利用植物生产异源蛋白的研究进展

植物作为生产异源蛋白的生物反应器,近年来颇受关注,与复杂,昂贵的以细胞培养为基础的表达系统相比,具有安全、廉价及规模化生等特点。作者简述了利用植物生产外源蛋白的主要策略及异源基因在植物中表达的研究进展。     

Kinetics of cell growth and heterologous glucoamylase production in recombinant Aspergillus nidulans

In the work, a study of cell growth and the regulation of heterologous glucoamylase synthesis under the control of the positively regulated alcA promoter in a recombinant Aspergillus nidulans is presented. We found that similar growth rates were obtained for both the host and recombinant cells when either glucose or fructose was employed as sole carbon and energy source. Use of the potent inducer cyclopentanone in concentrations greater than 3 mM resulted n maximum glucoamylase concentration and maximum overall specific glucoamylase concentration over 80 h of batch cultivation. However, cyclopentanone concentrations in excess of 3 mM also showed an inhibitory effect on spore germination as well as fungal growth. In contrast, another inducer, threonine, had no negative effect on spore germination even when concentrations of up to 100 mM were used with either glucose or fructose as carbon source. Glucoamylase synthesis in the presence of glucose plus either inducer did not begin until glucose was totally depleted, suggesting strong catabolite repression. Similar results were obtained when fructose was employed, although low levels of glucoamylase were detected before fructose depletion, suggesting partial catabolite repression. The highest enzyme concentration (570 mg/L) and overall specific enzyme concentration (81 mg/g cell) were observed in batch culture when cyclopentanone was the inducer and fructose the primary carbon source. A maximum glucoamylase concentration of 1.1 g/L and an overall specific glucoamylase concentration of 167 mg/g cell were obtained in a bioreactor using cyclopentanone as the inducer and limited-fructose feeding strategy, which nearly doubles the glucoamylase productivity from batch cultures. (c) 1993 John Wiley & Sons, Inc.     

Production of wild-type and peptide fusion cutinases by recombinant Saccharomyces cerevisiae MM01 strains

This study focused on the growth of Saccha-romyces cerevisiae MM01 recombinant strains and the respective production of three extracellular heterologous cutinases: a wild-type cutinase and two cutinases in which the primary structure was fused with the peptides (WP)(2) and (WP)(4), respectively. Different cultivation and strategies were tested in a 2-L shake flask and a 5-L bioreactor, and the respective cell growth and cutinase production were analyzed and compared for the three yeast strains. The highest cutinase productions and productivities were obtained in the fed-batch culture, where wild-type cutinase was secreted up to a level of cutinase activity per dry cell weight (specific cell activity) of 4.1 Umg(-1) with activity per protein broth (specific activity) of 266 Umg(-1), whereas cutinase-(WP)(2) was secreted with a specific cell activity of 2.1 Umg(-1) with a specific activity of 200 Umg(-1), and cutinase-(WP)(4) with a specific cell activity of 0.7 Umg(-1) with a specific activity of 15 Umg(-1). The results indicate that the fusion of hydrophobic peptides to cutinase that changes the physical properties of the fused protein limits cutinase secretion and subsequently leads to a lower plasmid stability and lower yeast cell growth. These effects were observed under different cultivation conditions (shake flask and bioreactor) and cultivation strategies (batch culture versus fed-batch culture).     

嗜热枯草芽孢杆菌普鲁兰酶基因的表达与重组酶的性质

克隆嗜热枯草芽孢杆菌WY-34普鲁兰酶基因并在大肠杆菌中进行表达,对重组酶进行纯化和酶学性质研究,根据枯草芽孢杆菌的普鲁兰酶蛋白序列,设计PCR引物对WY-34的普鲁兰酶基因进行克隆及异源表达.对表达蛋白的最适pH、pH稳定性及最适温度、温度稳定性等特性进行研究,并测定重组普鲁兰酶的底物特异性.将普鲁兰酶基因pluA克隆及分析序列后,发现基因长度为2.2 kb,编码718个氨基酸,在大肠杆菌中异源表达.通过Ni-IDA亲和层析一步纯化得到比活力为93.2 U/mg的纯酶,SDS-PAGE和凝胶层析测定的分子量分别为76.2 kD和74.3 kD.酶学性质研究表明,该酶的最适温度为40℃,在温度不高于45℃条件下稳定;最适pH为6.0,同一温度下pH 6.0-9.0范围内处理30 min可以保持80％以上的酶活力,此酶对普鲁兰糖有很强的底物特异性.此重组普鲁兰酶的酶学性质表明此酶具有一定的工业化应用价值.     

丝状真菌高效表达异源蛋白研究进展

丝状真菌是具有高效分泌蛋白质潜力的真核表达系统, 能对蛋白质进行翻译后修饰, 如蛋白质糖基化等; 并且比植物、昆虫和哺乳动物细胞具有更快的生长速率。近年来, 随着真菌分子遗传技术和菌种改良策略的进步, 尤其是真菌基因组学的发展, 利用丝状真菌生产异源蛋白越来越受到关注。综述了丝状真菌作为细胞工厂生产异源蛋白的最新探索与进展, 其中包括功能基因组学在蛋白表达与分泌研究中的应用, 同时探讨了异源蛋白表达和生产的改进策略。     

丝状真菌高效表达异源蛋白研究进展

丝状真菌是具有高效分泌蛋白质潜力的真核表达系统, 能对蛋白质进行翻译后修饰, 如蛋白质糖基化等; 并且比植物、昆虫和哺乳动物细胞具有更快的生长速率。近年来, 随着真菌分子遗传技术和菌种改良策略的进步, 尤其是真菌基因组学的发展, 利用丝状真菌生产异源蛋白越来越受到关注。综述了丝状真菌作为细胞工厂生产异源蛋白的最新探索与进展, 其中包括功能基因组学在蛋白表达与分泌研究中的应用, 同时探讨了异源蛋白表达和生产的改进策略。     

黑曲霉mnn9基因缺失株的构建及其功能分析

本研究通过分析比较黑曲霉基因组与酿酒酵母基因组序列同源性,分离鉴定了黑曲霉mnn9基因。通过同源重组,在黑曲霉GICC2773(ΔAP4:pGPT-laccase)菌株中敲除了mnn9基因。该黑曲霉mnn9基因缺失使外源蛋白漆酶的分泌表达提高了14%,内源蛋白葡萄糖淀粉酶的分泌表达则降低了4%。     

Comparison of barley malt α-amylase isozymes 1 and 2: construction of cDNA hybrids by in vivo recombination and their expression in yeast

Germinating barley produces two α-amylase isozymes, AMY1 and AMY2, having 80% amino acid (aa) sequence identity and differing with respect to a number of functional properties. Recombinant AMY1 (re-AMYI) and AMY2 (re-AMY2) are produced in yeast, but whereas all re-AMYI is secreted, re-AMY2 accumulates within the cell and only traces are secreted. Expression of AMY1::AMY2 hybrid cDNAs may provide a means of understanding the difference in secretion efficiency between the two isozymes. Here, the efficient homologous recombination system of the yeast, Saccharomyces cerevisiae, was used to generate hybrids of barley AMY with the N-terminal portion derived from AMY1, including the signal peptide (SP), and the C-terminal portion from AMY2. Hybrid cDNAs were thus generated that encode either the SP alone, or the SP followed by the N-terminal 21, 26, 53, 67 or 90 aa from AMY1 and the complementary C-terminal sequences from AMY2. Larger amounts of re-AMY are secreted by hybrids containing, in addition to the SP, 53 or more aa of AMY1. In contrast, only traces of re-AMY are secreted for hybrids having 26 or fewer aa of AMY1. In this case, re-AMY hybrid accumulates intracellularly. Transformants secreting hybrid enzymes also accumulated some re-AMY within the cell. The AMY1 SP, therefore, does not ensure re-AMY2 secretion and a certain portion of the N-terminal sequence of AMY1 is required for secretion of a re-AMYI::AMY2 hybrid.     

Semicontinuous system for the production of recombinant mCherry protein in Chlamydomonas reinhardtii

Biotechnology advances have allowed bacteria, yeasts, plants, mammalian and insect cells to function as heterologous protein expression systems. Recently, microalgae have gained attention as an innovative platform for recombinant protein production, due to low culture media cost, compared to traditional systems, as well as the fact that microalgae such as Chlamydomonas reinhardtii are considered safe (GRAS) by the Food and Drug Administration (FDA). Previous studies showed that recombinant protein production in traditional platforms by semicontinuous process increased biomass and bio product productivity, when compared to batch process. As there is a lack of studies on semicontinuous process for recombinant protein production in microalgae, the production of recombinant mCherry fluorescent protein was evaluated by semicontinuous cultivation of Chlamydomonas reinhardtii in bubble column photobioreactor. This semicontinuous cultivation process was evaluated in the following conditions: 20%, 40%, and 60% culture portion withdrawal. The highest culture withdrawal percentage (60%) provided the best results, as an up to 161% increase in mCherry productivity (454.5 RFU h⁻¹ – Relative Fluorescence Unit h⁻¹), in comparison to batch cultivation (174.0 RFU h⁻¹) of the same strain. All cultivations were carried out for 13 days, at pH 7, temperature 25°C and, by semicontinuous process, two culture withdrawals were taken during the cultivations. Throughout the production cycles, it was possible to obtain biomass concentration up to 1.36 g L⁻¹.     

基于植物重组蛋白产量提高的研究进展

重组蛋白为疾病治疗提供了新手段,同时创造了可观的经济效益。利用经济作物(主要是烟草)、谷类作物、豆科作物和蔬菜作物生产具有药用价值的重组蛋白是“分子农业”最热门的研究内容。尽管许多重组蛋白已在植物中表达,但只有一小部分已成功投入使用。为了极大地克服限制植物生产重组蛋白发展的问题,研究人员改进表达系统以增加重组蛋白的产量。本文从分析植物产生重组蛋白产量低和/或生物活性低等问题入手,综述了近些年来解决这些问题的优化策略,同时提出了提高植物生产重组蛋白产量的研究方向。     

普鲁兰酶的异源表达、结构解析及分子改造研究进展

淀粉是由葡萄糖单元通过α-1,4-葡萄糖苷键和α-1,6-葡萄糖苷键连接而成,不仅是食物的主要成分,也是淀粉深加工工业的基本原料来源。普鲁兰酶能够高效水解淀粉分子中的α-1,6-葡萄糖苷键,与其他的淀粉加工酶复合使用,能够有效提高淀粉的利用率,在淀粉深加工工业中具有“提质增效”的重要作用。本文综述了普鲁兰酶产酶菌株的筛选及编码基因的克隆表达,总结了表达元件及发酵条件优化对普鲁兰酶产酶水平的影响,探讨了普鲁兰酶结构解析及分子改造等方面的研究进展。同时分析了当前研究中存在的问题,并对未来的研究进行了展望,以期为普鲁兰酶的研究及应用提供参考和启示。     

Expression of recombinant protein using Corynebacterium Glutamicum: progress,challenges and applications

Corynebacterium glutamicum (C. glutamicum) is a highly promising alternative prokaryotic host for recombinant protein expression, as it possesses several significant advantages over Escherichia coli (E. coli), the currently leading bacterial protein expression system. During the past decades, several experimental techniques and vector components for genetic manipulation of C. glutamicum have been developed and validated, including strong promoters for tightly regulating target gene expression, various types of plasmid vectors, protein secretion systems and methods of genetically modifying the host strain genome to improve protein production potential. This review critically discusses current progress in establishing C. glutamicum as a host for recombinant protein expression, and examines, in depth, some successful case studies of actual application of this expression system. The established “expression tool box” for developing novel constructs based on C. glutamicum as a host are also evaluated. Finally, the existing issues and solutions in process development with C. glutamicum as a host are specifically addressed.     

Plant cell packs: a scalable platform for recombinant protein production and metabolic engineering

Industrial plant biotechnology applications include the production of sustainable fuels, complex metabolites and recombinant proteins, but process development can be impaired by a lack of reliable and scalable screening methods. Here, we describe a rapid and versatile expression system which involves the infusion of Agrobacterium tumefaciens into three‐dimensional, porous plant cell aggregates deprived of cultivation medium, which we have termed plant cell packs (PCPs). This approach is compatible with different plant species such as Nicotiana tabacum BY2, Nicotiana benthamiana or Daucus carota and 10‐times more effective than transient expression in liquid plant cell culture. We found that the expression of several proteins was similar in PCPs and intact plants, for example, 47 and 55 mg/kg for antibody 2G12 expressed in BY2 PCPs and N. tabacum plants respectively. Additionally, the expression of specific enzymes can either increase the content of natural plant metabolites or be used to synthesize novel small molecules in the PCPs. The PCP method is currently scalable from a microtiter plate format suitable for high‐throughput screening to 150‐mL columns suitable for initial product preparation. It therefore combined the speed of transient expression in plants with the throughput of microbial screening systems. Plant cell packs therefore provide a convenient new platform for synthetic biology approaches, metabolic engineering and conventional recombinant protein expression techniques that require the multiplex analysis of several dozen up to hundreds of constructs for efficient product and process development.     

相容溶质四氢嘧啶的微生物合成研究进展北大核心CSCD

四氢嘧啶(ectoine)作为一种氨基酸的衍生物,是嗜盐微生物胞内重要的天然次级代谢物,具有保护细胞和稳定生物大分子的功能,可广泛应用于药物制备佐剂、器官移植与保存、皮肤创伤修复与新型化妆品研发等生物医学领域。由于四氢嘧啶的医用价值和商业市场需求,文中从野生菌株的筛选与诱变育种、构建基因工程菌株与系统代谢整合工程菌株、四氢嘧啶的优化发酵与生产工艺以及抽提纯化工艺等方面,系统论述了四氢嘧啶高效积聚和过量化生产研究策略,并展望多组学、计算生物学及“细胞工厂”等技术在后续四氢嘧啶高效生产上的应用前景。     

Optimization of fed-batch production of the model recombinant protein GFP in Lactococcus lactis

Optimization of recombinant protein production using lactic acid bacteria (LAB) remains an important obstacle on the road to realizing LAB as oral vaccine delivery vehicles. Despite this, there have been few published investigations to explore the higher limits of LAB recombinant protein expression in fed-batch fermentations. In this study, results from response surface experiments suggested an optimal set of conditions for expression of green fluorescent protein (GFP), a model recombinant protein, in bench-scale, fed-batch Lactococcus lactis IL1403 fermentations. The 48 4-L fed-batch fermentations in this set of experiments, along with preliminary studies, investigated the effects of pH, temperature, hemin concentration, concentration of the nisin inducer per cell, and time of induction. Cell densities in this data set ranged from 2.9 to 7.4 g/L and maximum GFP expression per cell ranged from 0.1 to 4.4 relative fluorescence units (RFU)/g. The optimal 4-L, fed-batch fermentation process found here yields growth and protein expression values that dramatically improve upon results from traditional test tube and flask processes. Relative to the traditional process, the experimental optimum conditions yield 4.9 times the cell density, 1.6 times the protein per cell mass, and 8 times the total protein concentration. Unexpectedly, experiments also revealed that the compound hemin, known previously to improve growth and survival of Lactococcus lactis (L. lactis), negatively impacted recombinant protein production when added in concentrations from 5 to 20 microg/mL with this strain. The improvement in protein expression over traditional processes demonstrated here is an important step toward commercial development of LAB for oral delivery of recombinant vaccines and therapeutic proteins.     

Listeria monocytogenes Mutants Carrying Newcastle Disease Virus F Gene Fused to its actA and plcB： In vitro Expression and Immunogenicity in Chickens

Recombinant Listeria monocytogenes mutants carrying Newcastle disease virus (NDV) fusionprotein gene F were constructed by homologous recombination.NDV F or its truncated fragment Fa wasused as the model heterologous gene to be integrated into actA or plcB downstream of their signal sequences.Correct orientation of the inserted genes was verified by polymerase chain reaction amplification of F or Fa.The inserted F and Fa were expressed in the two recombinants Lm-AactA-F and Lm-AplcB-Fa as shown bysodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western blot.Both recombinantsexhibited reduced virulence to embryonated eggs and mice by about 1.5-2.5 logs as compared with theparent wild strain 10403S. They were also less invasive than strain 10403S (P<0.05). Chickens receiving therecombinant strains orally or intraperitoneally were partially protected from virulent NDV challenge possiblydue to enhancement of non-specific immunity because the antibody titers against the homologous virus strainor the recombinant truncated fusion protein were marginal. Further research is needed in other animal modelsto see if the low antibody response results from insufficient expression of the heterologous genes as a resultof failure of L. monocytogenes or its recombinants to persist or replicate in chickens.     

基因设计对重组蛋白表达的影响研究进展

利用异源表达系统生产重组蛋白已成为现代基因工程和生物工程研究热点和重点。但是研究者发现并非所有的基因都能在异源宿主中高效表达,除了宿主、分泌途径、启动子等因素外,基因自身的序列也蕴含了多种影响蛋白表达的因素,如密码子偏爱性,密码子对偏爱性,GC含量,mRNA二级结构,mRNA稳定性等。从基因设计的角度对影响蛋白表达的因素和方法进行了综述,尤其是对密码子优化和密码子对优化,详细讨论了与传统基因优化理念截然不同的密码子协调化及密码子对协调化等最新进展。     

Expression of a soluble form of iodotyrosine deiodinase for active site characterization by engineering the native membrane protein from Mus musculus

Reductive deiodination is critical for thyroid function and represents an unusual exception to the more common oxidative and hydrolytic mechanisms of dehalogenation in mammals. Studies on the reductive processes have been limited by a lack of convenient methods for heterologous expression of the appropriate proteins in large scale. The enzyme responsible for iodide salvage in the thyroid, iodotyrosine deodinase, is now readily generated after engineering its gene from Mus musculus. High expression of a truncated derivative lacking the membrane domain at its N-terminal was observed in Sf9 cells, whereas expression in Pichia pastoris remained low despite codon optimization. Ultimately, the desired expression in Escherichia coli was achieved after replacing the two conserved Cys residues of the deiodinase with Ala and fusing the resulting protein to thioredoxin. This final construct provided abundant enzyme for crystallography and mutagenesis. Utility of the E. coli system was demonstrated by examining a set of active site residues critical for binding to the zwitterionic portion of substrate.