溶菌酶分离纯化方法的研究进展

对近年来溶菌酶分离纯化的方法,如离子交换法、色谱法、膜处理技术、反胶团萃取法、亲和层析等进行了综述,并讨论了分离纯化方法的应用前景。     

微生物单细胞分离方法研究进展

自然界中大多数微生物处于未培养状态,被称为“微生物暗物质”。随着微生物单细胞分离方法的不断更新,利用新技术、新方法应对微生物纯培养的挑战获得了重要进展,这些新的分离及培养策略对推动微生物资源学的发展具有重要意义。尽管宏基因组学和基因组学数据相关成果日益增多,但微生物单细胞的分离与培养对于系统研究微生物的生态功能、遗传进化等仍至关重要。本文主要概述了目前使用的或正在研发的膜扩散培养法、微流控分选、荧光激活细胞分选、单细胞拉曼分选、光镊技术、显微操作技术等单细胞分离技术的原理与应用,及其在微生物单细胞分离和培养方面的优点与不足,同时展望了这些单细胞分离技术未来的发展和应用前景。     

木聚糖酶分离纯化技术

木聚糖酶应用广泛,其分离纯化是进行酶学性质研究、分子研究的前提条件,是成功确定氨基酸序列和三维结构的基础。综述微生物木聚糖酶分离纯化的方法,分析了常用方法在其分离纯化中的优缺点;强调了特异性分离纯化技术是高效的分离纯化方法;并对其它方法进行了概括。     

原位分离耦合技术制备生物丁醇的研究进展

笔者对吸附法、液液萃取法、气提法、渗透汽化法等提取技术原位分离耦合丁醇进行了综述,并对其分离特性与效果进行了比较。针对目前原位分离耦合发酵制备生物丁醇的应用现状和面临的挑战,并结合本课题组已取得的成果,对原位分离耦合发酵制备生物丁醇的前景进行了展望。     

双水相技术在酶分离纯化中的运用

阐述了双水相技术在酶分离纯化中的应用 ,分析了影响双水相技术分离纯化酶的各种因素 ,并探讨了双水相技术在酶分离纯化应用中的发展方向     

疫苗分离纯化研究进展

综述了国内外关于疫苗分离纯化的研究进展,系统介绍了目前可用作各类疫苗(尤其是基因工程疫苗)分离纯化的方法。沉淀和离心等传统分离技术在各类疫苗的分离纯化中应用广泛,层析技术和其它分离技术的结合已成为疫苗分离纯化的主流,新型膜技术和亲和层析在基因工程亚单位疫苗分离纯化中的作用引人注目。     

层析技术在血液制品分离纯化中应用的探讨

随着市场需求的多元化发展,原采用低温乙醇法生产的血液制品在品种及质量上均已不能满足人们的需要。国外血浆分离过程中应用层析技术,显著地提高了血浆利用率及产品质量,并丰富了产品的种类,节约了经济成本。在我国分离技术起步较晚,血液制品的规模化生产仍以低温乙醇法为主。在分析国内外现有层析技术的应用现状的基础上,并对其主流层析工艺进行了简要综述,为我国改进现有血液制品的工艺提供参考依据。     

纳豆激酶集成化分离技术

综述了纳豆激酶的分离纯化技术的研究现状和发展趋势。通过对常规分离技术的分析,重点讨论了集成化分离技术的应用及其优势,包括集成化双水相分配技术、扩张床吸附技术以及耐盐性混合模式吸附技术等分离方法。并指出集成化分离技术在生产纳豆激酶以及其他活性蛋白方面,具有广阔的应用前景。     

杜鹃精细胞的分离

杜鹃成熟花粉为二胞型,含一个营养细胞和一个生殖细胞,其精细胞在花粉管中形成。应用半离体技术培养杜鹃已授粉花柱,使花粉管从花柱中长出,再用渗透压冲击法促使花粉管破裂,释放出一对与营养核相连的精细胞。分离的精细胞经FDA方法检测,证明具活性。用显微操作仪可收集数量较多的分离精细胞。     

土壤呼吸组分分离技术研究进展

分离土壤呼吸组分是理解陆地生态系统碳循环的重要步骤,研究农田生态系统土壤呼吸组分的呼吸过程和机理对促进农业温室气体减排和碳汇增加、气候变化适应、保障粮食安全以及推动农业可持续发展都具有积极意义。本文综述了近年来土壤呼吸组分分离的理论依据、主要技术及分类,系统比较了现有技术优势、劣势和应用领域,并总结了土壤呼吸组分分离技术在国内外农田生态系统中的应用情况。由于多数分离技术在森林生态系统的相关研究中发展而来,它们在农田生态系统的应用十分有限,目前应用以同位素法、根分离法和回归法为主。由于土壤呼吸理论划分和分离方法的差异,不同研究结果之间往往难以比较。分离技术的发展有赖于土壤呼吸源分离理论的进一步发展,未来土壤呼吸组分分离研究的主要方向在于：（1）利用现有观测技术促进组分集成分析法和根分离法在农田生态系统中的应用,强化土壤呼吸组分和环境因子的同步观测,准确评估农田碳收支;（2）利用定位观测数据开展大尺度模型研究,改进和重构现有全球碳模型的碳氮过程,并在其中考虑重要的土壤呼吸过程;（3）利用FACE试验评估气候变化对土壤呼吸组分的影响和土壤-植物碳循环的适应机制;（4）分析呼吸组分与植物-土壤-养分的交互作用,评估农田管理措施的综合影响。     

我国生物丁醇分离提取技术研究进展

本文概述了目前国内外生物丁醇生产体系中的分离提取技术,包括液液萃取、气提、吸附、精馏和渗透汽化技术等的应用研究现状,详细阐述了上述几种方法在分离提取生物丁醇方面的优势与不足,对各类方法的分离特性和效果进行了比较,并展望了生物丁醇分离提取技术的发展前景。     

Magnetic particles for the separation and purification of nucleic acids

Nucleic acid separation is an increasingly important tool for molecular biology. Before modern technologies could be used, nucleic acid separation had been a time- and work-consuming process based on several extraction and centrifugation steps, often limited by small yields and low purities of the separation products, and not suited for automation and up-scaling. During the last few years, specifically functionalised magnetic particles were developed. Together with an appropriate buffer system, they allow for the quick and efficient purification directly after their extraction from crude cell extracts. Centrifugation steps were avoided. In addition, the new approach provided for an easy automation of the entire process and the isolation of nucleic acids from larger sample volumes. This review describes traditional methods and methods based on magnetic particles for nucleic acid purification. The synthesis of a variety of magnetic particles is presented in more detail. Various suppliers of magnetic particles for nucleic acid separation as well as suppliers offering particle-based kits for a variety of different sample materials are listed. Furthermore, commercially available manual magnetic separators and automated systems for magnetic particle handling and liquid handling are mentioned.     

现代分离技术在抗生素提取中的应用

详细介绍了膜分离技术在抗生素分离提取中的应用进展,并简单阐明了高效毛细管电泳技术、双水相技术和反胶束萃取技术在抗生素提取中的应用情况。对这些现代分离技术的发展前景作了简要探讨。     

Micro- and nanotechnology in cell separation

This review describes recent work in cell separation using micro- and nanoscale technologies. These devices offer several advantages over conventional, macroscale separation systems in terms of sample volumes, low cost, portability, and potential for integration with other analytical techniques. More importantly, and in the context of modern medicine, these technologies provide tools for point-of-care diagnostics, drug discovery, and chemical or biological agent detection. This review describes work in five broad categories of cell separation based on (1) size, (2) magnetic attraction, (3) fluorescence, (4) adhesion to surfaces, and (5) new emerging technologies. The examples in each category were selected to illustrate separation principles and technical solutions as well as challenges facing this rapidly emerging field.     

生物大分子分离技术:过去、现状和未来

生物大分子包括多肽、酶、蛋白质、核酸(DNA和RNA)以及多糖等。生物大分子分离技术是生命科学研究中的关键技术之一。当前,各学科之间的交叉渗透为生物大分子分离技术的发展提供了更多的契机。对以沉淀、透析、超滤和溶剂萃取为代表的传统分离技术,以及色谱,电泳等现代分离技术的发展概况、原理、特点及应用进行了综述。并结合生命科学的发展现状,展望了生物大分子分离技术的发展前景。     

Present state and perspective of downstream processing of biologically produced 1,3-propanediol and 2,3-butanediol

1,3-Propanediol and 2,3-butanediol are two promising chemicals which have a wide range of applications and can be biologically produced. The separation of these diols from fermentation broth makes more than 50% of the total costs in their microbial production. This review summarizes the present state of methods studied for the recovery and purification of biologically produced diols, with particular emphasis on 1,3-propoanediol. Previous studies on the separation of 1,3-propanediol primarily include evaporation, distillation, membrane filtration, pervaporation, ion exchange chromatography, liquid–liquid extraction, and reactive extraction. Main methods for the recovery of 2,3-butanediol include steam stripping, pervaporation, and solvent extraction. No single method has proved to be simple and efficient, and improvements are especially needed with regard to yield, purity, and energy consumption. Perspectives for an improved downstream processing of biologically produced diols, especially 1,3-propanediol are discussed based on our own experience and recent work. It is argued that separation technologies such as aqueous two-phase extraction with short chain alcohols, pervaporation, reverse osmosis, and in situ extractive or pervaporative fermentations deserve more attention in the future.     

现代生物工程分离提取技术在海洋生物资源开发上的应用

本文综述了在海洋资源开发上应用的现代生物工程分离技术。介绍了最新的分离提取技术如制备型和生产型色谱技术、超临界萃取技术、膜分离技术、毛细管电泳技术、酶工程技术等。从海洋生物资源中提取有用的生物活性物质,需要符合特定要求的现代生物工程技术。其中柱层析技术和超临界萃取技术是海洋生物活性物质分离提取技术中的主要部分。     

Simultaneous extraction and separation of liquiritin,glycyrrhizic acid,and glabridin from licorice root with analytical and preparative chromatography

Simultaneous extraction and separation of liquiritin, glycyrrhizic acid, and glabridin from licorice were developed by liquidliquid extraction with liquid chromatography separation. By utilizing different extraction solvents, procedures, and times, the optimum extraction conditions were established. The extracts of licorice were separated and determined using a C₁₈ column with a mobile phase consisting of acetonitrile-water (containing 1.0% acetic acid) with a gradient elution of 0∼10 min from 20:80 to 60:40 (v/v). Preparative columns with different packing sizes were investigated to isolate the three compounds from the extracts of licorice. The 12 μm chromatographic column showed better separation for the three compounds from licorice. 0.29 mg/g for liquiritin, 1.43 mg/g for glycyrrhizic acid, and 0.07 mg/g for glabridin were obtained and the recoveries were 80.8, 89.7, and 72.5%, respectively.     

Carotenoid pigments in rust fungi: Extraction,separation, quantification and characterisation

Diseases caused by rust fungi represent critical constraints to global plant production. A characteristic feature of rust pathogens is the striking pigments they produce in one or more spore forms, which give them a rusty appearance. Here, we review the literature published to date on the extraction, separation, quantification and characterisation of carotenoid pigments in rust fungi. These pigments are thought to protect rust fungi against UV radiation and oxidative stress, and possibly act as virulence factors. The yellow-orange colour of some rust species is due to carotenoid pigments. Four carotenoids have been found in rust fungi: phytoene, lycopene, γ-carotene and β-carotene, but their relative contributions to biological functions are largely unknown. Different pre-processes and storage of spore materials, as well as different extraction processes, have been applied in a wide range of investigations on rust spore pigments. We find that the value of the current literature on rust carotenoids for taxonomic diagnostics in understanding the evolution of pigment biosynthesis and in assessing their role in pathogenesis is limited. Re-investigation of rust carotenoid composition using modern analytical technologies is therefore critical to further these fields of research. Our review includes detailed guidance on choice of techniques for rust carotenoid experimental analyses.