嗜热脂肪芽孢杆菌羧酸酯酶的异源表达及酶学性质研究

运用生物信息学技术从嗜热脂肪芽孢杆菌(Geobacillus stearothermophilus) CICC 20156中克隆获得羧酸酯酶基因,构建黑曲霉和毕氏酵母表达质粒,将重组质粒分别转化毕氏酵母GS115和黑曲霉pyrG基因缺陷株M54．SDS-PAGE和Western blot检测显示：携带His标记的外源蛋白在转化真菌宿主中均获得了高效分泌性表达,毕氏酵母和黑曲霉表达的外源蛋白分子质量均约为29 ku,蛋白质浓度分别为30.7 mg/L和15.3 mg/L．生物学活性测定表明,毕氏酵母与黑曲霉表达的羧酸酯酶单位蛋白酶活分别为22 671 U/mg和21 438 U/mg．酶学性质研究显示,两种表达系统表达的重组羧酸酯酶的酶学特性基本一致,它们在40～70℃范围内均显示较好的酶活性,最适反应温度为60℃．70℃处理30 min,毕氏酵母和黑曲霉表达重组羧酸酯酶残余酶活分别为 76.7%和67.6%,显示出良好的热稳定性．在pH 6.5～8.5的范围内显示较高酶活性,最适pH为8.0．上述研究首次实现了具有良好热稳定性的嗜热脂肪芽孢杆菌羧酸酯酶在黑曲霉和毕氏酵母中高效异源分泌性表达,其中毕氏酵母羧酸酯酶的产量要高于黑曲霉的酶产量,但考虑到重组黑曲霉表达外源性蛋白无需使用任何诱导剂,黑曲霉菌表达热稳定性羧酸酯酶可能具有更好的应用前景．     

嗜热细菌Clostridium thermocellum阿魏酸酯酶基因的克隆、异源表达及酶学特性分析

【目的】阐明嗜热细菌Clostridium thermocellum Xyn Z蛋白的阿魏酸酯酶催化域的酶学特性,为其在生物质能源及其它发酵工业中的应用奠定基础。【方法】分别构建了C.thermocellum Xyn Z的阿魏酸酯酶催化域(FAE)及该阿魏酸酯酶催化域和碳水化合物结合域(FAE-CBM6)编码基因的原核表达载体,并在大肠杆菌菌株BL21(DE3)中异源表达,在此基础上分析比较了温度、pH、底物、金属离子及CBM6结合域对阿魏酸酯酶活性的影响。【结果】重组FAE酶及FAE-CBM6酶发挥催化活性的适宜pH值为5.0-9.0,适宜温度为50-70°C,它们对不同金属离子的响应有差异。【结论】在同一反应条件下,FAE-CBM6酶的酶活均比FAE高,说明CBM6结合域的存在对于阿魏酸酯酶活性有促进作用。     

嗜热栖热菌α-葡萄糖苷酶基因的表达及酶学性质研究

用PCR方法从嗜热栖热菌(Thermus thermophilus)HB27中扩增出编码α-葡萄糖苷酶基因hbg,将其克隆到大肠杆菌(Escherichia coli)表达载体pET28a( )上,电击转化E.coliBL21(DE3),获得高效表达hbg基因的大肠杆菌重组菌。重组菌经IPTG诱导表达,SDS-PAGE检测表达蛋白相对分子质量约为59kD,与预期分子量相符。经镍柱和阴离子交换柱纯化的重组表达的α-葡萄糖苷酶HBG最适温度为95℃,最适pH值为5.0。     

嗜热厌氧乙醇杆菌α-葡萄糖苷酶基因的表达及酶学性质的研究

用PCR方法从嗜热厌氧乙醇杆菌(Thermoanaerobacter ethanolicus)JW200中扩增出编码a-葡萄糖苷酶的基因,将其克隆到大肠杆菌(Escherichia coli)表达载体pTrc99A上并获得表达a-葡萄糖苷酶的大肠杆菌重组菌。重组菌经IPTG诱导表达,SDS-PAGE检测出蛋白相对分子量约89kDa,经阴离子交换层析和凝胶层析纯化后的a-葡萄糖苷酶最适反应温度为70℃,最适反应pH为5～5.5,且在pH 5.5～6.5之间有较高的稳定性。重组a-葡萄糖苷酶在70℃下105 min后酶活仍达到80%。     

超嗜热酯酶EST2在不同宿主中的异源高效表达研究

来源于超嗜热古菌Alicyclobacillus acidocaldarius的酯酶EST2是目前报道的活性最高的超嗜热酯酶,具有极大的工业应用价值。为促进EST2的生产应用,将其分别在大肠杆菌及毕赤酵母中进行异源表达,并就不同宿主对表达情况和重组酶酶学性质的影响进行了分析。在大肠杆菌和毕赤酵母中重组表达的EST2酶学性质基本一致:最适温度分别为75℃和77.5℃,最适pH均为8.0,比活力分别为4656.6 U/mg和4078.3 U/mg,70℃水浴保温4.5 h,残余活力均在70%以上。在摇瓶发酵的基础上,于5 L发酵罐中进行了重组大肠杆菌及毕赤酵母的高密度发酵。毕赤酵母高密度发酵120 h菌体干重达68 g/L,最大表达酶活力为959.6 U/ml。大肠杆菌高密度发酵25 h菌体干重达60.8 g/L,最大酶活力14825.6 U/ml,表达量是毕赤酵母的15.4倍,单位时间产量是酵母的74.2倍。结果表明大肠杆菌发酵周期短、表达量高,更适合进行嗜热酯酶EST2的高效生产,这为促进嗜热酯酶在工业生物技术产业的应用奠定了基础。     

嗜热古菌S-腺苷甲硫氨酸合成酶的序列分析、基因克隆与异源表达

将Methanopyrus sp.SNP6进行功能基因组测序,获得S-腺苷甲硫氨酸合成酶基因(sam)序列,并进行序列分析。将sam基因扩增后连接至表达质粒p ET-28b(+),转化E.coli BL21(DE3),获得重组菌后进行诱导表达。生物信息学分析表明,sam基因编码蛋白的理论分子量为44 086.4Da,三级结构为同源四聚体,与其他相关古菌来源的S-腺苷甲硫氨酸合成酶的蛋白序列较保守。实验结果显示,构建的重组表达质粒p ET28b(+)-sam可在E.coli BL21(DE3)宿主菌中高水平表达。重组蛋白的分子量与预期值基本一致,部分为胞内可溶性表达,另一部分以包涵体形式存在。本研究首次实现了Methanopyrus sp.SNP6菌株S-腺苷甲硫氨酸合成酶的异源表达,为后期的蛋白纯化、酶学性质研究和酶促转化法生产S-腺苷甲硫氨酸奠定了理论基础。     

嗜热脂肪地芽孢杆菌NAD激酶克隆表达及酶学性质研究

NAD激酶能催化NAD生成NADP。本研究采用PCR技术从嗜热脂肪地芽孢杆菌基因组中获得NAD激酶基因,以pET30a（＋）为表达载体、E．coliBL21（DE3）为宿主菌,实现其在大肠杆菌中异源表达,并进行酶学性质研究。结果显示,嗜热脂肪地芽孢杆菌中NAD激酶编码基因大小为816bp,酶分子量大约为35kD。酶学性质分析表明,来源于嗜热脂肪地芽孢杆菌的NAD激酶最适反应温度和pH分别为35℃、pH7．5,在35qC中保温2h后仍能保持80％左右的活性。Mn2＋、Ca2＋对该酶有较强的激活作用,在最适反应条件下该酶的比活力为4．43U／mg。动力学性质分析结果显示NAD激酶对底物NAD催化的k和圪。,分别为1．46mmol／L和0．25tzmol／（L·min）。NAD激酶在大肠杆菌的异源表达为以NAD为底物生物合成NADP提供了更多生物资源。     

米曲霉酸性蛋白酶基因在毕赤酵母中的异源表达及酶学性质

酸性蛋白酶作为一类重要的天冬氨酸蛋白酶,被广泛应用于食品、医药和皮革等领域。为推动酸性蛋白酶的研究及应用,通过对发酵豆制品样品进行宏基因组测序,从中获得米曲霉酸性蛋白酶基因pepA,在毕赤酵母GS115中进行异源表达,并对重组酶PepA进行酶学性质分析。结果显示毕赤酵母发酵上清液中酸性蛋白酶的活性为50.62 U/mL。SDS-PAGE验证PepA的分子量约为50 kDa,且发酵上清液几乎无杂蛋白。PepA的最适pH值为4.5,最适温度为50℃,Mn~(2+)和Cu~(2+)对其具有激活作用,而Fe~(3+)、Fe~(2+)与Ca~(2+)则具有抑制作用。上述研究结果可为米曲霉酸性蛋白酶的异源表达及其相关工业应用提供指导。     

一种嗜热型碳酸酐酶基因的克隆表达及酶学性质

本文将嗜热菌Methanocella conradii HZ254的β型碳酸酐酶基因mtc在大肠杆菌中进行了克隆和表达。将PCR扩增得到mtc基因与p ET-24a(+)载体进行连接,转入大肠杆菌JM109中,得到工程菌JM109-p ET24a-mtc。诱导表达后做SDS-PAGE电泳,显示有与预期分子量大小相近的(约29 k Da)产物条带。该表达产物具有催化CO2水合的活性,但没有酯酶活力。研究表明,重组酶在40℃下稳定,40℃~60℃对酶有激活作用,65℃以上会导致酶的失活。在p H 7.0时,酶有最好的p H稳定性。1 mmol/L的Fe2+、Mg2+、Mn2+和Ca2+均对酶有激活作用,而Cu2+则有明显的抑制作用。1 mmol/L的F-对酶活没有明显的影响,而磺胺和I-则有比较明显的抑制作用,Br-、HCO3-、Cl-、NO3-和SO42-对酶均有一定的抑制作用。     

嗜热地芽胞杆菌(Geobacilluskaustophilus)DY115普鲁兰酶基因的克隆、表达和酶学性质

采用基因工程方法对嗜热地芽胞杆菌(Geobacillus kaustophilus)DY115的普鲁兰酶基因pulA在大肠杆菌中进行了克隆表达。该基因ORF全长为2 157bp,编码718个氨基酸。重组PulA在大肠杆菌(Escherichia coli)BL21(DE3)中能够有效表达,经Ni-Sepharose亲和层析获得纯化的重组PulA蛋白。PulA最适作用温度为70℃,最适pH为8.0,在65℃和碱性条件下具有良好的热稳定性;K+和Mn2+对PulA活性有明显促进作用,Cu2+和Zn2+则强烈抑制PulA活性;PulA对普鲁兰糖水解能力最强,且其水解支链淀粉和糯米淀粉的能力明显高于直链淀粉;PulA可水解普鲁兰糖的α-(1,6)糖苷键生成麦芽三糖,属于I型普鲁兰酶。这是首次对来源于地芽胞杆菌属(Geobacillus)的高温碱性普鲁兰酶进行报道,由于PulA具有较好的水解淀粉支链的能力,因此其在淀粉加工业以及洗涤业上应用前景良好。     

Cloning,characterization and expression of carbonic anhydrase from the cyanobacterium Synechocystis PCC6803

A 3.3 kb HindIII restriction-digest DNA fragment was isolated from a Synechocystis sp. strain PCC6803 subgenomic plasmid library which strongly hybridized to a 349 bp fragment of the icfA (ccaA) gene from Synechococcus sp. strain PCC7942. DNA sequence analysis of the fragment revealed three open reading frames (ORFs), two of which potentially coded for pantothenate synthetase (ORF275) and cytidylate kinase (ORF230). The third, ORF274, was 825 bp in length, encoding a deduced polypeptide of 274 aa (M_{_r}, 30747) that bears 55% sequence identity to the Synechococcus icfA (ccaA) translation product, a -type carbonic anhydrase (CA). A 932 bp EcoRI fragment containing ORF274 was subcloned into an expression vector and the construct was transformed into Escherichia coli for overexpression. Electrometric assays for CA activity revealed that whole cell extracts containing the recombinant protein significantly enhanced the rate of conversion of CO_{_2} to HCO^- _{_3} and that 98% of this catalytic activity was inhibited by ethoxyzolamide, a well-characterized CA inhibitor. Antisera derived against the overexpressed protein recognized a 30.7 kDa protein that was predominantly associated with the isolated carboxysome fraction from Synechocystis. These results provide molecular and physiological evidence for the identification of a ccaA homologue in Synechocystis PCC6803 that encodes a carboxysomal -type CA.     

Ribulose-1,5-bisphosphate carboxylase/oxygenase from thermophilic cyanobacterium Thermosynechococcus elongatus

Ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) can be divided into two branches: the “red-like type” of marine algae and the “green-like type” of cyanobacteria, green algae, and higher plants. We found that the “green-like type” rubisco from the thermophilic cyanobacterium Thermosynechococcus elongatus has an almost 2-fold higher specificity factor compared with rubiscos of mesophilic cyanobacteria, reaching the values of higher plants, and simultaneously revealing an improvement in enzyme thermostability. The difference in the activation energies at the transition stages between the oxygenase and carboxylase reactions for Thermosynechococcus elongatus rubisco is very close to that of Galdieria partita and significantly higher than that of spinach. This is the first characterization of a “green-like type” rubisco from thermophilic organism.     

Highly thermostable carbonic anhydrase from Persephonella marina EX-H1: Its expression and characterization for CO2-sequestration applications

The codon-optimized carbonic anhydrase gene of Persephonella marina EX-H1 (PMCA) was expressed and characterized. The gene with the signal peptide removed, PMCA(sp−), resulted in the production of approximately five times more purified protein than from the intact gene PMCA using an Escherichia coli expression system. PMCA(sp−) is formed as homo-dimer complex. PMCA(sp−) has a wide pH tolerance (optimum pH 7.5) and a high thermostability even at 100 °C (88 min of thermal deactivation half-life). The melting temperature for PMCA(sp−) was 84.5 °C. The apparent k_cat and K_m values for CO₂ hydration were 3.2 × 10⁵ s⁻¹ and 10.8 mM. The activity of the PMCA(sp−) enzyme was enhanced by Zn²⁺, Co²⁺, and Mg²⁺, but was strongly inhibited by Cu²⁺, Fe³⁺, Al³⁺, Pb²⁺, Ag⁺, and Hg²⁺. PMCA(sp−) readily catalyzed the hydration of CO₂, precipitating CaCO₃ as calcite in the presence of Ca²⁺.     

Synthesis,characterization and carbonic anhydrase inhibitory activity of novel benzothiazole derivatives

N-protected amino acids were reacted with substituted benzothiazoles to give the corresponding N-protected amino acid-benzothiazole conjugates (60–89%). Their structures were confirmed by proton nuclear magnetic resonance (¹H NMR), carbon-13 nuclear magnetic resonance (¹³C NMR), IR and elemental analysis. Their carbonic anhydrase (CA, EC 4.2.1.1) inhibitory activities were determined against two cytosolic human isoforms (hCA I and hCA II), one membrane-associated (hCA IV) and one transmembrane (hCA XII) enzyme by a stopped-flow CO₂ hydrase assay method. The new compounds showed rather weak, micromolar inhibitory activity against most of these enzymes.     

Cloning,heterologous expression and characterization of two keratinases from Stenotrophomonas maltophilia BBE11-1

The keratin-degrading strain Stenotrophomonas maltophilia BBE11-1 secretes two keratinolytic proteases, KerSMD and KerSMF. However, the genes encoding these proteases remain unknown. Here, we have isolated these two genes with a modified TAIL-PCR (thermal asymmetric interlaced PCR) method based on the N-terminal amino acid sequences of mature keratinases. These two keratinase genes encode serine proteases with PPC (bacterial pre-peptidase C-terminal) domain, which are successfully expressed with the help of pelB leader in Escherichia coli cells. Recombinant KerSMD (48 kDa) shows a better activity in feather degradation, higher thermostability and substrate specificity than KerSMF (40 kDa). KerSMD has a t_1/2 of 90 min at 50 °C and 64 min at 60 °C, and a better tolerance to surfactants SDS and triton X-100. The predicted model of KerSMD helps to explain the phenomenon of auto-catalytic C-terminal propeptide truncation, the special function of PPC domain, and the molecular weight of the C-terminal-processed mature keratinase KerSMD. This work not only provides a new way to overproduce keratinases but also helps to explore keratinases folding mechanism.     

Purification and characterization of carbonic anhydrase from bovine stomach and effects of some known inhibitors on enzyme activity

Carbonic anhydrase (CA) was purified from four different cell localisation (outer peripheral, cytosolic, inner peripheral and integral) in bovine stomach using affinity chromatography with Sepharose-4B-l-tyrosine sulphanilamide. During the purification steps, the activity of the enzyme was measured using p-nitrophenyl acetate at pH 7.4. Optimum pH and optimum temperature values for all CA samples were determined, and their K_m and V_max values for the same substrate by Lineweaver–Burk graphics. The extent of purification for all CA localizations was controlled by SDS-PAGE. The K_m values at optimum pH and 20°C were 0.625?mM, 0.541?mM, 0.785?mM and 0.862?mM with p-nitro phenyl acetate, for all CA localizations. The respective V_max values at optimum pH and 20°C were 0.875?μmol/L?min, 0.186?μmol/L?min, 0.214?μmol/L?min and 0.253?μmol/L?min with the same substrate. The K_i and I₅₀ values for the inhibitors sulphanilamide, KSCN, NaN₃ and acetazolamide were determined for all the CA localizations.     

Characterisation of cDNA clones for rat muscle carbonic anhydrase III

cDNA clones for rat muscle carbonic anhydrase III have been isolated from a gt-11 library and sequenced. Comparison with human CAIII cDNA showed about 90% homology to rat. The rat clones were used to estimate mRNA from liver and muscle on Northern blots and showed that the sexual dimorphism of CAIII in rat liver relates to a difference in mRNA levels.     

Dioxygen,an unexpected carbonic anhydrase ligand

Carbonic anhydrases (CAs, EC 4.2.1.1) are ubiquitous metalloenzymes, grouped into seven different classes, which catalyze the reaction of CO₂ hydration to bicarbonate and protons. All of the fifteen human isoforms reported to date belong to the α-class and contain zinc as a cofactor. The structure of human Zn,Cu-CA II has been solved which contains a copper ion bound at its N-terminal, coordinated to His4 and His64. In the active site a dioxygen molecule is coordinated to the zinc ion. Since dioxygen is a rather unexpected CA ligand, molecular dynamics (MD) simulations were performed which suggested a superoxide character of the zinc bound O₂.     

Purification and characterization of a novel plant-type carbonic anhydrase from Bacillus subtilis

Carbonic anhydrase enzyme, one of the fastest known enzymes, remains largely unexplored in prokaryotes when compared to its mammalian counterparts despite its ubiquity. In this study, the enzyme has been purified from Bacillus subtilis SA3 using sequential Sephadex G-75 chromatography, DEAE cellulose chromatography, and sepharose-4B-L-tyrosinesulphanilamide affinity chromatography and characterized to provide additional insights into its properties. The apparent molecular mass of carbonic anhydrase obtained by SDS-PAGE was found to be approximately 37 kDa. Isoelectric focusing of the purified enzyme revealed an isoelectric point (pI) of around 6.1 when compared with marker. The presence of metal ions such as Zn²⁺, Co²⁺, Cu²⁺, Fe³⁺, Mg²⁺, and anion SO₄⁻ increased enzyme activity while strong inhibition was observed in the presence of Hg²⁺, Cl⁻, HCO₃⁻, and metal chelator EDTA. The optimum pH and temperature for the enzyme were found to be 8.3 and 37°C, respectively. Enzyme kinetics with p-nitrophenyl acetate as substrate at pH 8.3 and 37°C determined the V_max and K_m values of the enzyme to be 714.28 μmol/mg protein/min and 9.09 mM, respectively. The K_i value for acetazolamide was 0.22 mM, compared to 0.099 mM for sulphanilamide. The results from N-terminal amino acid sequencing imply the purified protein is a putative beta-carbonic anhydrase with close similarities to CAs from plants, microorganisms.     

Sulfonamides containing curcumin scaffold: Synthesis,characterization, carbonic anhydrase inhibition and molecular docking studies

Curcumin is a multi-functional pharmacologically safe natural agent with proven cytoprotective effects to healthy human cells. In this study, a new series of sulfonamides with curcumin scaffold were synthesized, characterized and investigated for their carbonic anhydrase isoenzyme I (human) and II (bovine) isoforms. The structures of newly synthesized compounds were described by IR, ¹H NMR and ¹³C NMR spectral data. Compound 14 showed the K_i value of 0.99 µM with highest inhibitory activity among all other synthesized compounds against hCA-I enzyme. Similarly enzyme kinetic studies of compound 14, 16 and 30 against bCAII enzyme showed Ki values of 0.71, 0.67 and 0.71 µM respectively. Our biological assays results showed that most of active compounds have similar inhibitory activities compared to standard acetazolamide drug. The molecular docking predicted binding modes showed that these compounds bind with hCA-1 enzyme in similar fashion.