Rational and Combinatorial Engineering of the Glucan Synthesizing Enzyme Amylosucrase

Rational engineering of amylosucrase required detailed investigations of the molecular basis of catalysis. Biochemical characterization of the enzyme coupled to structural analyses enabled the polymerization mechanism to be elucidated. This provided key information for successfully changing amylosucrase to a hydrolase or an improved polymerase using site-directed mutagenesis. In parallel, a combinatorial approach was developed to further improve the catalyst. The method, based on random mutagenesis and recombination of parent sequences, has generated libraries of variants. These were searched for improved polymer formation using a first step of selection followed by a screening test including a double detection method. Several mutants with desired properties have been isolated, their sequences revealed that they could not have been designed following a rational approach.     

酶的分子定向进化及其应用

酶的分子定向进化是20世纪90年代初兴起的一种蛋白质工程的新策略,是一种在生物体外模拟自然进化过程的、具有一定目的性的快速改造蛋A质的方法.该方法引起了生物催化技术领域的又一次革命.目前分子定向进化技术已被广泛应用于工业、农业及制药业等的相关领域.本文详细综述了酶的分子定向进化的概念、过程、基本策略及其核心技术,并着重介绍了酶的分子定向进化技术在提高酶的活力、稳定性、底物特异性和对映体选择性等几方面的应用及取得的相关成果.     

蛋白质突变体基因库构建方法的研究进展

体外定向进化是蛋白质工程中一个非常有效的设计策略。最近几年,在过去常用的寡核苷酸介导的随机突变、易错PCR和DNA改组等方法的基础上又出现了一些新的定向进化方法。本文对这些方法及其特点加以总结,为解决特定问题选取何种方法提供一定依据。最近研究表明：定向进化和理性设计相结合、定向进化和以结构为基础的计算设计方法相结合正成为蛋白质工程中两个新的发展方向。     

Alcohol dehydrogenases from thermophilic and hyperthermophilic archaea and bacteria

Many studies have been undertaken to characterise alcohol dehydrogenases (ADHs) from thermophiles and hyperthermophiles, mainly to better understand their activities and thermostability. To date, there are 20 thermophilic archaeal and 17 thermophilic bacterial strains known to have ADHs or similar enzymes, including the hypothetical proteins. Some of these thermophiles are found to have multiple ADHs, sometimes of different types. A rigid delineation of amino acid sequences amongst currently elucidated thermophilic ADHs and similar proteins is phylogenetically apparent. All are NAD(P)-dependent, with one exception that utilises the cofactor F(420) instead. Within the NAD(P)-dependent group, the thermophilic ADHs are orderly clustered as zinc-dependent ADHs, short-chain ADHs, and iron-containing/activated ADHs. Distance matrix calculations reveal that thermophilic ADHs within one type are homologous, with those derived from a single genus often showing high similarities. Elucidation of the enzyme activity and stability, coupled with structure analysis, provides excellent information to explain the relationship between them, and thermophilic ADHs diversity.     

Engineering a high-performance,metagenomic-derived novel xylanase with improved soluble protein yield and thermostability

The novel termite gut metagenomic-derived GH11 xylanase gene xyl7 was expressed in Escherichia coli BL21, and the purified XYL7 enzyme exhibited high specific activity (6340 U/mg) and broad pH active range of 5.5–10.0. Directed evolution was employed to enhance the thermostability of XYL7; two mutants (XYL7-TC and XYL7-TS) showed a 250-fold increase in half-life at 55 °C, with a 10 °C increase in optimal temperature compared to that of wild-type XYL7. A truncated enzyme (XYL7-Tr3) acquired by protein engineering showed similar catalytic properties as the wild-type, with a tenfold increase in soluble protein yield by the mutant. The reducing sugar produced by XYL7-TC was about fourfold greater than that produced by their parents when incubated with xylan at 60 °C for 4 h. The engineered novel xylanase exhibited superior enzymatic performance and showed promise as an excellent candidate for industrial application due to its high specific activity, stability and soluble protein yield.     

应用分子定向进化技术适时检测及预防鳗鱼主要疾病的初步探讨

应用分子定向进化(directedmolecularevolution)技术研究和解决复杂的生物学和化学问题,已成为化学和生物学中最活跃的领域之一。针对目前鳗鱼主要疾病的检测及预防现状和出现的技术难点及不足,初步探讨了分子定向进化技术在这方面的应用及前景。     

The state-of-the-art strategies of protein engineering for enzyme stabilization

Enzymes generated by natural recruitment and protein engineering have greatly contribute in various sets of applications. However, their insufficient stability is a bottleneck that limit the rapid development of biocatalysis. Novel approaches based on precise and global structural dissection, advanced gene manipulation, and combination with the multidisciplinary techniques open a new horizon to generate stable enzymes efficiently. Here, we comprehensively introduced emerging advances of protein engineering strategies for enzyme stabilization. Then, we highlighted practical cases to show importance of enzyme stabilization in pharmaceutical and industrial applications. Combining computational enzyme design with molecular evolution will hold considerable promise in this field.     

疏棉状嗜热丝孢菌(Thermomyces lanuginosus)脂肪酶的理性设计提高其活性和温度稳定性

目的:通过对疏棉状嗜热丝孢菌(Thermomyces lanuginosus)脂肪酶的理性设计,获得高酶活与耐高温的脂肪酶品种,为脂肪酶在饲料、油脂加工和生物柴油等领域的应用奠定基础.方法:对脂肪酶典型结构域lid和loop区域的系统发育分析,找到候选的位点,理性设计并通过实验验证,获得脂肪酶活性和耐高温特性显著提高的...     

酶的分子设计、改造与工程应用

酶工程的研究已经发展到分子水平 ,在体外通过基因工程、化学、物理等手段改造酶分子结构与功能 ,大幅提高了酶分子的进化效率和催化效率 ,生产有价值的非天然酶。对酶工程学若干“热点”和前沿课题的研究、应用进行了概述 ,分析了国际上酶工程研究及应用技术、手段、方法 ,包括体外分子进化、核酶和抗体酶的设计、酶分子的定向固定化技术、酶蛋白分子的化学修饰、融合酶、人工合成及模拟酶等技术 ,并展望了酶工程的技术进步和应用的新进展。     

淀粉蔗糖酶AcAS的工作机理研究与稳定性改造

目的:对新发现的一种新型淀粉蔗糖酶AcAS的结构功能进行深入讨论。方法:用同源模建方法构建AcAS的三维结构;用高斯网络模型和各项异性网络模型,对其功能型运动和工作机理进行预测;利用迭代高斯网络模型方法对其去折叠路径进行预测;根据去折叠路径预测及折叠自由能计算结果设计突变体。结果:模建结果表明,AcAS结构与淀粉蔗糖酶NpAS的结构更相似;AcAS有扭转运动的趋势,其中AcAS的N/C结构域运动性较强,而催化核心的运动性较弱;根据去折叠路径预测,发现N、B和C结构域较易去折叠;通过自由能计算,针对上述3个结构域设计了5株突变体。结论:构建了AcAS的三维结构模型并根据模型探讨了其工作机理;根据去折叠路径预测及折叠自由能计算结果,对AcAS的稳定性改造提出了有益的建议。     

Structural investigation of the thermostability and product specificity of amylosucrase from the bacterium Deinococcus geothermalis

Amylosucrases are sucrose-utilizing α-transglucosidases that naturally catalyze the synthesis of α-glucans, linked exclusively through α1,4-linkages. Side products and in particular sucrose isomers such as turanose and trehalulose are also produced by these enzymes. Here, we report the first structural and biophysical characterization of the most thermostable amylosucrase identified so far, the amylosucrase from Deinoccocus geothermalis (DgAS). The three-dimensional structure revealed a homodimeric quaternary organization, never reported before for other amylosucrases. A sequence signature of dimerization was identified from the analysis of the dimer interface and sequence alignments. By rigidifying the DgAS structure, the quaternary organization is likely to participate in the enhanced thermal stability of the protein. Amylosucrase specificity with respect to sucrose isomer formation (turanose or trehalulose) was also investigated. We report the first structures of the amylosucrases from Deinococcus geothermalis and Neisseria polysaccharea in complex with turanose. In the amylosucrase from N. polysaccharea (NpAS), key residues were found to force the fructosyl moiety to bind in an open state with the O3' ideally positioned to explain the preferential formation of turanose by NpAS. Such residues are either not present or not similarly placed in DgAS. As a consequence, DgAS binds the furanoid tautomers of fructose through a weak network of interactions to enable turanose formation. Such topology at subsite +1 is likely favoring other possible fructose binding modes in agreement with the higher amount of trehalulose formed by DgAS. Our findings help to understand the inter-relationships between amylosucrase structure, flexibility, function, and stability and provide new insight for amylosucrase design.     

Rational design of antithrombotic peptides to target the von Willebrand Factor (vWf) - GPIb integrin interaction

Conventional antithrombotic drug discovery requires testing of large numbers of drug candidates. We used computer-aided macromolecular interaction assessment (MIAX) to select antithrombotic molecules that mimic and therefore block platelet GPIb’s binding to von Willebrand factor (vWf), an early step in thrombus formation. We screened a random array of 15-mer D-amino acid peptides for binding vWf. Structures of 4 candidate peptides were inferred by comparison to sequences in protein databases, conversion from the L to D conformations and molecular dynamics (MD) determinations of those most energetically stable. By MIAX, we deduced the amino acids and intermolecular hydrogen bonds contributing to the GPIb-vWf interaction interface. We docked the peptides onto vWf in silico to localize their binding sites and consequent potential for preventing GPIb-vWf binding. In vitro inhibition of ristocetin-initiated platelet agglutination confirmed peptide function and suitability for antithrombotic development, thereby validating this novel approach to drug discovery.     

Rational design of selective ligands for trypanothione reductase from trypanosoma cruz Structural effects on the inhibition by dibenzazepines based on imipramine

Abstract

Trypanothione reductase, the enzyme which in trypanosomal and leishmanial parasites catalyses the reduction of trypanothione disulphide to the redox-protective dithiol and has been identified as a potential target for rational antiparasite drug design, has been found to be strongly inhibited by tricyclic compounds containing the saturated dibenzazepine (imipramine) nucleus, with K_i values in the low micromolar range. This drug lead structure was designed by molecular graphics analysis of a three-dimensional homology model, focussing on the active-site. Inhibition studies were carried out to determine the effect of inhibitor structure on the inhibitory strength towards recombinant trypanothione reductase from Trypanosoma cruzi Hansch analysis showed that inhibitory strength depended on terms in ² and s`_m indicating dependence on both lipophilicity and inductive effect for ring-substituted analogues of imipramine. The side-chain ω-aminoalkyl chain had to be longer than 2-carbon units for inhibition. The effect on inhibition strength of the substituent at the ω-amino position on the side-chain of the central ring nitrogen atom depended markedly on the detailed substitution pattern of the rest of the molecule. This provides kinetic evidence studies of multiple binding modes within a single, blanket binding site for the inhibitor with the tricyclic ring system in the general region of the hydrophobic pocket lined by Trp21, Tyr110, Met113 and Phe114. This aspect of the structural sensitivity of the precise active-site triangulation adopted by the inhibitor is probably a function of the use of hydrophobic interactions of low directional specificity in this pocket combined with an electrostatianchoring by the ω-N+HMe₂ function of the inhibitor, presumably with a glutamate sidethain, such as Glu-18, Glu-466prime; and/or Glu-467prime;.     

基因的推理设计与改造—体外分子进化的捷径

体外分子进化是改造基因、获得新的功能蛋白质重要手段之一,已经取得了令人瞩目的成就。推理设计是利用序列和结构的比较信息创造新的基因和蛋白质,是研究改造蛋白质功能的有效方法。文章着重介绍了基因推理设计在基因体外分子进化中的应用,从简单实用的基因密码偏爱设计,结合多个不同性状相关功能基因信息的基因推理设计,关键功能区域的简并引物设计,位点直接蛋白质重组4个方面进行描述,并综述了该方法近年来的应用。     

Crystal structure of the Glu328Gln mutant of Neisseria polysaccharea amylosucrase in complex with sucrose and maltoheptaose

Several enzymes acting on sucrose are found in glycoside hydrolase family 13 (the α–amylase family). They all transfer a glucosyl moiety from sucrose to an acceptor, but the products can be very different. The structure of a variant of one of these, the Glu328Gln mutant of Neisseria polysaccharea amylosucrase, has been determined in a ternary complex with sucrose and an oligosaccharide to 2.16 Å resolution using x-ray crystallography. Sucrose selectively binds in the active site and the oligosaccharide only binds at surface sites. When this structure is compared to structures of other enzymes acting on sucrose from glycoside hydrolase family 13, it is found that the active site residues are very similar around the glucose part of sucrose while much variation is seen around the fructose moiety.     

Structure-Guided Combinatorial Engineering Facilitates Affinity and Specificity Optimization of Anti-CD81 Antibodies

Hepatitis C viral infection is the major cause of chronic hepatitis that affects as many as 71 million people worldwide. Rather than target the rapidly shifting viruses and their numerous serotypes, four independent antibodies were made to target the host antigen CD81 and were shown to block hepatitis C viral entry. The single-chain variable fragment of each antibody was crystallized in complex with the CD81 large extracellular loop in order to guide affinity maturation of two distinct antibodies by phage display. Affinity maturation of antibodies using phage display has proven to be critical to therapeutic antibody development and typically involves modification of the paratope for increased affinity, improved specificity, enhanced stability or a combination of these traits. One antibody was engineered for increased affinity for human CD81 large extracellular loop that equated to increased efficacy, while the second antibody was engineered for cross-reactivity with cynomolgus CD81 to facilitate animal model testing. The use of structures to guide affinity maturation library design demonstrates the utility of combining structural analysis with phage display technologies.     

高等植物光敏色素的分子结构、生理功能和进化特征

光敏色素是植物感受外界环境变化的最重要光受体之一,对红光和远红外光非常敏感。本文综述了光敏色素的分子结构、它所包含的结构域和相应功能以及植物各主要类群中光敏色素基因家族的成员组成与进化关系;重点在分子水平上介绍了光敏色素的生理功能与作用机制。最后,基于最新的研究进展提出了将来的研究方向。     

Progressive sequence alignment and molecular evolution of the Zn-containing alcohol dehydrogenase family

Summary Sequences of 47 members of the Zn-containing alcohol dehydrogenase (ADH) family were aligned progressively, and an evolutionary tree with detailed branch order and branch lengths was produced. The alignment shows that only 9 amino acid residues (of 374 in the horse liver ADH sequence) are conserved in this family; these include eight Gly and one Val with structural roles. Three residues that bind the catalytic Zn and modulate its electrostatic environment are conserved in 45 members. Asp 223, which determines specificity for NAD, is found in all but the two NADP-dependent enzymes, which have Gly or Ala. Ser or Thr 48, which makes a hydrogen bond to the substrate, is present in 46 members. The four Cys ligands for the structural zinc are conserved except in -crystallin, the sorbitol dehydrogenases, and two bacterial enzymes. Analysis of the evolutionary tree gives estimates of the times of divergence for different animal ADHs. The human class II () and class III () ADHs probably diverged about 630 million years ago, and the newly identified human ADH6 appeared about 520 million years ago, implying that these classes of enzymes may exist or have existed in all vertebrates. The human class I ADH isoenzymes (, , and ) diverged about 80 million years ago, suggesting that these isoenzymes may exist or have existed in all primates. Analysis of branch lengths shows that these plant ADHs are more conserved than the animal ones and that class III ADHs are more conserved than class I ADHs. The rate of acceptance of point mutations (PAM units) shows that selection pressure has existed for ADHs, implying that these enzymes play definite metabolic roles.Offprint requests to: B.V. Plapp     

Protein and nucleic acid together: a mechanism for the emergence of biological selection

The ability of RNA to both replicate and carry out enzymic functions has led to the proposal that an 'RNA-world' preceded the emergence of protein function in pre-biotic evolution. This order of function requires a key transition in which replicating RNA-molecules 'breakout' and recruit protein function. Here I propose a mechanism for the co-evolution of protein and nucleic acids as replicating entities from the earliest stages of pre-biotic development. In the model, amyloid protein fibres provide a protective support and compartment for nucleic acids. In turn, replicating nucleic acids stimulate fibre growth at amyloid free ends. Nucleic acid-amyloid fibre combinations are proposed to lengthen and then break through hydrostatic shear, exposing new amyloid free ends. This process would distribute stable replicating complexes throughout the primordial environment. The model provides a route into the RNA-protein world without the need for a distinct 'breakout' transition.