枯草杆菌脂肪水解酶LipA和LipB

源自枯草杆菌的分泌型脂肪水解酶LipA及LipB已经被克隆、表达并表征. 它们的分子结构特点、催化机理也已经被深入研究. 枯草杆菌脂肪水解酶因为具有较好的食品工业及化学工业等方面的应用潜力,已经吸引了越来越多的关注. 通过定向进化及高通量筛选的方法对酶分子进行改造,提高其热稳定性及立体选择性是近年的研究热点. 结合国外及本研究组的工作,本文对LipA和LipB的生化性质、结构特点以及采用基因工程突变的方法进行分子改造等方面的研究进展做一简要综述. 另外,对其中一些研究论文做了简要的评价,并提出对未来工作的展望.     

枯草杆菌表达系统的研究进展

枯草杆菌由于具有非致病性、分泌蛋白能力强的特性的良好的发酵基础,是目前原核表达系统中分泌表达外源蛋白较理想的宿主。本阐述枯草杆菌基因表达的一般特点、表达载体、表达类型以及分泌表达存在的问题。     

Directed evolution of a secretory leader for the improved expression of heterologous proteins and full‐length antibodies in Saccharomyces cerevisiae

Because of its eukaryotic nature, simple fermentation requirements, and pliable genetics, there have been many attempts at improving recombinant protein production in Saccharomyces cerevisiae. These strategies typically involve altering the expression of a native protein thought to be involved in heterologous protein trafficking. Usually, these approaches yield three‐ to tenfold improvements over wild‐type strains and are almost always specific to one type of protein. In this study, a library of mutant alpha mating factor 1 leader peptides (MFα1pp) is screened for the enhanced secretion of a single‐chain antibody. One of the isolated mutants is shown to enhance the secretion of the scFv up to 16‐fold over wild type. These leaders also confer a secretory improvement to two other scFvs as well as two additional, structurally unrelated proteins. Moreover, the improved leader sequences, combined with strain engineering, allow for a 180‐fold improvement over previous reports in the secretion of full‐length, functional, glycosylated human IgG₁. The production of full‐length IgG₁ at milligram per liter titers in a simple, laboratory‐scale system will significantly expedite drug discovery and reagent synthesis while reducing antibody cloning, production, and characterization costs. Biotechnol. Bioeng. 2009;103: 1192–1201. © 2009 Wiley Periodicals, Inc.     

Oscillations in the activities of respiratory enzymes in synchronized Bacillus subtilis

Abstract The activities of NADH, succinate and lactate dehydrogenases have been measured during the cell cycle of Bacillus subtilis . All three enzymes showed an oscillatory pattern of activity expressed as two maxima and two minima per division cycle. For both succinate and lactate dehydrogenases the maxima occurred at approximately 0.2 and 0.6 of a cycle. The maxima of NADH dehydrogenase activity were out of phase at 0.4 and 0.9 of a cycle and occurred at the same time as the rises in respiratory activity previously reported for this bacterium.     

Engineering of cell membrane to enhance heterologous production of hyaluronic acid in Bacillus subtilis

Hyaluronic acid (HA) is a high‐value biopolymer used in the biomedical, pharmaceutical, cosmetic, and food industries. Current methods of HA production, including extraction from animal sources and streptococcal cultivations, are associated with high costs and health risks. Accordingly, the development of bioprocesses for HA production centered on robust “Generally Recognized as Safe (GRAS)” organisms such as Bacillus subtilis is highly attractive. Here, we report the development of novel strains of B. subtilis in which the membrane cardiolipin (CL) content and distribution has been engineered to enhance the functional expression of heterologously expressed hyaluronan synthase (HAS) of Streptococcus equisimilis (SeHAS), in turn, improving the culture performance for HA production. Elevation of membrane CL levels via overexpressing components involved in the CL biosynthesis pathway, and redistribution of CL along the lateral membrane via repression of the cell division initiator protein FtsZ resulted in increases to the HA titer of up to 204% and peak molecular weight of up to 2.2 MDa. Moreover, removal of phosphatidylethanolamine and neutral glycolipids from the membrane of HA‐producing B. subtilis via inactivation of pssA and ugtP, respectively, has suggested the lipid dependence for functional expression of SeHAS. Our study demonstrates successful application of membrane engineering strategies to develop an effective platform for biomanufacturing of HA with B. subtilis strains expressing Class I streptococcal HAS.     

酶定向进化的研究进展

定向进化在改造酶的性质方面已得到广泛应用,各种建立突变库的方法不断涌现。对新近发展的几种突变技术(如寡核苷酸设计型装配重组技术ADO、非序列同源蛋白重组SHIPREC等)进行了简要地介绍与分类。与突变技术相对应的筛选方法也在逐渐改变和完善,这里仅介绍高通量筛选方面的一些最新进展。     

枯草芽胞杆菌基因组删减对异源酶表达影响的研究进展

枯草芽胞杆菌作为一种遗传背景清晰、基因编辑成熟的革兰氏阳性菌,是多种重要工业酶的生产宿主.随着转录组、蛋白质组、代谢组等多组学测序和分析技术的发展,通过合理设计简化枯草芽胞杆菌基因组,减少细胞内冗余的调控和代谢网络,使得细胞更精简且便于控制,展现出了枯草芽胞杆菌作为异源酶表达宿主细胞的应用潜力.本文简要综述了枯草芽胞杆...     

枯草芽孢杆菌蛋白质分泌机制研究进展

综述了枯草芽孢杆菌不同蛋白质分泌机制,重点讨论了大多数细菌蛋白分泌的Sec途径,包括Sec途径的信号肽,信号肽酶,SecYEG通道,与分泌有关的各种细胞因子以及Sec途径的限制因素,此外还简要讨论了Tat途径,该途径能够转运折叠迅速或归密的蛋白质。     

枯草芽孢杆菌胞外氨肽酶对菌体生长的作用研究

【目的】利用基因敲除技术构建突变菌株BS-AP-K来研究枯草芽孢杆菌的分泌型氨肽酶对菌体生长的作用。【方法】基于Xer/dif重组系统敲除Bacillus subtilis 168基因组中ywaD基因,研究比较野生型与BS-AP-K菌株在不同培养基中的生长情况。【结果】通过比较两菌株的生长情况,发现敲除分泌型氨肽酶会对菌体生长带来不利影响,而这种影响可以通过在培养基中添加多种游离氨基酸来弥补。【结论】研究结果表明胞外氨肽酶通过酶切外源蛋白质以及多肽来为细胞生长提供营养所需。     

Cloning in Bacillus subtilis of temperature-dependent promoter fragments from Bacillus stearothermophilus and Bacillus subtilis

Abstract Using promoter-probe plasmids, more than 200 promoter-containing fragments from Bacillus stearothermophilus and Bacillus subtilis were cloned in B. subtilis . Among these, 15 promoter fragments were highly temperature-dependent in activity compared to the promoter sequence (TTGAAA for the −35 region, TATAAT for the −10 region) of the amylase gene, amyT , from B. stearothermophilus . Some fragments exhibited higher promoter activities at elevated temperature (48°C), others showed higher activities at lower temperature (30°C). Active promoter fragments at higher and lower temperatures were obtained mainly from the thermophile ( B. stearothermophilus ) and the mesophile ( B. subtilis ), respectively. A promoter fragment active at high temperature was sequenced, and the feature of the putative promoter region was discussed.     

Molecular biology of Bacillus subtilis cytochromes

Bacillus subtilis cells must have cytochromes for growth and can synthesize cytochromes of a-, b-, c-, d-, and o-types. After a long lag, our knowledge of the structure, genetics and specific role for these cytochromes is now growing exponentially as the result of recent research. This progress is reviewed here and includes, for example, the discovery of two different cytochrome a systems and genes required for their biogenesis.     

枯草杆菌ylyA基因的绿色荧光蛋白标记

[目的]本研究对枯草杆菌ylyA基因进行荧光标记以便对其产物YlyA在菌体中的位置进行初步观察.[方法]以不同菌株基因组DNA为模板,对ylyA基因进行PCR扩增和序列分析;重新设计引物扩增全长的ylyA并将其克隆到载体pSG1729中,形成gfpmut1-ylyA融合而构建重组载体pNG426;将pNG426转化枯草杆菌168菌株,双交换使gfpmut1-ylyA插入染色体的amyE位点,用碘染色法和菌落PCR对阳性转化子BS363进行鉴定.NA固体培养基上生长的BS363经0.5%木糖诱导表达后,利用表面荧光显微镜技术进行观察.[结果]通过对多个PCR产物的序列分析确定了ylyA基因的正确序列以及正确的翻译起始位点;成功将重组载体pNG426转化枯草杆菌得到了BS363菌株;荧光检测结果表明GFP标记的YlyA分布于菌体的外周,在位置上靠近细胞膜并与之平行排列.[结论]生长缓慢的BS363菌体,在0.5%木糖诱导下产生的荧光标记YlyA蛋白分布在细胞外周,可能在膜生物学中发挥作用.     

异源D-海因酶和N-氨甲酰水解酶共表达重组枯草芽孢杆菌的构建

【目的】构建异源D-海因酶和N-氨甲酰水解酶共表达的重组枯草芽孢杆菌,探讨其作为全细胞催化剂合成D-对羟基苯甘氨酸的可行性。【方法】采用P_(aco)表达盒表达D-海因酶基因hyd或sd1,采用P_(AE)表达盒表达N-氨甲酰水解酶基因adc。分别以质粒pHP13和pUB110为载体,构建D-海因酶和N-氨甲酰水解酶共表达质粒pHCS、pHCY和pUCS。在受体菌中整合表达了acoR和sigL基因,敲除了skf和sdp基因。将共表达质粒分别转化不同的受体菌,通过测定全细胞催化活性,表征D-海因酶和N-氨甲酰水解酶共表达的效果。【结果】带有质粒pHCY和pHCS的重组菌,全细胞催化活性分别为0.21 U/mL和0.31 U/mL。整合表达acoR和sigL基因以及高拷贝质粒pUCS,使全细胞催化活性达到1.0 U/mL。【结论】异源D-海因酶和N-氨甲酰水解酶在枯草芽孢杆菌中能够正确表达。基因拷贝数、acoR和sigL基因表达水平,及skf和sdp基因缺失对重组菌的催化活性具有显著影响。     

Crystallization of NAD+ synthetase from Bacillus subtilis

NAD⁺-synthetase is a ubiquitous enzyme catalyzing the last step in the biosynthesis of NAD⁺. Mutants of NAD⁺ synthetase with impaired cellular functions have been isolated, indicating a key role for this enzyme in cellular metabolism. Crystals of the enzyme from Bacillus subtilis suitable for x-ray crystallographic investigation have been grown from polyethylene glycol solutions. Investigation on the structural organization of NAD⁺ synthetase, an enzyme fundamental for NAD⁺ biosynthesis, and belonging to the recently characterized amidotransferase enzymatic family, will provide more insight into the catalytic mechanism of deamido-NAD⁺ → NAD⁺ conversion, a biosynthetic process that is a potential target for the development of antibiotic compounds against Bacillus sp. and related bacteria. © 1996 Wiley-Liss, Inc.     

Efficient production of menaquinone (vitamin K2) by a menadione-resistant mutant of Bacillus subtilis

Efficient production of menaquinone (MK) by Bacillus subtilis was achieved. An edible strain of B. subtilis, isolated from the traditional Japanese food natto, was mutated to improve MK productivity. A menadione-resistant mutant producing 30% more MK than its parent strain was obtained. Soybean extract and glycerol were the best nitrogen and carbon sources, respectively, among the sources tested. Addition of yeast extract also increased MK productivity. The maximum concentration of MK reached about 35.0 mg/l after 4 days of culture in a jar fermenter. The pH of the medium decreased to 5.5 after the start of cultivation, then spontaneously increased to 7.7–8.0. This pH change might be important in the production of MK because only small amounts of MK were obtained when pH was controlled at 5.7, 6.0, 7.0, 7.5 or 8.0. Journal of Industrial Microbiology & Biotechnology (2001) 26, 115–120. Received 24 April 2000/ Accepted in revised form 14 August 2000     

Interaction of the Bacillus subtilis chaperone CsaA with the secretory protein YvaY

Bacillus subtilis CsaA was previously characterised as a molecular chaperone with export-related activities. In order to elucidate the functionality of CsaA further, interaction with its postulated substrate YvaY was investigated. Similar binding to carrier immobilised mature and preYvaY revealed that the interaction was not mediated via the signal peptide of preYvaY. Higher affinity to denatured peptides compared to native peptides indicated preferred binding to unfolded proteins. To characterise affinity of CsaA more detailed, binding to preYvaY derived peptides was analysed. CsaA showed affinity to multiple peptides in the scan, mainly correlated to a positive net charge. Affinity of export-specific Escherichia coli chaperone SecB to the carrier immobilised peptides indicated partially overlapping binding characteristics of SecB and CsaA.     

The multifunctionality of expression systems in Bacillus subtilis: Emerging devices for the production of recombinant proteins

Bacillus subtilis is a successful host for producing recombinant proteins. Its GRAS (generally recognized as safe) status and its remarkable innate ability to absorb and incorporate exogenous DNA into its genome make this organism an ideal platform for the heterologous expression of bioactive substances. The factors that corroborate its value can be attributed to the scientific knowledge obtained from decades of study regarding its biology that has fostered the development of several genetic engineering strategies, such as the use of different plasmids, engineering of constitutive or double promoters, chemical inducers, systems of self-inducing expression with or without a secretion system that uses a signal peptide, and so on. Tools that enrich the technological arsenal of this expression platform improve the efficiency and reduce the costs of production of proteins of biotechnological importance. Therefore, this review aims to highlight the major advances involving recombinant expression systems developed in B. subtilis, thus sustaining the generation of knowledge and its application in future research. It was verified that this bacterium is a model in constant demand and studies of the expression of recombinant proteins on a large scale are increasing in number. As such, it represents a powerful bacterial host for academic research and industrial purposes.