with more than 10 alleles will be useful for mating analysis in a breeding program, the others might prove useful for population genetic studies.     

Affinity modification in a proteomic study of DNA repair ensembles

The review concerns the use of the affinity modification method as an integral part of the modern proteomic analysis to search for and identification of proteins belonging to protein ensembles of DNA repair. Affinity modification is based on the preliminary formation of specific non-covalent complex between the target biopolymer and a reagent (chemically reactive analog of biopolymer or low molecular weight ligand) followed by formation of covalent bond between the reagent and the site of the target, to which the reagent is bound, that ensures the method specificity. This method is most widely and effectively used in the study of structural and functional aspects of protein-nucleic acids interactions. Upon construction of DNA probes, in addition to chemically reactive groups and structural elements involved in specific recognition of DNA by proteins, additional groups that facilitate the subsequent affinity isolation of DNA-protein cross-links, can be introduced into the reagent. The review covers recent examples affinity DNA-reactive probe in combination with mass spectrometric and immunological methods to search for and identification in cell extracts, proteins interacting with apurinic/apyrimidinic sites and the proteins recognizing the cross-links in DNA induced by cisplatin.     

Molecular characterization and function of a p38 MAPK gene from Litopenaeus vannamei

p38 mitogen-activated protein kinases (MAPKs) are broadly expressed from yeasts to mammals, and are involved in the regulation of cells responsible to various extracellular stimuli. In this study, a p38 MAPK gene (designated as Lvp38) from Litopenaeus vannamei, was cloned and characterized. It contained the conserved structures of a Thr-Gly-Tyr (TGY) motif and a substrate-binding site, Ala-Thr-Arg-Trp (ATRW). The tissue distribution patterns showed that Lvp38 was widely expressed in all examined tissues, with the highest expression in hemocytes, nerves, and intestines. Quantitative real-time PCR revealed that Lvp38 was upregulated in gills and hemocytes after infection with the Gram-negative Vibrio alginolyticus and the Gram-positive Staphylococcus aureus. Reporter gene assays indicated that Lvp38 activated the expression of antimicrobial peptides (AMPs) of Drosophila and shrimp. Knockdown of Lvp38 by RNA interference (RNAi) resulted in a higher mortality of L. vannamei under V. alginolyticus and S. aureus infection, as well as a reduction in the expression of three shrimp AMP genes, namely, PEN4, crustin, and ALF2. Taken together, our data indicated that Lvp38 played a role in defending against bacterial infections.     

Cloning and characterization of a novel C-type lectin gene from shrimp Litopenaeus vannamei

In invertebrates, C-type lectins play crucial roles in innate immunity responses by mediating the recognition of host cells to pathogens and clearing microinvaders, which interact with carbohydrates and function as pattern recognition receptors (PRRs). A novel C-type lectin gene (LvLec) cDNA was cloned from hemocytes of Litopenaeus vannamei by expressed sequence tag (EST) and rapid amplification of cDNA ends (RACE) PCR. The full-length cDNA of LvLec was of 618 bp, consisting of a 5′-terminal untranslated region (UTR) of 60 bp and a 3′-UTR of 87 bp with a poly (A) tail. The deduced amino acid sequence of LvLec possessed all conserved features critical for the fundamental structure, such as the four cysteine residues (Cys⁵³, Cys¹²⁸, Cys¹⁴⁴, Cys¹⁵²) involved in the formation of disulfides bridges and the potential Ca²⁺/carbohydrate-binding sites. The high similarity and the close phylogenetic relationship of LvLec shared with C-type lectins from vertebrates and invertebrates. The structural features of LvLec indicated that it was an invertebrate counterpart of the C-type lectin family. The cDNA fragment encoding the mature peptide of LvLec was recombined and expressed in Escherichia coli BL21(DE3)-pLysS. The recombinant protein (rLvLec) could agglutinate bacteria E. coli JM109 depending on Ca²⁺, and the agglutination could be inhibited by mannose and EDTA. These results indicated that LvLec was a new member of C-type lectin family and involved in the immune defence response to Gram negative bacteria in Litopenaeus vannamei.     

Isolation and characterization of microsatellite markers from Pacific white shrimp (Litopenaeus vannamei)

We report the development of 11 polymorphic microsatellite loci in pacific white shrimp (Litopenaeus vannamei) using an unenriched genomic library. The number of the alleles ranged from two to 18 and observed hererozygosity ranged from 0.0286 to 0.9429, indicating that these markers will be useful for population studies and mapping in pacific white shrimp. Seven loci were detected deviated from Hardy–Weinberg, caused by deficiency of heterozygote, suggesting population genetic structure across the sampled population. No evidence for linkage disequilibrium was found.     

A proteomic approach for the identification of bismuth-binding proteins in Helicobacter pylori

Helicobacter pylori is a major human pathogen that can cause peptic ulcers and chronic gastritis. Bismuth-based triple or quadruple therapies are commonly recommended for the treatment of H. pylori infections. However, the molecular mechanisms underlying treatment with bismuth are currently not fully understood. We have conducted a detailed comparative proteomic analysis of H. pylori cells both before and after treatment with colloidal bismuth subcitrate (CBS). Eight proteins were found to be significantly upregulated or downregulated in the presence of CBS (20 μg mL⁻¹). Bismuth-induced oxidative stress was confirmed by detecting higher levels of lipid hydroperoxide (approximately 1.8 times) and hemin (approximately 3.4 times), in whole cell extracts of bismuth-treated H. pylori cells, compared with those from untreated cells. The presence of bismuth also led to an approximately eightfold decrease in cellular protease activities. Using immobilized-bismuth affinity chromatography, we isolated and subsequently identified seven bismuth-binding proteins from H. pylori cell extracts. The intracellular levels of four of these proteins (HspA, HspB, NapA and TsaA) were influenced by the addition of CBS, which strongly suggests that they interact directly with bismuth. The other bismuth-interacting proteins identified were two enzymes (fumarase and the urease subunit UreB), and a translational factor (Ef-Tu). Our data suggest that the inhibition of proteases, modulation of cellular oxidative stress and interference with nickel homeostasis may be key processes underlying the molecular mechanism of bismuth’s actions against H. pylori. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Isolation and characterization of two pigment-dispersing hormones from the whiteleg shrimp, Litopenaeus vannamei

In crustaceans, the pigment-dispersing hormone (PDH) is released from the X-organ/sinus gland complex located in the eyestalks, and controls pigment dispersion in the chromatophores. Knowledge concerning the structure and activity of PDH in penaeid shrimps is remains limited, since natural PDH has been purified from only the Kuruma prawn, Marsupenaeus japonicus. In this study, two PDHs (Liv-PDH-A and -B) were purified from the sinus gland extracts of another penaeid species, the whiteleg shrimp, Litopenaeus vannamei, by two steps of reversed-phase HPLC, and their amino acid sequences were determined. They both consist of 18 amino acid residues, with a free N-terminus and an amidated C-terminus, the sequences of Liv-PDH-A and -B being NSELINSLLGIPKVMNDAamide and NSELINSLLGLPKVMNDAamide, respectively. These sequences are identical to those of mature PDHs deduced from cDNAs encoding L. vannamei PDH precursors cloned previously by other workers. Liv-PDH-A and -B showed significant pigment-dispersing activity in melanophores by in vivo bioassay.     

益生菌ZD02的分离及其在对虾集约化精养中的应用

从养殖环境分离纯化芽孢杆菌6株,对其进行消化酶活检测,根据检测的酶活指标选择ZD02作为待试验菌株并进行鉴定和热稳定性检测。结果表明:ZD02被鉴定为枯草芽孢杆菌,具有耐受高温的特性,90℃水浴10min存活率93%,95℃水浴5min存活率93%,100℃水浴5min存活82%,95℃和100℃水浴2min不影响芽孢菌存活,在调质温度102℃条件下,制粒后芽孢菌存活率94%;将经过鉴定的枯草芽孢杆菌发酵培养后应用于凡纳滨对虾(Litopenaeus vannamei)的集约化精养殖,试验组A在基础饲料中添加0.3%的芽孢杆菌。试验组B保持配方成本不变的基础上添加0.3%的芽孢杆菌,结果显示,试验组的成活率显著高于对照组(P0.05),试验组A、B的产量分别比对照组提高了43.0%和36.7%(P0.05),产值分别提高35.4%和21.0%(P0.05),饲料系数比对照组分别降低了9.9%和8.7%(P0.05);换水耗电、水质调节剂、内服药物3项费用合计,A组和B组较对照组分别节省了21.3%和22.3%(P0.05);实验组之间各项指标差异不显著(P0.05);表明,在对虾的集约化精养过程中合理利用益生芽孢杆菌可以增产增收。     

A proteomic approach for identification and localization of the pericellular components of chondrocytes

Although the pericellular matrix (PCM) plays a central role in the communication between chondrocytes and extracellular matrix, its composition is largely unknown. In this study, the PCM was investigated with a proteomic approach using chondrons, which are enzymatically isolated constructs including the chondrocyte and its surrounding PCM. Chondrons and chondrocytes alone were isolated from human articular cartilage. Proteins extracted from chondrons and chondrocytes were used for two-dimensional electrophoresis. Protein spots were quantitatively compared between chondron and chondrocyte gels. Cellular proteins, which had similar density between chondron and chondrocyte gels, did not proceed for analysis. Since chondrons only differ from chondrocytes in association of the PCM, protein spots in the chondron gels that had higher quantity than that in the chondrocyte gels were selected as candidates of the PCM components and processed for mass spectrometry. Among 15 identified peptides, several were fragments of the three type VI collagen chains (α-1, α-2, and α-3). Other identified PCM proteins included triosephosphate isomerase, transforming growth factor-β induced protein, peroxiredoxin-4, ADAM (A disintegrin and metalloproteinases) 28, and latent-transforming growth factor beta-binding protein-2. These PCM components were verified with immunohisto(cyto)chemistry for localization in the PCM region of articular cartilage. The abundance of type VI collagen in the PCM emphasizes its importance to the microenvironment of chondrocytes. Several proteins were localized in the PCM of chondrocytes for the first time and that warrants further investigation for their functions in cartilage biology.     

Effect of mass spectrometric parameters on peptide and protein identification rates for shotgun proteomic experiments on an LTQ-orbitrap mass analyzer

The success of a shotgun proteomic experiment relies heavily on the performance and optimization of both the LC and the MS systems. Despite this, little consideration has, so far, been given to the importance of evaluating and optimizing the MS instrument settings during data‐dependent acquisition mode. Moreover, during data‐dependent acquisition, the users have to decide and choose among various MS parameters and settings, making a successful analysis even more challenging. We have systematically investigated and evaluated the effect of enabling and disabling the preview mode for FTMS scan, the number of microscans per MS/MS scan, the number of MS/MS events, the maximum ion injection time for MS/MS, and the automatic gain control target value for MS and MS/MS events on protein and peptide identification rates on an LTQ‐Orbitrap using the Saccharomyces cerevisiae proteome. Our investigations aimed to assess the significance of each MS parameter to improve proteome analysis and coverage. We observed that higher identification rates were obtained at lower ion injection times i.e. 50–150 ms, by performing one microscan and 12–15 MS/MS events. In terms of ion population, optimal automatic gain control target values were at 5×10⁵–1×10⁶ ions for MS and 3×10³–1×10⁴ ions for MS/MS. The preview mode scan had a minimal effect on identification rates. Using optimized MS settings, we identified 1038 (±2.3%) protein groups with a minimum of two peptide identifications and an estimated false discovery rate of ～1% at both peptide and protein level in a 160‐min LC‐MS/MS analysis.     

A proteomic approach for the identification of immunotoxic properties of Tulipalin A

The immune system is permanently exposed to several environmental influences that can have adverse effects on immune cells or organs leading to immunosuppression or inappropriate immunostimulation, called direct immunotoxicity. The natural compound Tulipalin A (TUPA), a lactone with α‐methylene‐γ‐butyrolactone moiety, can influence the immune system and lead to allergic contact dermatitis. This in vitro study focused on effects of TUPA using two immune cell lines (Jurkat T cells and THP‐1 monocytes). To evaluate the immunotoxic potential of the compound, a proteomic approach applying 2D gel electrophoresis and MALDI‐TOF/TOF‐MS in combination with metabolomic analysis was used after exposure of the cells to IC₁₀ of TUPA. THP‐1 cells showed a strong robustness to TUPA treatment since only five proteins were altered. In contrast, in Jurkat T cells an increase in the abundance of 66 proteins and a decrease of six proteins was determined. These intracellular proteins were mapped to biological processes. Especially an accumulation of chaperones and an influence on the purine synthesis were observed. The changes in purine synthesis were confirmed by metabolomic analysis. In conclusion, the data indicate possible target processes of low doses of TUPA in Jurkat T cells and provides knowledge of how TUPA affects the functionality of immune cells.     

Unlocking the proteomic information encoded in MALDI-TOF-MS data used for microbial identification and characterization

Introduction: Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) is increasingly utilized as a rapid technique to identify microorganisms including pathogenic bacteria. However, little attention has been paid to the significant proteomic information encoded in the MS peaks that collectively constitute the MS ‘fingerprint’. This review/perspective is intended to explore this topic in greater detail in the hopes that it may spur interest and further research in this area.

Areas covered: This paper examines the recent literature on utilizing MALDI-TOF for bacterial identification. Critical works highlighting protein biomarker identification of bacteria, arguments for and against protein biomarker identification, proteomic approaches to biomarker identification, emergence of MALDI-TOF-TOF platforms and their use for top-down proteomic identification of bacterial proteins, protein denaturation and its effect on protein ion fragmentation, collision cross-sections and energy deposition during desorption/ionization are also explored.

Expert commentary: MALDI-TOF and TOF-TOF mass spectrometry platforms will continue to provide chemical analyses that are rapid, cost-effective and high throughput. These instruments have proven their utility in the taxonomic identification of pathogenic bacteria at the genus and species level and are poised to more fully characterize these microorganisms to the benefit of clinical microbiology, food safety and other fields.