重组链激酶及其三种突变体的活性研究

利用PCR技术从Streptococucspyogenes的基因组DNA中扩增了链激酶的编码基因ska,并进行了序列分析 ,利用基因删除及定点位变技术获得了删除了C-末端 42个氨基酸残基编码区的突变链激酶基因skaΔC42 ,第 5 9位Lys残基突变为Glu的突变链激酶基因skaK5 9E以及删除C-末端 42个氨基酸且第 5 9位Lys残基突变为Glu的突变链激酶基因skaΔC42K5 9E ,将ska及其三种突变体分别克隆到表达载体pET 1 5b上 ,构建分别表达野生型链激酶 (SK)、C-末端缺失 42个氨基酸残基的突变体 (SKΔC42 )、第 5 9位Lys残基突变为Glu的突变体 (SKK5 9E)及C-末端缺失 42个氨基酸且第 5 9位Lys残基突变为Glu突变体 (SKΔC42K5 9E)的表达载体pSK ,pSKΔC42 ,pSK K5 9E ,pSKΔC42K5 9E ,分别转化E .coliBL2 1 (DE3) ,IPTG诱导后在大肠杆菌中实现了高效表达 ,经亲和层析、离子交换层析及分子筛层析 ,获得了rSK、rSKΔC42、rSKK5 9E及rSKΔC42K5 9E ,活性分析表明rSK与其三种突变体具有相同的比活性。     

酸性木聚糖酶XynⅡ活性中心关键氨基酸残基的鉴定

目的:鉴定来源于宇佐美曲霉(Aspergillus usamii)E001的酸性木聚糖酶XynⅡ活性中心关键氨基酸残基。方法:对XynⅡ进行SWISS-MODEL同源建模和BLAST序列比较,分析XynⅡ中所有可能作为催化残基的保守氨基酸,采用定点突变手段对其进行鉴定研究。结果:只有Glu-79和Glu-170位于酶与底物作用的活性中心,它们分别位于β折叠股B6和B4上,推测Glu-79和Glu-170为XynⅡ活性中心关键氨基酸残基。将Glu-79和Glu-170突变为酸性的Gln,突变酶E79Q,E170Q在大肠杆菌和毕赤酵母中表达后,活性均丧失。结论:79位、170位Glu是木聚糖酶XynⅡ活性中心的关键氨基酸残基,为该酶进一步的结构与功能研究提供了理论基础。     

人巨细胞病毒M抗原表位保守氨基酸突变的分析

为确定人巨细胞病毒M抗原表位MAD的关键氨基酸残基, 以MAD多肽序列为基础, 分别将保守氨基酸残基单一突变为甘氨酸残基, 构建各自突变体, 然后与人源Fc的N端融合, 通过原核表达载体pET32-Fc表达融合蛋白MAD-Fc, 经protein A柱亲和纯化得到各突变体纯品。通过ELISA及Western blotting方法验证各突变体特异结合羊抗HCMV多抗间的差异, 从而确定表位关键氨基酸残基。结果显示, 将MAD中的谷氨酰胺残基单突变为甘氨酸残基后, MADQ-G结合羊抗HCMV多抗活性大大降低, 差异显著; 而其他氨基酸残基单突变时, 对MAD活性影响程度很小。由此得出结论: MAD结合羊抗HCMV多抗的活性与谷氨酰胺残基有关。     

乳腺癌易感蛋白BRCA1的BRCT2结构域染色质伸展活性的定位

40 %～ 5 0 %的遗传性乳腺癌和至少 80 %的既有乳腺癌又有卵巢癌家族史的患者是由BRCA1突变引起的 .BRCA1C末端含有 2个BRCT结构域 (BRCT1和BRCT2 ) ,它们与BRCA1的重要功能密切相关 .许多乳腺癌易感突变发生在BRCA1的BRCT结构域中 .利用染色质结构检测技术表明 ,BRCT结构域具有染色质伸展活性 .利用缺失突变技术构建了 6种BRCT2结构域 (175 6～ 185 2位氨基酸残基 )缺失突变体并将BRCT2结构域中与染色质伸展相关的重要区域定位到 175 6～ 180 8之间的氨基酸残基 ;用丙氨酸扫描技术构建了 6种BRCT2结构域丙氨酸扫描突变体并将重要氨基酸残基序列定位到 1784～ 1788之间的VQLCG .BRCT2结构域的定位有助于预测BRCT2结构域突变后发生乳腺癌的风险 ,也为进一步研究BRCT2结构域的功能机制提供了有用的材料 .     

虎纹捕鸟蛛毒素XI (HWTX-XI) 突变体的真核表达及活性鉴定

虎纹捕鸟蛛毒素-XI (HWTX-XI) 是从虎纹捕鸟蛛粗毒中分离的含55个氨基酸残基的蛋白质,兼有胰蛋白酶抑制活性和电压门控钾离子通道抑制活性。通过突变HWTX-XI上的钾离子通道抑制活性关键氨基酸残基设计了2个突变体 (分别突变以下氨基酸残基：R5I,R10T,R25A和R5I,R25A),利用pVT102U/α表达载体在酿酒酵母S78中成功表达并获得了高纯度的重组蛋白质;通过分光光度计比色法、膜片钳技术和小鼠脑室注射分别比较三者的胰蛋白酶和钾通道抑制活性以及动物毒性,结果显示：HWTX-XI突变体与     

封面故事

氮氧自由基定点标记结合顺磁共振技术探测蛋白质等生物大分子的结构信息,是目前结构生物学研究中的一项新兴技术。通过基因的定点突变以及修饰反应,可将蛋白质特定空间位置上的氨基酸残基替换成含有氮氧自由基的非天然残基(简称为R1)。随后     

α-环糊精糖基转移酶活性区域突变提高选择形成γ-环糊精能力

探讨α-环糊精糖基转移酶(CGT酶)活性区域-3亚位点(47位赖氨酸残基),-7亚位点(146~152位氨基酸残基)以及环化中心位点(195位酪氨酸残基)对其催化底物形成γ-环糊精(CD)能力的影响。将α-CGT酶相应位点分别进行如下突变:K47T,Y195I,以及146~152位氨基酸残基替换为异亮氨酸(命名为△6),并在大肠杆菌BL21中实现异源活性表达。以可溶性淀粉作为底物进行转化,利用HPLC分析各种突变酶的催化产物中3种环糊精产量和比例。结果表明,和野生酶相比,所有突变酶的淀粉水解活性和环糊精总生成量都有不同程度的下降。在产物的组成方面,突变酶Y195I的催化产物中,α-CD的含量由68%降为30%,β-CD由22.2%提高为33.3%;而γ-CD由8.9%提高为36.7%,含量提高了4倍,取代α-CD成为产物中的主要成分;γ-CD的实际产量为1.1 g/L,是野生酶(0.4 g/L)的3倍。突变酶K47T和△6的转化产物中α-CD比例有不同程度下降,但仍然是产物中的主要组分,β-和γ-CD的比例都有所增加。由此可见,活性区域中195位氨基酸对于α-CGT酶的活力和催化选择性具有重要的影响,Y195I突变体酶最有利于选择性形成γ-CD。纯化后突变酶Y195I的酶学性质试验表明,其最适反应温度和野生酶相同,但最适反应pH有所提高,且比野生酶具有更好的pH稳定性。因此,突变酶Y195I具有生产制备γ-CD的潜力。     

615小鼠血红蛋白α链的氨基酸组成及个别肽段的氨基酸序列

用CM-Cellulose-23柱层析分离纯化了615小鼠珠蛋白α链,测定其N端氨基酸残基为缬氨酸.615小鼠珠蛋白α链含有141个氨基酸残基,其中19个亮氨酸残基,10个组氨酸残基,9个缬氨酸残基,上述氨基酸残基的数目与文献中其亲本C₅₇BL不同.用胰蛋白酶水解615小鼠珠蛋白α链,发现有不溶性的‘核心’和可溶性的酶解片段.其中一个酶解肽段从N端数第8位氨基酸残基发生了突变,由亲本的缬氨酸变为亮氨酸.     

定点突变对酰胺水解酶DamH可溶性表达和酶活的影响

摘要:【目的】DamH是一种具有酯酶活性的酰胺水解酶,其非活性中心氨基酸残基的突变对重组酶可溶性表达和比酶活产生一定的影响。拟探索DamH的活性中心氨基酸残基构成,并对其非活性中心氨基酸残基突变对可溶性表达和比酶活的影响进行研究。【方法】通过重叠延伸的方法对DamH可能的活性中心氨基酸S149、E244和H274以及非活性中心氨基酸D165及N192进行定点突变,通过静息细胞测活验证了S149、E244和H274 在催化2-氯-N-(2’-甲基-6’-乙基苯基)乙酰胺(CMEPA)水解反应中的作用,通过Ni2+- NTA亲和层析对D165及N192突变子进行纯化,对突变株和野生型比酶活进行比较。【结果】研究表明S149A使DamH的CMEPA 水解酶活性下降为野生型的5%,E244A和H274A突变导致其失去活性;D165P和N192P突变影响到DamH的可溶性表达,表达量分别为野生型的28.2%和20.8%,突变子N192P、D165P比酶活分别为野生型比酶活的55.5%和49.7%。【结论】DamH催化酯类底物和芳基酰胺类底物可能共用同一活性中心S149、E244和H274,其两个α螺旋的转角处氨基酸侧链极性和刚性结构的改变对可溶性表达以及活性有很大的影响。     

江浙蝮蛇毒碱性磷脂酶A2的溶血位点

用聚合酶链式反应 (PCR)对江浙蝮蛇毒碱性磷脂酶A2 基因进行点突变 ,使对应 34位氨基酸残基由Arg分别突变为Glu和Gln ,将其基因克隆至温敏表达载体pBLMVL2 ,并在大肠杆菌RR1中成功诱导表达 ,表达产物以包涵体的形式存在。对包涵体进行变复性后 ,用凝胶过滤的方法纯化。对纯化后的产物进行酶活力测定及溶血活性测定。实验结果表明 ,突变后的表达产物维持原有磷脂酶A2 活性 ,且溶血活性显著降低 ,表明磷脂酶A2 的34位碱性氨基酸残基在溶血过程具有重要作用     

家蚕磷酸吡哆醇氧化酶基因的表达谱分析

【目的】了解家蚕Bombyx mori维生素B6关键代谢酶磷酸吡哆醇氧化酶（pyridoxine- 5′-phosphate oxidase, PNPO）基因在家蚕不同发育阶段及5龄幼虫不同组织中的表达差异。【方法】将家蚕PNPO基因的重组表达质粒pET-22b(+)-PNPO转化入大肠杆菌Escherichia coli Rosetta中诱导表达, 纯化蛋白制备多克隆抗体。分别采用荧光定量PCR和Western blot方法对家蚕PNPO基因进行了转录水平和翻译水平的表达分析。【结果】在家蚕发育水平上, 5龄幼虫的PNPO翻译量为最高。PNPO基因在5龄幼虫各组织中的转录水平由高到低依次为精巢、 头、 中肠、 马氏管、 卵巢、 表皮、 脂肪体、 丝腺; 翻译量也以精巢为最高, 其次是头、 中肠和马氏管。【结论】明确了PNPO在家蚕各发育阶段及5龄幼虫各组织中的表达情况。     

Differential Changes in Pyridoxine 5′-Phosphate Oxidase Immunoreactivity and Protein Levels in the Somatosensory Cortex and Striatum of the Ischemic Gerbil Brain

Pyridoxal 5'-phosphate (PLP) is an important cofactor in a wide range of biochemical reactions, such as the metabolism of various amino acids, including GABA. PLP is synthesized by the oxidation of pyridoxine 5'-phosphate (PNP), which is catalyzed by PNP oxidase (PNPO). We observed the changes in cresyl violet-positive neurons, PNPO immunoreactivity and PNPO protein levels in the somatosensory cortex and striatum in gerbils after 5 min of transient forebrain ischemia. Cresyl violet-positive neurons showed condensed cytoplasm in the somatosensory cortex and lateral part of the striatum at 2 days after ischemia/reperfusion. PNPO immunoreactivity began to increase in neurons in layers III and V at 3 h after ischemia/reperfusion and this immunoreactivity was significantly increased at 12 h after ischemia/reperfusion. Thereafter, PNPO immunoreactivity decreased with time after ischemia/reperfusion. PNPO-immunoreactive neurons were only slightly detected in the lateral part of the striatum at 12 h after ischemia/reperfusion. In addition, the PNPO protein levels in both the somatosensory cortex and striatum homogenates peaked at 12 h after ischemia/reperfusion. These results indicate that PNPO is significantly increased in the ischemic somatosensory cortex and lateral part of the striatum, and this change in the level of PNPO may be associated with the neuronal damage induced by ischemia.     

外源激素处理后家蚕吡哆醛激酶和磷酸吡哆醇氧化酶转录水平的变化

【目的】研究家蚕 Bombyx mori 经蜕皮激素(20-hydroxyecdysone, 20-E)和保幼激素类似物(juvenile hormone analogue, JHA)处理后引起吡哆醛激酶(pyridoxal kinase, PLK)和磷酸吡哆醇氧化酶(pyridoxine-5′-phosphate oxidase, PNPO)的转录水平变化,为进一步研究激素对蚕体营养代谢等工作奠定基础。【方法】以20-E和JHA分别喂食不同发育时期(5龄第1, 3和5天)的家蚕幼虫,以喂食蒸馏水的家蚕为对照,采用实时荧光定量PCR(real-time quantitative PCR)方法在处理后24 和48 h对各组幼虫后部丝腺中PLP合成酶PLK和PNPO的转录水平进行分析。【结果】5龄第1天幼虫经20-E处理24和48 h后,PLK和PNPO的转录水平出现上调且与对照的差异达到极显著 (P＜0.01);5龄第3天幼虫经20-E处理,PLK的转录水平在48 h出现下调且与对照的差异达到显著(P＜0.05),PNPO的转录水平在24 和48 h均出现上调且与对照的差异达到极显著 (P＜0.01);5龄第5天幼虫经20-E处理后PLK和PNPO的转录水平无变化。5龄第1天幼虫经JHA处理后PLK和PNPO的转录水平未受到影响;5龄第3天幼虫经JHA处理后,PLK的转录水平在48 h出现显著下调且与对照的差异达到显著(P＜0.05),PNPO的转录水平在24和48 h后均出现显著下调且与对照的差异达到极显著(P＜0.05);5龄第5天幼虫经JHA处理24和48 h后,PLK和PNPO的转录水平出现下调且与对照的差异达到极显著 (P＜0.01)。【结论】20-E和JHA显著影响家蚕5龄幼虫PLK和PNPO的转录水平,20-E提高5龄前期家蚕PLK和PNPO的转录水平,JHA降低5龄后期它们的转录水平,为深入研究激素对VB₆的调控奠定基础。     

Identification of the [Fe-S] cluster-binding residues of Escherichia coli biotin synthase

The gene encoding Escherichia coli biotin synthase (bioB) has been expressed as a histidine fusion protein, and the protein was purified in a single step using immobilized metal affinity chromatography. The His(6)-tagged protein was fully functional in in vitro and in vivo biotin production assays. Analysis of all the published bioB sequences identified a number of conserved residues. Single point mutations, to either serine or threonine, were carried out on the four conserved (Cys-53, Cys-57, Cys-60, and Cys-188) and one non-conserved (Cys-288) cysteine residues, and the purified mutant proteins were tested both for ability to reconstitute the [2Fe-2S] clusters of the native (oxidized) dimer and enzymatic activity. The C188S mutant was insoluble. The wild-type and four of the mutant proteins were characterized by UV-visible spectroscopy, metal and sulfide analysis, and both in vitro and in vivo biotin production assays. The molecular masses of all proteins were verified using electrospray mass spectrometry. The results indicate that the His(6) tag and the C288T mutation have no effect on the activity of biotin synthase when compared with the wild-type protein. The C53S, C57S, and C60S mutant proteins, both as prepared and reconstituted, were unable to covert dethiobiotin to biotin in vitro and in vivo. We conclude that three of the conserved cysteine residues (Cys-53, Cys-57, and Cys-60), all of which lie in the highly conserved "cysteine box" motif, are crucial for [Fe-S] cluster binding, whereas Cys-188 plays a hitherto unknown structural role in biotin synthase.     

Dipteran endoparasitoid Exorista bombycis utilizes antihemocyte components against host defense of silkworm Bombyx mori

Dipteran endoparasitoids avoid host immune response; however, antidefense components from the Dipterans are unknown. Infestation of commercial silkworm Bombyx mori Linnaeus (Lepidoptera: Bombycidae) by endoparasitoid Exorista bombycis Louis (Diptera: Tachinidae) induced immune reactions, cytotoxicity, granulation, degranulation, and augmented release of cytotoxic marker enzyme lactate dehydrogenase (LDH), and degranulation-mediator enzyme β-hexosaminidase in hemocytes. In this study, by reverse phase high-performance liquid chromatography, fractions of E. bombycis larval tissue protein with antihemocytic activity are separated. From the fraction, peptides of hemocyte aggregation inhibitor protein (HAIP) and pyridoxamine phosphate oxidase (PNPO) are identified by mass spectrometry. Interacting partners of HAIP and PNPO are retrieved that further enhance the virulence of the parasitoid. PNPO and HAIP genes showed a four- to seven fold increase in expression in the integument of the parasitoid larva. Together, the dipteran endoparasitoid E. bombycis exploit antihemocyte activity to inhibit host defense reactions in addition to defense evasion contemplated.     

人细小病毒B19 VP1u多克隆抗体的制备及其保守区外N端氨基酸对sPLA2活性影响的初步研究

【目的】制备人细小病毒B19-VP1u的多克隆抗体,探究VP1u多克隆抗体及其保守区外N端氨基酸对病毒磷脂酶A2活性的影响。【方法】首先通过分子克隆方法构建相应原核表达载体;利用原核表达系统纯化含MBP标签的VP1u全长及N端系列截短突变融合蛋白;接着免疫新西兰大白兔制备全长VP1u蛋白的多克隆抗体;最后利用磷脂酶A2活性检测试剂盒检测了纯化蛋白的磷脂酶A2活性。【结果】Western blot及免疫荧光实验证实制备的多克隆抗体具有较高的特异性;磷脂酶A2活性检测发现全长VP1u-MBP融合蛋白具有一定的活性,该活性可以被VP1u的抗体抑制;N端保守区外截短系列蛋白的酶活检测发现,N端截掉12个氨基酸时酶活降低53%,截掉67个氨基酸时酶活性几乎完全丧失。【结论】首次发现VP1u保守区外N端氨基酸,尤其是第12个氨基酸前的区域以及第22-67个氨基酸之间的区域,对sPLA2活性的保持具有重要意义,推测该区域可能对维持正常的蛋白构象起重要的作用;而其特异性多克隆抗体的制备也为进一步研究B19病毒VP1u在病毒复制周期的作用奠定基础。     

Identification of structural and catalytic classes of highly conserved amino acid residues in lysine 2,3-aminomutase

Lysine 2,3-aminomutase (LAM) from Clostridium subterminale SB4 catalyzes the interconversion of (S)-lysine and (S)-beta-lysine by a radical mechanism involving coenzymatic actions of S-adenosylmethionine (SAM), a [4Fe-4S] cluster, and pyridoxal 5'-phosphate (PLP). The enzyme contains a number of conserved acidic residues and a cysteine- and arginine-rich motif, which binds iron and sulfide in the [4Fe-4S] cluster. The results of activity and iron, sulfide, and PLP analysis of variants resulting from site-specific mutations of the conserved acidic residues and the arginine residues in the iron-sulfide binding motif indicate two classes of conserved residues of each type. Mutation of the conserved residues Arg134, Asp293, and Asp330 abolishes all enzymatic activity. On the basis of the X-ray crystal structure, these residues bind the epsilon-aminium and alpha-carboxylate groups of (S)-lysine. However, among these residues, only Asp293 appears to be important for stabilizing the [4Fe-4S] cluster. Members of a second group of conserved residues appear to stabilize the structure of LAM. Mutations of arginine 130, 135, and 136 and acidic residues Glu86, Asp165, Glu236, and Asp172 dramatically decrease iron and sulfide contents in the purified variants. Mutation of Asp96 significantly decreases iron and sulfide content. Arg130 or Asp172 variants display no detectable activity, whereas variants mutated at the other positions display low to very low activities. Structural roles are assigned to this latter class of conserved amino acids. In particular, a network of hydrogen bonded interactions of Arg130, Glu86, Arg135, and the main chain carbonyl groups of Cys132 and Leu55 appears to stabilize the [4Fe-4S] cluster.     

Muscarinic acetylcholine receptors. Peptide sequencing identifies residues involved in antagonist binding and disulfide bond formation

Muscarinic acetylcholine receptors (mAChR) were purified from rat brain and labeled either with the site-directed affinity label [3H]propylbenzilylcholine mustard (PrBCM) or with the sulfhydryl-specific label [3H]N-ethylmaleimide (NEM), using a protocol designed to give selective incorporation of the label into disulfide-bonded cysteines. m1 mAChRs were purified from CHO-K1 cells stably expressing the cloned receptor sequence and labeled with [3H]PrBCM. The labeled receptors were cleaved with the lysine-specific protease Lys-C and, after fractionation of the products, subcleaved with cyanogen bromide. Two major CNBr cleavage products were found with a molecular mass of approximately 3.9 and approximately 2.4 kDa, labeled either by [3H]PrBCM or [3H]NEM. The results obtained from CNBr cleavage of purified forebrain receptors were consistent with those obtained from the purified cloned m1 mAChR. Edman degradation was applied to the CNBr peptides. The results were compatible with the attachment of the [3H]PrBCM label to a conserved aspartic acid residue in transmembrane helix 3 of the mAChR (corresponding to Asp-105, m1 sequence) and of [3H]NEM to a conserved cysteine residue (corresponding to Cys-98, m1 sequence). These results support the hypothesis that the cysteine residue participates in a disulfide bond on the extracellular surface of the mAChRs and related G-protein-coupled receptors, while the aspartic acid residue is involved in binding the positively charged headgroup of muscarinic antagonists.     

HlyC, the internal protein acyltransferase that activates hemolysin toxin: role of conserved histidine, serine, and cysteine residues in enzymatic activity as probed by chemical modification and site-directed mutagenesis

HlyC is an internal protein acyltransferase that activates hemolysin, a toxic protein produced by pathogenic Escherichia coli. Acyl-acyl carrier protein (ACP) is the essential acyl donor. Separately subcloned, expressed, and purified prohemolysin A (proHlyA), HlyC, and [1-14C]myristoyl-ACP have been used to study the conversion of proHlyA to HlyA [Trent, M. S., Worsham, L. M., and Ernst-Fonberg, M. L. (1998) Biochemistry 37, 4644-4655]. HlyC and hemolysin belong to a family of at least 13 toxins produced by Gram-negative bacteria. The homologous acyltransferases of the family show a number of conserved residues that are possible candidates for participation in acyl transfer. Specific chemical reagents and site-directed mutagenesis showed that neither the single conserved cysteine nor the three conserved serine residues were required for enzyme activity. Treatment with the reversible histidine-modifying diethyl pyrocarbonate (DEPC) inhibited acyltransferase activity, and acyltransferase activity was restored following hydroxylamine treatment. The substrate myristoyl-ACP protected HlyC from DEPC inhibition. These findings and spectral absorbance changes suggested that histidine, particularly a histidine proximal to the substrate binding site, was essential for enzyme activity. Site-directed mutageneses of the single conserved histidine residue, His23, to alanine, cysteine, or serine resulted in each instance in complete inactivation of the enzyme.