后基因组时代的植物蛋白质组学

蛋白质组学是后基因组时代功能基因组学研究的新兴学科和热点领域。简要介绍了蛋白质组学产生的科学背景、研究内容和研究方法。重点综述了植物个体水平、组织、器官和亚细胞水平蛋白组研究 ,植物蛋白质组学在植物遗传多样性、遗传突变体、植物的逆境生理等方面的研究进展。最后展望了今后的发展前景。     

后基因组时代的植物蛋白质组学

蛋白质组学是后基因组时代功能基因组学研究的新兴学科和热点领域.简要介绍了蛋白质组学产生的科学背景、研究内容和研究方法.重点综述了植物个体水平、组织、器官和亚细胞水平蛋白组研究,植物蛋白质组学在植物遗传多样性、遗传突变体、植物的逆境生理等方面的研究进展.最后展望了今后的发展前景.     

蛋白质组研究技术及其进展

蛋白质组学是在后基因时代出现的一个新的研究领域．它是对机体或组织或细胞的全部蛋白质的表达和功能模式进行研究。介绍并总结了蛋白质组研究的主要技术,包括双向凝胶电泳、质谱技术、蛋白质芯片和生物信息学等。     

大鼠脑皮质表达蛋白质组学研究

文章用蛋白质组学方法初步分析大鼠脑皮质蛋白质的表达。提取大鼠脑皮质蛋白质,双向凝胶电泳分离,考马斯亮蓝染色,胰蛋白酶胶内酶解,用基质辅助激光解吸/电离飞行时间质谱对酶解后的肽段进行分析,根据肽质量指纹图谱,检索专业数据库(Swissprot),对蛋白质进行鉴定。鉴定出84个蛋白,分别属于代谢酶、细胞骨架蛋白、热休克蛋白、抗氧化蛋白、信号传导蛋白、蛋白酶体相关蛋白、神经元特异蛋白及神经胶质蛋白等。文章结果丰富了大鼠脑皮质蛋白质组数据库,为在大鼠模型上研究神经疾病奠定了基础。     

蛋白质组学应用研究进展

蛋白质组学是现代生命科学领域一个新的发展迅速的带头学科,其研究成果为药物筛选、新药开发、临床诊断及新陈代谢途径研究等提供了理论依据和技术基础。该文就蛋白质组学在基础生物学、药物开发、医学、农业等方面的应用进行了综述。     

蛋白质组学中的分离检测技术

10多年来,随着基因组学研究取得的巨大成就,蛋白质组学的研究也得到了突飞猛进的发展,并产生了许多先进的分离检测技术,包括与电泳相关的和非电泳的技术。本就蛋白质组学中的分离检测技术,如双向电泳、差异凝胶电泳、毛细管电泳、液相色谱质谱联用、蛋白质芯片等作一综述。     

植物蛋白质组学研究进展

植物结构蛋白质组学研究目的在不断变化。早期旨在比较不同基因型和株系,估测系统发育距离。随后是用蛋白N端Edman测序法或氨基酸分析法鉴定蛋白。如今,应用双向凝胶电泳和质谱法,已能联手成功地解决蛋白分离和鉴定问题。这将有助于对不同突变系与野生型作比较和对不同的表达基因鉴定,应用数据库和作图软件有可能获得功能蛋白构象。     

蛋白质组学在结核分枝杆菌研究中的应用

蛋白质组学是在基因组学基础上发展起来的新兴学科, 其基本技术包括样品制备、蛋白质分离和蛋白质鉴定分析, 其中的核心技术是双向凝胶电泳技术(2-Dimensional Electrophoresis, 2-DE)和质谱技术(Mass Spectrometry, MS)。近年来, 蛋白质组学技术已应用于结核分枝杆菌的研究领域。应用蛋白质组学技术分离、鉴定、检测结核分枝杆菌致病株的全菌蛋白及分泌蛋白, 分析其蛋白组成, 可深入解析结核分枝杆菌的致病机理和耐药机制。通过对结核分枝杆菌致病株抗原的分析, 为研制预防结核病的新型疫苗拓展了空间。通过对结核分枝杆菌临床分离株的蛋白组成分析还发现了一些有意义的结核病早期诊断标志物。蛋白质组学技术还应用于寻找新的药物靶标, 在研制和筛选新的抗结核药物等方面展示了一些有价值的研究成果, 为更好地开展结核病的预防、早期诊断及治疗打下了基础。     

大鼠海马的表达蛋白质组学实验研究

目的：用蛋白质组学方法初步分析大鼠海马蛋白质的表达。方法：提取大鼠海马蛋白质样品后,用双向凝胶电泳对其分离,经考马斯亮蓝染色后,产生大鼠海马蛋白质双向凝胶电泳图谱。从凝胶上切割分离的蛋白质,经胰蛋白酶胶内酶解,通过基质辅助激光解吸／电离飞行时间质谱（MALDI-TOF-MS）对酶解后的肽段进行分析。根据肽段质谱数据,经数据库（NCBI）检索,对蛋白质进行鉴定。结果：鉴定了37种具有明确功能的蛋白质,它们分别属于代谢酶、细胞骨架蛋白、热休克蛋白、抗氧化蛋白、信号传导蛋白、蛋白酶体相关蛋白、神经元特异蛋白及神经胶质蛋白。另外,鉴定了3种未知功能蛋白。结论：为建立大鼠海马蛋白质组数据库提供必要的资料,为在大鼠模型上研究神经疾病发病机理奠定基础。     

免疫蛋白质组学及疫苗靶位筛选

蛋白质组学自建立起即向生命科学的其他研究领域渗透,形成了多样的交叉学科。免疫蛋白质组学即由蛋白质组学与蛋白质免疫印迹技术相结合而产生的一个新研究方向,在免疫原性蛋白质研究及疫苗靶位筛选中展示出广泛的应用前景。该文就免疫蛋白质组学的形成、主要研究技术体系及其进展、在免疫原性蛋白质鉴定、新型高效候选疫苗靶位发现等方面进行概述。     

Towards posttranslational modification proteome of royal jelly

Royal jelly (RJ) is a secretory protein from the hypopharyngeal glands of nurse honeybee workers, which contains a variety of proteins of which major royal jelly proteins (MRJPs) are some of the most important. It plays important roles both for honeybee and human. Each family of MRJP 1-5 displays a string of modified protein spots in the RJ proteome profile, which may be caused by posttranslational modifications (PTMs) of MRJPs. However, information on the RJ PTMs is still limited. Therefore, the PTM status of RJ was identified by using complementary proteome strategies of two-dimensional gel electrophoresis (2-DE), shotgun analysis in combination with high performance liquid chromatography-chip/electrospray ionization quadrupole time-of-flight/tandem mass spectrometry and bioinformatics. Phosphorylation was characterized in MRJP 1, MRJP 2 and apolipophorin-III-like protein for the first time and a new site was localized in venom protein 2 precursor. Methylation and deamidation were also identified in most of the MRJPs. The results indicate that methylation is the most important PTM of MRJPs that triggers the polymorphism of MRJP 1-5 in the RJ proteome. Our data provide a comprehensive catalog of several important PTMs in RJ and add valuable information towards assessing both the biological roles of these PTMs and deciphering the mechanisms underlying the beneficial effects of RJ for human health.     

Induction of a cell-survival adaptive response in MRC-5 cells by hydroquinone

Although it is known that some cell types exhibit an adaptive response to low levels of cytotoxic agents, its molecular mechanism is still unclear and it has yet to be established whether this is a universal phenomenon that occurs in all cell types in response to exposure to every chemical. Hydroquinone is a synthetically produced as well as naturally occurring chemical. Human exposure to hydroquinone is predominantly through diet, cigarette smoke and occupational contact. Here, we asked whether exposure of human lung embryonic MRC-5 fibroblasts to low doses of hydroquinone leads to a cell-survival adaptive response. We further examined the possible mechanisms of an adaptive response using proteomics. We found that exposure of MRC-5 cells to low levels of hydroquinone resulted in adaptation to further exposure to lethal doses of hydroquinone at the cell-survival level, measured using the alamarBlue assay, lactate dehydrogenase leakage assay and Annexin V-FITC/PI staining. To determine the polypeptide products involved in the adaptive response, two-dimensional electrophoresis combined with mass spectrometry was performed. Twenty-three protein spots were significantly changed during the adaptive response. Among them, 21 protein spots were identified by peptide mass fingerprinting and/or peptide sequence analysis by MALDI-TOF-TOF. The identified proteins included proteins involved in energy metabolism, protein folding, redox regulation, cell structure and cell signaling. Our data suggest that the hydroquinone-induced adaptive response is a complex process involving in a modulation of diverse cellular functions, and that the redox regulation might be a common mechanism during the adaptive response.     

Optimal isolation of mitochondria for proteomic analyses

Considering the key role of mitochondria in cellular (dys)functions, we compared a standard isolation protocol, followed by lysis in urea/detergent buffer, with a commercially available isolation buffer that rapidly yields a mitochondrial protein fraction. The standard protocol yielded significantly better overall resolution and coverage of both the soluble and membrane mitochondrial proteomes; although the kit was faster, it resulted in recovery of only approximately 56% of the detectable proteome. The quality of “omic” analysis depends on sample handling; for large-scale protein studies, well-resolved proteomes are highly dependent on the purity of starting material and the rigor of the extraction protocol.     

Proteomic detection of changes in protein synthesis induced by NGX6 transfected in human nasopharyngeal carcinoma cells

In the previous study, we cloned a new gene, named NGX6, related to nasopharyngeal carcinoma (NPC) at 9p. To study its function in the pathogenesis of NPC, we have investigated changes in protein synthesis between NPC cell line HNE1 and that transfected with the gene. Using high-resolution two-dimensional electrophoresis, we found that 22 protein spots showed variations that were significant and reproducible. Analysis of matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and database searches identified seven proteins that were upregulated and seven proteins that were downregulated. These proteins included Fas, zinc-finger protein (ZNF), RAB, and Ah receptor-interacting protein (AIP). The functional implications of the identified proteins are discussed.     

Proteomics without polyacrylamide: qualitative and quantitative uses of tandem mass spectrometry in proteome analysis

Proteomics can be thought of as an attempt to understand the information encoded in genomic sequences from the perspective of proteins; i.e. the structure, function and regulation of biological processes at the protein level. In practice it stands in stark contrast to the hypothesis-driven serial approach practiced in the last century that was so successful for protein chemists and is built on the basic understanding of protein physicochemical properties developed during that era. Proteomics attempts to study biological processes comprehensively or globally by systematic parallel analysis of proteins expressed in a cell. While there are many analytical techniques in use and under development in proteomics, mass spectrometry is currently one of the field's most important discovery-based tools. This article will review some of the current approaches for qualitative and quantitative uses of tandem mass spectrometry in the field of proteomics specifically avoiding a discussion of the use of gel electrophoresis prior to mass spectrometry. Electronic Publication     

Proteomic analysis of kidney in rats chronically exposed to fluoride

Two-dimensional gel electrophoresis (2-DE) was used to better understand alterations in renal metabolism induced by fluoride (F). Three groups of weanling male Wistar rats were treated with drinking water containing 0 (control), 5, or 50 ppm F for 60 days (n = 6/group). Kidneys were collected for proteomic and histological (HE) analysis. After protein isolation, renal proteome profiles were examined using 2-DE and Colloidal Coomassie Blue staining. Protein spots with a 2-fold significant difference as detected by quantitative intensity analysis (Image Master Platinum software) and t-test (p < 0.05) were excised and analyzed by MALDI-TOF MS (matrix assisted laser desorption ionization-time-of-flight mass spectrometry). The histological analysis revealed no damage in kidneys induced by F, except for a vascular congestion in the 50 ppm F group. Between control vs 50 ppm F, and control vs 5 ppm F groups, 12 and 6 differentially expressed proteins were detected, respectively. Six proteins, mainly related with metabolism, detoxification and housekeeping, were successfully identified. At the high F group, pyruvate carboxylase, a protein involved in the formation of oxaloacetate was found to be downregulated, while enoyl coenzyme A hydratase, involved in fatty acids oxidation, was found to be upregulated. Thus, proteomic analysis can provide new insights into the alterations in renal metabolism after F exposure, even in low doses.     

同时放化疗敏感性不同宫颈癌组织的二维电泳图谱建立及质谱分析

目的:分析同时放化疗后高敏感和低敏感中晚期宫颈癌组织之间蛋白质组的差异,为确定宫颈癌同时放化疗敏感性相关蛋白提供依据。方法:收集治疗前的中晚期宫颈癌活检组织标本,均为中分化鳞癌,置于—80℃超低温冰箱保存。同时放化疗后,根据WHO实体瘤疗效判断标准,将收集的10例宫颈癌组织标本分为高敏感组(5例)和低敏感组(5例);提取组织总蛋白,进行双向凝胶电泳(two-dimensional gel electrophoresis,2-DE)得到凝胶图谱,采用PD-quest 7.0软件进行匹配和差异分析,识别两组之间表达差异蛋白点。将部分差异蛋白点进行胶内原位酶解后进行MALDI-TOF-MS分析,获取肽质量指纹图,数据库搜索鉴定蛋白质。结果:建立了分辨率高,重复性好的同时放化疗后宫颈癌组织高敏感组和低敏感组的双向凝胶电泳图谱。高敏感组蛋白点数为781±74个,低敏感组蛋白点数为766±52个,组间平均匹配率为87.6%。质谱分析成功鉴定15个差异表达蛋白,其中7个蛋白质在高敏感组高表达,8个蛋白质在高敏感组低表达。结论:蛋白质2-DE图谱和质谱鉴定结果说明同时放化疗后高敏感组和低敏感组宫颈癌组织间存在蛋白质表达的差异,这些蛋白质可能与同时放化疗敏感性有关。