Critical Role of Cys168 in Noggin Protein＇s Biological Function

Previous studies have indicated that noggin exerts its neural inducing effect by binding and antagonizing bone morphogenetic protein 4 (BMP4). In order to further clarify the relationship between the structure and the function of noggin, and elucidate the possible mechanism responsible for noggin-BMP4 interaction, we generated three noggin mutants, C168S, C174S and C197S, by using a site-directed mutagenesis method. Ectopic expression of wild-type (WT) noggin, C174S or C197S, in Xenopus animal caps (ACs) by mRNA injection converted the explants (prospective ectoderm) into neural tissue, as indicated by the neural-like morphology and expression of the neural cell adhesion molecule (NCAM) in the ACs. In contrast, ACs expressing C168S suffered an epidermal fate similar to the control caps. Similarly, among the three mutants, only C168S lost the dorsalizing function. These studies highlight the critical role played by Cys168 in noggin‘s biological activities. It probably participates in the formation of an intermolecular disulfide bridge.     

人双专一性磷酸酶活性位点Cys^124附近精氨酸突变及功能

为研究人双专一性磷酸酶活性位点Cys12 4 附近 3个带正电的精氨酸对酶催化功能的影响 ,用QuikChange定点突变方法获得 6个突变体 :R12 5L、R130 L、R130 K、R130 L/S131A、R158K和R158L。将含突变基因的重组质粒转化大肠杆菌菌株BL2 1(DE3) ,经IPTG诱导表达获得的目的蛋白质均以可溶形式存在。通过镍离子亲和层析纯化得到纯度大于 90 %的蛋白质。对人痘苗病毒H1相关磷酸酶 (VHR)及其突变体进行稳态动力学参数和竞争性抑制常数Ki 的测定 ,结果显示上述Arg130 和Arg158突变体的kcat/Km 值都较野生型有大幅度下降 ,而Ki 值有明显上升 ,表明 130和 15 8位的精氨酸是VHR活性所必需 ,而且可能与底物上带负电的磷酸基团结合有关。另外 ,单突变体R130 L和双突变体R130 L/S131A之间的kcat值相差很小 ,提示Arg130 单点突变后可能破坏了Ser131与Cys12 4 间的氢键。再者 ,R12 5L、R130 L和R158L突变体都降低了砷酸盐结合亲和性 ,暗示这 3个精氨酸残基侧链上的正电荷可能有助于底物与酶的结合。     

Role of glutamate-52 in the mechanism of L-lactate dehydrogenase from Bacillus stearothermophilus

A single residue of the NAD(H)-dependent lactate dehydrogenase (LDH) from Bacillus stearothermophilus has been changed in order to decrease substrate inhibition. The conserved aspartic acid residue at position 52 was replaced by glutamate using site-directed mutagenesis. The effect on substrate inhibition was measured. In the glutamate-52 mutant substrate inhibition is decreased twofold.     

Lysine 21突变对树干毕赤氏酵母木糖还原酶辅酶依赖性的影响

木糖还原酶是重组酿酒酵母工程菌利用木糖生成乙醇代谢途径中的关键酶, 该关键酶在利用木糖时依赖NADPH而不是NADH是导致酿酒酵母代谢木糖生成乙醇的最终产率低的主要原因之一。为了改变树干毕赤氏酵母木糖还原酶的辅酶依赖性, 对它的第21位赖基酸Lys进行了突变。利用质粒载体pET28b分别将突变后的基因K21A-XYL1、K21R-XYL1及野生基因WT-XYL1在大肠杆菌E. coli BL21(DE3)中进行表达, 表达后的蛋白经His-Tag纯化柱纯化后测定酶学性质。结果表明: K21R突变子的辅酶依赖性没有改变, 但K21A突变子的辅酶依赖性由NADPH完全逆转为NADH。     

Lysine 21突变对树干毕赤氏酵母木糖还原酶辅酶依赖性的影响

木糖还原酶是重组酿酒酵母工程菌利用木糖生成乙醇代谢途径中的关键酶, 该关键酶在利用木糖时依赖NADPH而不是NADH是导致酿酒酵母代谢木糖生成乙醇的最终产率低的主要原因之一。为了改变树干毕赤氏酵母木糖还原酶的辅酶依赖性, 对它的第21位赖基酸Lys进行了突变。利用质粒载体pET28b分别将突变后的基因K21A-XYL1、K21R-XYL1及野生基因WT-XYL1在大肠杆菌E. coli BL21(DE3)中进行表达, 表达后的蛋白经His-Tag纯化柱纯化后测定酶学性质。结果表明: K21R突变子的辅酶依赖性没有改变, 但K21A突变子的辅酶依赖性由NADPH完全逆转为NADH。     

DIG标记DNA探针检测noggin在爪蟾胚胎中的表达

整体原位杂交（Whole-mount in situ hybridization)用于基因表达定位和表达分布模式的研究,已经成为一种非常重要的手段。PCR方法进行探针标记,可以获得特异性高,片断大小可变的探针。采用DIG标记,检测已知基因noggin在爪蟾胚胎时空分布,所得结果与文献报道一致,表明PCR方法获得的DNA探针在一定的条件下可以用于爪蟾胚胎整体原位杂交。     

Role of Cysteine Residues in Human Plasma Phospholipid Transfer Protein

Phospholipid transfer protein (PLTP) belongs to a family of human plasma lipid transfer proteins that bind to small amphophilic molecules. PLTP contains cysteines at residues 5, 129, 168, and 318. Bactericidal/permeability-increasing protein, which is a member of the same gene family, contains an essential disulfide bond between Cys₁₃₅ and Cys₁₇₅; these residues, which correspond to Cys₁₂₉ and Cys₁₆₈ in PLTP, are conserved among all known members of the gene family. To identify the importance of these and the remaining cysteine residues to PLTP secretion and activity, each was replaced by a glycine by site-directed mutagenesis. The mutant as well as wild-type PLTP cDNAs were cloned into the mammalian expression vector pSV·SPORT1, and the PLTP cDNAs were transfected to COS-6 cells for expression. PLTP Cys₁₂₉ Gly and PLTP Cys₁₆₈ Gly were secretion incompetent. Neither PLTP mass nor activity was detectable in cell lysates and culture medium. Relative to wild-type PLTP, PLTP Cys₅ Gly and PLTP Cys₃₁₈ Gly exhibited similar specific activities but partially impaired PLTP synthesis and secretion. Intracellular PLTP appeared as two bands of 75 and 51 kDa corresponding to reported molecular masses for the glycosylated and nonglycosylated forms. The specific activities of PLTP Cys₅ Gly and PLTP Cys₃₁₈ Gly were similar in the cell lysates and medium, suggesting that glycosylation does not affect transfer activity.     

The Cys154-->Gly mutation in LacY causes constitutive opening of the hydrophilic periplasmic pathway

The lactose permease of Escherichia coli (LacY) is a highly dynamic membrane transport protein, while the Cys154 → Gly mutant is crippled conformationally. The mutant binds sugar with high affinity, but catalyzes very little translocation across the membrane. In order to further investigate the defect in the mutant, fluorescent maleimides were used to examine the accessibility/reactivity of single-Cys LacY in right-side-out membrane vesicles. As shown previously, sugar binding induces an increase in reactivity of single-Cys replacements in the tightly packed periplasmic domain of wild-type LacY, while decreased reactivity is observed on the cytoplasmic side. Thus, the predominant population of wild-type LacY in the membrane is in an inward-facing conformation in the absence of sugar, sugar binding induces opening of a hydrophilic pathway on the periplasmic side, and the sugar-binding site is alternatively accessible to either side of the membrane. In striking contrast, the accessibility/reactivity of periplasmic Cys replacements in the Cys154 → Gly background is very high in the absence of sugar, and sugar binding has little or no effect. The observations indicate that an open hydrophilic pathway is present on the periplasmic side of the Cys154 → Gly mutant and that this pathway is unaffected by ligand binding, a conclusion consistent with findings obtained from single-molecule fluorescence and double electron-electron resonance.     

Structural consequences of the active site substitution Cys181 ==> Ser in metallo-beta-lactamase from Bacteroides fragilis

The metallo-beta-lactamases require divalent cations such as zinc or cadmium for hydrolyzing the amide bond of beta-lactam antibiotics. The crystal structure of the Zn2+ -bound enzyme from Bacteroides fragilis contains a binuclear zinc center in the active site. A hydroxide, coordinated to both zinc atoms, is proposed as the moiety that mounts the nucleophilic attack on the carbonyl carbon atom of the beta-lactam bond of the substrate. It was previously reported that the replacement of the active site Cys181 by a serine residue severely impaired catalysis while atomic absorption measurements indicated that binding of the two zinc ions remained intact. Contradicting data emerge from recent mass spectrometry results, which show that only a single zinc ion binds to the C181S metallo-beta-lactamase. In the current study, the C181S mutant enzyme was examined at the atomic level by determining the crystal structure at 2.6 A resolution. The overall structure of the mutant enzyme is the same as that of the wild-type enzyme. At the mutation site, the side chain of Ser181 occupies the same position as that of the side chain of Cys181 in the wild-type protein. One zinc ion, Zn1, is present in the crystal structure; however, the site of the second zinc ion, Zn2 is unoccupied. A water molecule is associated with Zn1, reminiscent of the hydroxide seen in the structure of the wild-type enzyme but farther from the metal. The position of the water molecule is off the plane of the carboxylate group of Asp103; therefore, the water molecule may be less nucleophilic than a water molecule which is coplanar with the carboxylate group.     

Role of domain 4 in sodium channel slow inactivation

Depolarization of sodium channels initiates at least three gating pathways: activation, fast inactivation, and slow inactivation. Little is known about the voltage sensors for slow inactivation, a process believed to be separate from fast inactivation. Covalent modification of a cysteine substituted for the third arginine (R1454) in the S4 segment of the fourth domain (R3C) with negatively charged methanethiosulfonate-ethylsulfonate (MTSES) or with positively charged methanethiosulfonate-ethyltrimethylammonium (MTSET) produces a marked slowing of the rate of fast inactivation. However, only MTSES modification produces substantial effects on the kinetics of slow inactivation. Rapid trains of depolarizations (2-20 Hz) cause a reduction of the peak current of mutant channels modified by MTSES, an effect not observed for wild-type or unmodified R3C channels, or for mutant channels modified by MTSET. The data suggest that MTSES modification of R3C enhances entry into a slow-inactivated state, and also that the effects on slow inactivation are independent of alterations of either activation or fast inactivation. This effect of MTSES is observed only for cysteine mutants within the middle of this S4 segment, and the data support a helical secondary structure of S4 in this region. Mutation of R1454 to the negatively charged residues aspartate or glutamate cannot reproduce the effects of MTSES modification, indicating that charge alone cannot account for these results. A long-chained derivative of MTSES has similar effects as MTSES, and can produce these effects on a residue that does not show use-dependent current reduction after modification by MTSES, suggesting that the sulfonate moiety can reach a critical site affecting slow inactivation. The effects of MTSES on R3C are partially counteracted by a point mutation (W408A) that inhibits slow inactivation. Our data suggest that a region near the midpoint of the S4 segment of domain 4 plays an important role in slow inactivation.     

定点突变技术研究苏云金杆菌Cry1类晶体蛋白结构与功能的进展

近年来利用定点突变技术研究苏云金杆菌（Bacillus thuringiesis,Bt）杀虫晶体蛋白（Insecticidal crystal proteins,ICP）作用机制已取得良好进展.杀虫晶体蛋白不同结构域上氨基酸残基的突变将影响其稳定性,与受体的结合,不可逆的昆虫中肠膜插入及离子通道活性的强弱等.突变研究表明,结构域Ⅰ参与不可逆结合及插入昆虫中肠膜过程;结构域Ⅱ参与受体结合,包括初始结合与不可逆结合;结构域Ⅲ在杀虫特异性和维持三维结构的稳定性方面起重要作用,同时,可能参与离子通道的形成,受体结合和插入昆虫中肠膜过程.利用各种定点突变技术对各位点进行突变可以研究单一位点的功能,到目前为止,已有很多关于这方面的研究,并且筛选到了毒力提高的工程菌株.     

TLR序列在SRP54蛋白与SRPRNA和信号肽结合中的作用

SRP54蛋白是信号识别颗粒(signal recognition particle)的一个关键组分.对人SRP54蛋白328～330位的TLR3个氨基酸进行人工诱变,在大肠杆菌BL21(DE3)pLysS中表达了A3突变体,并对A3突变体进行纯化和Superdex75凝胶过滤分析.观察到A3突变体丧失了与SRPRNA结合的能力,其自身也不能形成二聚体.结果证明,TLR这3个氨基酸残基与二聚体结构的形成有关,TLR是SRP54蛋白结合SRPRNA和新生蛋白质信号肽所必需的关键性氨基酸序列.     

Biological functions of the disulfides in bovine pancreatic deoxyribonuclease

We characterized the biochemical functions of the small nonessential (C101-C104) and the large essential (C173-C209) disulfides in bovine pancreatic (bp) DNase using alanine mutants [brDNase(C101A)] and [brDNase(C173A) and brDNase(C209A)], respectively. We also characterized the effects of an additional third disulfide [brDNase(F192C/A217C)]. Without the Ca(2+) protection, bpDNase and brDNase(C101A) were readily inactivated by trypsin, whereas brDNase(F192C/A217C) remained active. With Ca(2+), all forms of DNase, except for brDNase(C101A), were protected against trypsin. All forms of DNase, after being dissolved in 6 M guanidine-HCl, were fully reactivated by diluting into a Ca(2+)-containing buffer. However, when diluted into a Ca(2+)-free buffer, bpDNase and brDNase(C101A) remained inactive, but 60% of the bpDNase activity was restored with brDNase(F192C/A217C). When heated, bpDNase was inactivated at a transition temperature of 65 degrees C, brDNase(C101A) at 60 degrees C, and brDNase(F192C/A217C) at 73 degrees C, indicating that the small disulfide, albeit not essential for activity, is important for the structural integrity, and that the introduction of a third disulfide can further stabilize the enzyme. When pellets of brDNase(C173A) and brDNase(C209A) in inclusion bodies were dissolved in 6 M guanidine-HCl and then diluted into a Ca(2+)-containing buffer, 10%-18% of the bpDNase activity was restored, suggesting that the "essential" disulfide is not absolutely crucial for enzymatic catalysis. Owing to the structure-based sequence alignment revealing homology between the "nonessential" disulfide of bpDNase and the active-site motif of thioredoxin, we measured 39% of the thioredoxin-like activity for bpDNase based on the rate of insulin precipitation (DeltaA650nm/min). Thus, the disulfides in bpDNase not only play the role of stabilizing the protein molecule but also may engage in biological functions such as the disulfide/dithiol exchange reaction.     

神经生长因子结构与功能研究进展

神经生长因子(NGF)是神经营养因子家族的典型代表, 它控制着脊椎动物周围和中枢神经系统中部分神经元的发育和存活.NGF的三维结构是以“胱氨酸结”和β折叠为基础,它以二聚体的形式结合细胞表面的受体从而发生生物学效应.参与这些反应的氨基酸残基已通过化学修饰和定点突变法加以确定,这有助于更进一步理解其结构与功能的关系.     

抗CD3人源化抗体恒定区突变体的制备及其生物学活性

为了降低抗CD3人源化抗体hu12F6对T细胞的激活作用以克服首剂效应 ,构建了恒定区特定位点突变的hu12F6重链表达载体 ,将其与hu12F6的轻链表达载体共转染CHO细胞 .ELISA和RT PCR证实 ,恒定区特定位点突变的人源化抗体hu12F6m在CHO细胞中获得了表达 .竞争抑制实验证实hu12F6m具有与原鼠源抗体及hu12F6相似的特异性和亲和力 .增殖实验表明hu12F6m对T细胞的刺激作用明显弱于hu12F6 .实验结果为深入探讨hu12F6m的生物学特性奠定了基础 .     

Role of C-terminal sequence of cytochrome P450scc in folding and functional activity

To elucidate the role of Arg472 and C-terminal sequence of the mature form of cytochrome P450scc, a mitochondrial cytochrome P450, in the present work we have performed sequential removal of the C-terminal amino acid residues of the hemeprotein and evaluated their functional role in folding and catalysis. The removal of 2, 4, 7, or 9 amino acid residues (cytochrome P450scc mutants Delta2, Delta4, Delta7, and Delta9) does not significantly affect the physicochemical properties of the truncated forms of cytochrome P450scc, but results in significant increase in the expression level of the hemeprotein in Escherichia coli (Delta4 cytochrome P450scc mutant). However, removal of 10 C-terminal amino acid residues (Delta10 cytochrome P450scc) of mature form of cytochrome P450scc (replacement of codon for Arg472 for stop-codon) is followed by loss of the ability for correct folding in E. coli. Based on these data, it is concluded that the C-terminal amino acid residues of cytochrome P450scc (DeltaArg472-Ala481) play an important role in correct recombinant protein folding and heme binding by cytochrome P450scc during its expression in E. coli, while folding of mitochondrial cytochrome P450scc during its heterologous expression in bacterial cells is more similar to the folding of prokaryotic soluble cytochrome P450's than to microsomal cytochrome P450's.     

Role of Phe-99 and Trp-196 of sepiapterin reductase from Chlorobium tepidum in the production of L-threo-tetrahydrobiopterin

Sepiapterin reductase from Chlorobium tepidum (cSR) catalyzes the synthesis of a distinct tetrahydrobiopterin (BH4), L -threo-BH4, different from the mammalian enzyme product. The 3-D crystal structure of cSR has revealed that the product configuration is determined solely by the substrate binding mode within the well-conserved catalytic triads. In cSR, the sepiapterin is stacked between two aromatic side chains of Phe-99 and Trp-196 and rotated approximately 180° around the active site from the position in mouse sepiapterin reductase. To confirm their roles in substrate binding, we mutated Phe-99 and/or Trp-196 to alanine (F99A, W196A) by site-directed mutagenesis and comparatively examined substrate binding of the purified proteins by kinetics analysis and differential scanning calorimetry. These mutants had higher K _m values than the wild type. Remarkably, the W196A mutation resulted in a higher K _m increase compared with the F99A mutation. Consistent with the results, the melting temperature ( T _m) in the presence of sepiapterin was lower in the mutant proteins and the worst was W196A. These findings indicate that the two residues are indispensable for substrate binding in cSR, and Trp-196 is more important than Phe-99 for different stereoisomer production.     

Role of the electrostatic loop charged residues in Cu,Zn superoxide dismutase.

We have expressed and characterized a mutant of Xenopus laevis Cu,Zn superoxide dismutase in which four highly conserved charged residues belonging to the electrostatic loop have been replaced by neutral side chains: Lys120 --> Leu, Asp130 --> Gln, Glu131 --> Gln, and Lys134 --> Thr. At low ionic strength, the mutant enzyme is one of the fastest superoxide dismutases ever assayed (k = 6.7 x 10(9) M(-1) s(-1), at pH 7 and mu = 0.02 M). Brownian dynamics simulations give rise to identical enzyme-substrate association rates for both wild-type and mutant enzymes, ruling out the possibility that enhancement of the activity is due to pure electrostatic factors. Comparative analysis of the experimental catalytic rate of the quadruple and single mutants reveals the nonadditivity of the mutation effects, indicating that the hyperefficiency of the mutant is due to a decrease of the energy barrier and/or to an alternative pathway for the diffusion of superoxide within the active site channel. At physiological ionic strength the catalytic rate of the mutant at neutral pH is similar to that of the wild-type enzyme as it is to the catalytic rate pH dependence. Moreover, mutation effects are additive. These results show that, at physiological salt conditions, electrostatic loop charged residues do not influence the diffusion pathway of the substrate and, if concomitantly neutralized, are not essential for high catalytic efficiency of the enzyme, pointing out the role of the metal cluster and of the invariant Arg141 in determining the local electrostatic forces facilitating the diffusion of the substrate towards the active site.     

重组白眉蝮蛇去整合素定点突变对其生物活性的影响

RGD为存在于许多糖蛋白配体中的氨基酸序列,对整合素具有识别作用.此序列也发现于许多蛇毒去整合素分子中.采用基因克隆技术从大连产白眉蝮蛇的毒腺中克隆出的去整合素adinbitor是含73个氨基酸残基的去整合素,分子中含有12个半胱氨酸和RGD模体.实验证明,adinbitor作为去整合素的新成员,具有典型的抗ADP诱导的人血小板聚集作用和抗肿瘤血管新生作用.为了将adinbitor的这2种功能分开,采用PCR基因定点突变的方法,将其cDNA序列中RGD模体改变成KGD.重组adinbitor(KGD)在E.coli BL21得到表达,并通过His•Bind亲和层析予以纯化.实验发现,adinbitor对ADP诱导的人血小板聚集具有明显抑制作用,其IC50=85 nmol/L,明显优于adinbitor(RGD) （IC50=150 nmol/L）.然而,与adinbitor(KGD)相比,adinbitor(KGD)则丧失了对血管生成的抑制作用.结果说明,adinbitor(KGD)可作为专一的抗人血小板聚集药具有潜在的开发前景.