共查询到17条相似文献,搜索用时 109 毫秒
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丝状真菌分泌蛋白与其致病性密切相关,目前对于病原真菌的蛋白胞外分泌途径及其调控机制的报道不多。为建立一个方便高效的真菌分泌蛋白调控途径的遗传研究体系,本研究以植物病原丝状真菌——板栗疫病菌寄生隐赤壳Cryphonectria parasitica为对象,选取分泌表达量最高的两个分泌蛋白的信号肽SP1和SP2,分别构建带有GUS报告基因的分泌蛋白表达载体pCPXBle-SP1-GUS和pCPXBle-SP2-GUS并用于转化板栗疫病菌。选择高效分泌GUS蛋白的转化株SP1-9为出发菌株,利用农杆菌介导的遗传转化技术构建了T-DNA插入突变体库,从576个突变体中筛选到2株GUS分泌表达明显降低的突变体。本研究成功构建了可用于研究丝状真菌蛋白分泌的遗传研究体系,并筛选获得了分泌蛋白缺陷突变体,为深入研究丝状真菌分泌途径及其调控机制奠定了基础。 相似文献
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蛋白质分泌对于细菌的生长和繁殖具有至关重要的作用.在革兰氏阴性菌中,蛋白质分泌包括两步和一步分泌途径,主要涉及Sec、SRP和Tat途径.近年来发现I-Ⅳ型途径也参与胞内蛋白质转运.主要介绍革兰氏阴性茵蛋白分泌的机制及生理意义.对于细菌蛋白分泌机制的深入研究将为细茵蛋白质分泌工程和病原微生物的防治带来有益启示. 相似文献
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人分泌粒蛋白III的克隆和表达(英文) 总被引:1,自引:0,他引:1
研究了一个新的人分泌蛋白基因_分泌粒蛋白III(secretograninIII,SgIII)。SgIII蛋白序列共有 4 6 8个氨基酸残基 ,N端有一段疏水信号肽 ,序列中含有DSTK重复序列和 7对二元碱性氨基酸 (dibasicsites) ,这些结构特点同其他分泌粒蛋白家族成员相类似。人源SgIII蛋白在小鼠、大鼠和爪蟾中各有一个同源蛋白。基因组分析表明 ,SgIII基因位于人 15号染色体上 ,含有 12个外显子 ,分布在 39kb长的基因组DNA上。Western印迹和免疫细胞化学实验证实 ,SgIII蛋白同其他分泌粒蛋白家族成员一样 ,通过分泌途径被分泌到胞外。SgIII在多种组织中都有表达 ,Northern印迹显示SgIII的mRNA主要有 2 .2kb和 1.9kb两种形式 ,但在脑中还有 4 .5kb和 3.3kb大小的两种特异转录本。 相似文献
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大肠杆菌是表达重组蛋白最常用的宿主之一。利用大肠杆菌分泌途径胞外表达重组蛋白具有可促进蛋白正确折叠,有效减少包涵体形成,简化纯化工序等诸多优势,近年来备受关注。其中,大肠杆菌I型分泌途径具有分泌表达速度快,蛋白活性高,对宿主代谢无影响等特点,是目前应用最广泛的分泌途径之一。综述了大肠杆菌I型分泌系统的元件组成和分泌机理及提高I型分泌系统蛋白表达量的有效策略,为重组蛋白生产应用提供了理论依据。 相似文献
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芽胞杆菌属具有良好的蛋白表达和分泌能力,在工业酶的生产中被广泛应用,是理想的工业宿主菌,但实现蛋白分泌表达的普遍高效性还存在许多瓶颈。本文综述了芽胞杆菌的蛋白分泌表达策略,从启动子、信号肽、分泌途径、宿主和培养条件这5个方面总结了提高芽胞杆菌中分泌表达重组蛋白的方法,对芽胞杆菌高效生产工业酶有一定的参考价值,最后展望了优化芽胞杆菌分泌表达的研究方向,各种新型生物技术的发展必将推进芽胞杆菌在分泌表达领域有更深入的应用。 相似文献
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Glucose Repression [1,2] Saccharomyces cerevisiae and other yeasts can growwell on different kinds of carbon sources. However,glucose and fructose are the best carbon sources for theirgrowth. When the medium contains glucose or fructose,the biosynthesis of enzyme catalyzing degradation of othercarbon sources will be greatly reduced or stopped. Thisphenomenon is called glucose repression. Although much progress has been made in this field,the exact mechanisms of glucose repression in yeastsa… 相似文献
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Peter J. Punt G. Veldhuisen Cees A. M. J. J. van den Hondel 《Antonie van Leeuwenhoek》1994,65(3):211-216
Although the application of filamentous fungi, such asAspergillus niger for the production of extracellular proteins is well established for several decades, hardly any information is available about the molecular mechanisms of the process of protein secretion in these organisms.Two lines of research initiated towards a systematic analysis of the mechanism of protein targeting and secretion are presented in this paper.1 — To study routing and targeting of proteins in filamentous fungi the availability of a versatile reporter/carrier protein will be of considerable importance. Experiments towards the identification of such a protein are presented.2 — In analogy to the situation inSaccharomyces cerevisiae, the availability of defined (conditional) mutations in the secretion pathway will provide very important information about the organisation of the pathway. Therefore, based on results obtained inS. cerevisiae, the cloning of several fungal secretion genes was started. The results of the cloning and characterisation of one of these genes is presented. 相似文献
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Mariana Regente Marcela Pinedo Mercedes Elizalde Laura de la Canal 《Plant signaling & behavior》2012,7(5):544-546
The presence of apoplastic proteins without predicted signal peptide in the gene sequence suggests the existence of protein secretion independent of the ER/Golgi classical route. In animals, one of the pathways proposed for alternative protein secretion involves the release of exosomes to the extracellular space. Although this pathway has not been dissected in plants some indirect evidence is emerging. We have reported that apoplastic fractions of sunflower seeds contain exosome-like vesicles. Besides, these vesicles are enriched in the lectin Helja, which is immunolocalized in the extracellular space even if it the protein has no predicted signal peptide. Here we show that Helja is not glycosylated and its secretion is insensitive to brefeldin A, two of the major characteristics to discard ER/Golgi-mediated protein transport. Moreover, the levels of Helja in sunflower extracellular vesicles are not affected by brefeldin A treatment. Our results suggest that Helja could be exported through an exosome-mediated pathway and point out that this mechanism may be responsible for the secretion of at least part of the leaderless proteins detected in the extracellular compartment of plants. 相似文献
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Sims AH Gent ME Lanthaler K Dunn-Coleman NS Oliver SG Robson GD 《Applied and environmental microbiology》2005,71(5):2737-2747
Filamentous fungi have a high capacity for producing large amounts of secreted proteins, a property that has been exploited for commercial production of recombinant proteins. However, the secretory pathway, which is key to the production of extracellular proteins, is rather poorly characterized in filamentous fungi compared to yeast. We report the effects of recombinant protein secretion on gene expression levels in Aspergillus nidulans by directly comparing a bovine chymosin-producing strain with its parental wild-type strain in continuous culture by using expressed sequence tag microarrays. This approach demonstrated more subtle and specific changes in gene expression than those observed when mimicking the effects of protein overproduction by using a secretion blocker. The impact of overexpressing a secreted recombinant protein more closely resembles the unfolded-protein response in vivo. 相似文献
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he presence of proteins in the culture liquid of filamentous fungi under study was found to induce the secretion of proteinases. The inhibitory analysis of the major extracellular proteinases of the saprotrophic fungus Trichoderma harzianum and the phytopathogenic fungus Alternaria alternata showed that they both belong to the group of serine proteinases. The substrate specificity of these proteinases and their sensitivity to inhibitors suggest that the enzyme of T. harzianum is a subtilisin-like proteinase and the enzyme of A. alternata is a trypsin-like proteinase. This difference between the proteinases may reflect the physiological difference between their producers (saprotroph and phytopathogen). 相似文献
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Ward OP 《Biotechnology advances》2012,30(5):1119-1139
The initial focus of recombinant protein production by filamentous fungi related to exploiting the extraordinary extracellular enzyme synthesis and secretion machinery of industrial strains, including Aspergillus, Trichoderma, Penicillium and Rhizopus species, was to produce single recombinant protein products. An early recognized disadvantage of filamentous fungi as hosts of recombinant proteins was their common ability to produce homologous proteases which could degrade the heterologous protein product and strategies to prevent proteolysis have met with some limited success. It was also recognized that the protein glycosylation patterns in filamentous fungi and in mammals were quite different, such that filamentous fungi are likely not to be the most suitable microbial hosts for production of recombinant human glycoproteins for therapeutic use. By combining the experience gained from production of single recombinant proteins with new scientific information being generated through genomics and proteomics research, biotechnologists are now poised to extend the biomanufacturing capabilities of recombinant filamentous fungi by enabling them to express genes encoding multiple proteins, including, for example, new biosynthetic pathways for production of new primary or secondary metabolites. It is recognized that filamentous fungi, most species of which have not yet been isolated, represent an enormously diverse source of novel biosynthetic pathways, and that the natural fungal host harboring a valuable biosynthesis pathway may often not be the most suitable organism for biomanufacture purposes. Hence it is expected that substantial effort will be directed to transforming other fungal hosts, non-fungal microbial hosts and indeed non microbial hosts to express some of these novel biosynthetic pathways. But future applications of recombinant expression of proteins will not be confined to biomanufacturing. Opportunities to exploit recombinant technology to unravel the causes of the deleterious impacts of fungi, for example as human, mammalian and plant pathogens, and then to bring forward solutions, is expected to represent a very important future focus of fungal recombinant protein technology. 相似文献
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The secretion pathway in filamentous fungi: a biotechnological view 总被引:14,自引:0,他引:14
Conesa A Punt PJ van Luijk N van den Hondel CA 《Fungal genetics and biology : FG & B》2001,33(3):155-171
The high capacity of the secretion machinery of filamentous fungi has been widely exploited for the production of homologous and heterologous proteins; however, our knowledge of the fungal secretion pathway is still at an early stage. Most of the knowledge comes from models developed in yeast and higher eukaryotes, which have served as reference for the studies on fungal species. In this review we compile the data accumulated in recent years on the molecular basis of fungal secretion, emphasizing the relevance of these data for the biotechnological use of the fungal cell and indicating how this information has been applied in attempts to create improved production strains. We also present recent emerging approaches that promise to provide answers to fundamental questions on the molecular genetics of the fungal secretory pathway. 相似文献