洛美沙星对Bloom综合征解旋酶生物学特性影响的机理研究

Bloom综合征解旋酶(BLM)是RecQ家族DNA解旋酶中的一个重要成员,参与了DNA复制、修复、转录、重组以及端粒的维持等细胞代谢过程,在维持染色体的稳定性中具有重要作用.BLM解旋酶的突变可导致Bloom综合征.Bloom综合征是一种罕见隐性常染色体遗传疾病,患者遗传不稳定,并易患多种类型癌症.洛美沙星(LMX)可以抑制细胞内多种酶,并通过结合DNA干扰DNA代谢,从而治疗多种疾病,但是其具体的作用机理还未完全清楚.运用荧光偏振技术和自由磷检测技术,研究了LMX对BLM642～1290解旋酶DNA结合活性、解链活性和ATP酶活性的影响.运用荧光及紫外吸收光谱法研究了LMX与解旋酶结合的结合常数、结合位点数、作用力类型、结合距离等参数.结果表明,LMX与解旋酶之间能自发进行反应,两种分子有一个结合位点,通过静电引力和疏水作用力形成稳定的BLM-LMX复合物,且解旋酶的内源荧光被LMX静态猝灭,主要原因是非辐射能量转移.在这一过程中,LMX能抑制解旋酶的解链活性和ATP酶活性,而促进解旋酶的DNA结合活性.LMX对BLM解旋酶生物学活性影响的机理可能是LMX使解旋酶通过别构机制影响其ATP酶活性,并使酶的构象维持在较低解链活性的状态,通过抑制ATP催化水解与解链过程的偶联和阻止解旋酶的易位,从而抑制其解链.LMX能够促进解旋酶的DNA结合活性,可能是因为其C-6和C-7上的取代功能基团可以增加酶活力,以及增强药物、酶和DNA的结合,从而形成药物-酶-DNA复合物.这些结果为研究以DNA解旋酶为药物靶标的分子机理和理解喹诺酮类药物的作用机理奠定相关理论基础.     

荧光偏振技术研究Bloom解旋酶催化核心与双链DNA的相互作用

Bloom 综合症(BLM)解旋酶是RecQ家族DNA解旋酶中的一个重要成员,参与了DNA复制、修复、转录、重组以及端粒的维持等细胞代谢过程,在维持染色体的稳定性中具有重要的作用．BLM解旋酶的突变可导致Bloom综合症,患者遗传不稳定易患多种类型癌症．本研究运用荧光偏振技术研究BLM解旋酶催化核心(BLM^642～1290)与双链DNA(dsDNA)的相互作用,分析其相关特征参数,了解BLM^642～1290解旋酶与dsDNA的结合和解链特性．结果表明：BLM^642～1290解旋酶与dsDNA的结合和解链与dsDNA 3′端的单链DNA(ssDNA)长度有关;解旋酶优先结合于dsDNA底物的ssDNA末端,且每分子解旋酶可结合9.6 nt的ssDNA;dsDNA 3′端ssDNA的长度为9.6 nt时,解旋酶的解链效率达到最大且不再随其长度而变化．另外,BLM^642～1290解旋酶也能够结合和解链钝末端dsDNA,但其结合亲和力和解链效率低于有3′端ssDNA的dsDNA．推测BLM^642～1290解旋酶在与dsDNA底物结合和解链时是单体形式,可能以尺蠖的形式解开dsDNA．这些结果可为进一步研究BLM解旋酶的功能特征提供理论基础．     

荧光偏振技术研究Bloom解旋酶催化核心与双链DNA的相互作用

Bloom 综合症(BLM)解旋酶是RecQ家族DNA解旋酶中的一个重要成员,参与了DNA复制、修复、转录、重组以及端粒的维持等细胞代谢过程,在维持染色体的稳定性中具有重要的作用．BLM解旋酶的突变可导致Bloom综合症,患者遗传不稳定易患多种类型癌症．本研究运用荧光偏振技术研究BLM解旋酶催化核心(BLM642-1290)与双链DNA(dsDNA)的相互作用,分析其相关特征参数,了解BLM642-1290解旋酶与dsDNA的结合和解链特性．结果表明,BLM642-1290解旋酶与dsDNA的结合和解链和dsDNA3’末端的单链DNA(ssDNA)长度有关;解旋酶优先结合于dsDNA底物的ssDNA末端,且每分子解旋酶可结合9.6 nt的ssDNA;dsDNA3’末端ssDNA的长度为9.6 nt时,解旋酶的解链效率达到最大且不再随其长度而变化．另外,BLM642-1290解旋酶也能够结合和解链钝末端dsDNA,但其结合亲和力和解链效率低于有3’末端ssDNA的dsDNA．推测BLM642-1290解旋酶在与dsDNA底物结合和解链时是单体形式,可能以尺蠖的形式解开dsDNA．这些结果可为进一步研究BLM解旋酶的功能特征提供理论基础．     

甘草次酸衍生物的合成研究

本文以甘草提取物——甘草酸或甘草次酸为原料,采用化学修饰合成了三种甘草次酸的衍生物——甘草次酸甲酯、乙酰甘草次酸甲酯和硬脂酰甘草次酸甲酯,并初步表征了它们的结构及性质。其中由甘草粗皂苷直接制备甘草次酸甲酯的方法及后两种化合物的合成均为首次报道。     

HPLC法测定刺囊毛霉微生物转化甘草次酸的主产物含量

采用刺囊毛霉AS3.3450对甘草次酸进行微生物转化,生成的主产物经分析鉴定是7β-羟基甘草次酸.采用高效液相色谱方法,以C18-ODS为色谱柱,甲醇-0.03%三氟乙酸水溶液(梯度洗脱)为流动相,检测波长为:254 nm,测得在160 r/min、27℃的转化条件下,底物加量为130 mg/L,转化时间为9 d时,主产物得率最高为712 mg/g甘草次酸,且在选定色谱条件下7β-羟基甘草次酸的线性范围良好,平均加样回收率为98.1%,平均标准偏差(RSD)为2.37%.     

甘草酸,甘草次酸的提取分离及应用概况

本文简要介绍了甘草酸和甘草次酸的提取精制技术、含量测定方法及其主要用途。     

酸解法制取甘草次酸及其纯化工艺

以甘草酸单铵盐为原料,酸解制取甘草次酸并利用低温冷析法对其进行精制纯化.通过L9(34)正交试验,确定了酸解甘草次酸的最佳条件:H2SO4体积分数8％、料液比(g/mL)1:100、温度100℃、12 h,在此条件下,转化率可达80.24％:通过对比实验,获得了低温冷析法精制甘草次酸的纯化工艺:酸解产物经水洗、氯仿溶提后,在体积分数30％乙醇溶液中80℃热溶15 min,再在冰水中冷析10 min,最终得到甘草次酸的质量分数为95.79％,得率40.87％.     

甘草次酸保肝功效的通路作用机制

甘草的活性成分包括甘草甜素(glycyrrhizin,GL)和甘草次酸(glycyrrhetinic acid,GA),而GA是甘草中的主要生物活性成分,是GL的主要代谢产物,部分GL通过细菌在肠内代谢为GA。在许多以往的研究中已经证实其具有多种药理学效果,例如抗炎、抗过敏、抗致癌、抗损伤和抗氧化特性以及肝脏保护。最近的研究表明,GA可以降低逆转录因子、二氧化钛纳米粒子和环磷酰胺诱导的肝毒性,并且可以保护免受四氯化碳诱导的肝损伤。已报道的GA的保肝作用机制主要归因于诱导抗氧化剂防御,抑制炎症反应和细胞色素P450表达,本文将对GA在不同信号通路中发挥保肝作用进行综述。     

甘草次酸-顺铂复合物的制备及其对人肝癌Bel-7402细胞的抗癌活性研究

以天然活性成分18β-甘草次酸和抗癌药顺铂为原料,经缩合制备甘草次酸-顺铂(GA-Pt)复合物;利用人肝癌细胞株Bel-7402做体外模型,用MTT法观察GA-Pt对癌细胞增殖的抑制活性。发现目标化合物对肝癌Bel-7402细胞的增殖显明显的抑制活性,浓度在5~400μg/mL范围内,对肿瘤细胞增殖的抑制率可达29.31%~92.25%。此结果显示,肝癌Bel-7402细胞对甘草次酸顺铂类复合物具有较好的敏感性;甘草次酸与顺铂的偶合可提高顺铂的抗癌活性,这可能是产生抗癌协同及化疗增敏作用的结果。此结果对新型肝靶向抗癌候选药物的筛选奠定了一定的基础。     

Effect of lysine modification on the secondary structure of ovalbumin

In order to determine the effect of chemical modification of the -amino groups on the secondary structure of ovalbumin, we prepared six acetylated (17, 36, 54, 70, 82, and 98%) and four succinylated derivatives (25, 50, 72, and 97%) of the protein. Native ovalbumin and the acylated derivatives were homogeneous as revealed by the electrophoretic pattern. The UV-absorption and fluorescence spectra changed progressively with the extent of modification. However, circular dichroic (CD) studies indicated that acylation of 15 of the 20 lysine residues had little effect on the secondary structure of ovalbumin. Acylation of the remaining five lysine residues resulted in a fairly severe change in the secondary structure. The -helical content decreased from about 31% in the native state to 16.5% in the 97% succinylated ovalbumin and to 21.5% in the 98% acetylated derivative. A comparison of these data with the spectral and hydrodynamic data of Qasim and Salahuddin (1978) suggested that the secondary structure of ovalbumin is more resistant to acylation than is the tertiary structure and, thus, the tertiary and the secondary structures are, to some extent, mutually independent. Raising thepH to 11.2 did not alter the secondary structure of ovalbumin and increasing the ionic strength by more than 20-fold did not reverse the loss of helical structure in 97% succinylated protein. These two observations suggest that the change in secondary structure upon maximal acylation may not only involve electrostatic effects, but also certain other factors, such as steric hindrance due to the entering bulky groups.     

Recombinant extracellular domain of the three major subunits of GABAA receptor show comparable secondary structure and benzodiazepine binding properties

The three most widely expressed subunits of the GABAA receptor are alpha(1), beta(2), and gamma(2) subunits, and the major isoform in the human brain is a pentameric receptor composed of 2alpha(1)2beta(2)1gamma(2). Previously, we overexpressed the extracellular domain Q28-R248 of GABAA receptor alpha(1) subunit. In the present study, the homologous extracellular domains Q25-G243 of GABAA receptor beta(2) subunit and Q40-G273 of gamma(2) subunit were also obtained through overexpression in Escherichia coli. Successful production of recombinant beta(2) and gamma(2) subunit receptor protein domains facilitates the comparison of structural and functional properties of the three subunits. To this end, the secondary structures of the three fragments were measured using CD spectroscopy and the beta-strand contents calculated to be >30%, indicating a beta-rich structure for all three fragments. In addition, the benzodiazepine (BZ)-binding affinity of the recombinant fragments were measured using fluorescence polarization to be 2.16 microM, 3.63 microM, and 1.34 microM for the alpha(1), beta(2), and gamma(2) subunit fragments, respectively, indicating that all three homomeric assemblies, including that of the beta(2) subunit, generally not associated with BZ binding, can bind BZ in the micromolar range. The finding that the BZ binding affinity of these recombinant domains was highest for the gamma(2) subunit and lowest for the beta(2) subunit is consistent with results from previous binding studies using hetero-oligomeric receptors. The present results exemplify the effective approach to characterize and compare the three major subunits of the GABAA receptor, for two of which the overexpression in E. coli is reported for the first time.     

圆二色光谱在蛋白质结构研究中的应用

近几年来,圆二色光谱在蛋白质结构研究中的应用越来越广泛。通过对远紫外圆二色光谱的测量,可以推导出稀溶液中蛋白质的二级结构,进而分析和辨别蛋白质的三级结构类型;通过对近紫外圆二色光谱的测量和分析,可以推断蛋白质分子中芳香氨基酸残基和二硫键的微环境变化,研究介质与蛋白质结构间的关系;通过测定实验参数和环境条件变化时的圆二色光谱,可以研究蛋白质构像变化过程中的热力学和动力学特性。     

Structure of heavy and light chain subunits of type A botulinum neurotoxin analyzed by circular dichroism and fluorescence measurements

Summary The secondary and tertiary structural features of botulinum neurotoxin (NT) serotype A, a dichain protein (M_r 145 000), and its two subunits, the heavy (H) and light (L) chains (M_r 97 000 and 53 000, respectively) were examined using circular dichroism and fluorescence spectorscopy. Nearly 70% of the amino acid residues in each of the three polypeptide preparations were found in ordered structure (sum of helix, sheet and turns). Also, the helix, sheet, turns and random coil contents of the dichain NT were nearly equal to the weighted mean of each of these secondary structure parameters of the L and H chains; e.g., sum of helix of L chain (22%) and H chain (18.7%), as weighted mean, 19.8% was similar to that of NT (20%). These agreements suggested that the secondary structures of the subunits of the dichain NT do not significantly change when they are separated as isolated L and H chains. Fluorescence emission maximum of L chain, 4 nm less (blue shift) than that of H chain, suggested relatively more hydrophobic environment of fluorescent tryptophan residue(s) of L chain. Tryptophan fluorescence quantum yields of L chain, H chain and the NT, 0.072, 0.174 and 0.197, respectively, suggested that a) an alteration in the micro-environment of the tryptophan residues was possibly caused by interactions of L and H chain subunits of the NT and b) quantum yields for L and H chains were altered when they are together as subunits of the NT. Possible implications of structural features of the L and H chains, their interactions and the molecular mechanism of action of botulinum NT are assessed.     

Effects of ethylene glycol on the torsion elastic constant and hydrodynamic radius of p30delta DNA

Upon increasing the concentration of ethylene glycol (EG) at 37 degrees C, the twist energy parameter, E(T), which governs the supercoiling free energy, was recently found to undergo a decreasing (or reverse) sigmoidal transition with a midpoint near 20 w/v % EG. In this study, the effects of adding 20 w/v % EG on the torsion elastic constant (alpha) of linear p30delta DNA and on the hydrodynamic radius (R(H)) of a synthetic 24 bp duplex DNA were examined at both 40 and 20 degrees C. The time-resolved fluorescence intensity and fluorescence polarization anisotropy (FPA) of intercalated ethidium were measured in order to assess the effects of 20 w/v % EG on: (1) alpha; (2) R(H); (3) the lifetimes of intercalated and non-intercalated dye; (4) the amplitude of dye wobble in its binding site; and (5) the binding constant for intercalation. The effects of 20 w/v % EG on the circular dichroism (CD) spectrum of the DNA and on the emission spectrum of the free dye were also measured. At 40 degrees C, addition of 20 w/v % EG caused a substantial (1.27- to 1.35-fold) increase in alpha, a significant change in the CD spectrum, and a very small, marginally significant increase in R(H), but little or no change in the amplitude of dye wobble in its binding site or the lifetime of intercalated dye. Together with previously reported measurements of E(T), these results imply that the bending elastic constant of DNA is significantly decreased by 20 w/v % EG at 40 degrees C. At 20 degrees C, addition of 20 w/v % EG caused a marginally significant decrease in alpha and very little change in any other measured properties. Also at 20 degrees C, addition of 30 w/v % betaine caused a marginally significant increase in alpha and significant but modest change in the CD spectrum, but very little change in any other properties.     

Solution phase conformation studies of the prekallikrein binding domain of high molecular weight kininogen

High molecular weight kininogen is a cofactor of the surface-dependent phase of the blood-clotting cascade. Unique sequence-binding sites are exposed on the surface of this glycoprotein which complex prekallikrein or factor XI with high affinity and specificity (Tait and Fujikawa, 1987). A sequence comprising 31-residues (residues 565–595 of the mature kininogen molecule) retains full binding activity for prekallikrein but the sequence 569–595 (27 residues) shows only 25% of this binding affinity (Vogelet al., 1990). Thus, the key structural features required for protein recognition reside in the 31-residue sequence but these features are likely compromised (or absent) in the 27-residue sequence. To determine the conformation of the prekallikrein-binding domain, peptides comprising the 31- and 27-residue sequences were prepared by solid-phase methods and their structures determined by circular dichroism, fluorescence polarization, and 2D-NMR techniques. Fluorescence emission spectra, polarization, and anisotropy measurements of the single Trp residue present in both peptides show that the 31-residue peptide contains an ordered microenvironment at its amino terminus, which is not present in the 27-residue peptide. This structural ordering is characterized by movement of the Trp residue into a more polar environment. Further, the 31-residue peptide possesses a higher limit anisotropy, longer rotational relaxation time, and shows a higher polarization value even at elevated temperatures. Circular dichroic spectra of both peptides in the far UV region are essentially identical and indicate that both peptides contain predominantly -turn elements, but also contain some -helix, -sheet, and random coil character. The structural elements of both peptides are unchanged in urea solution, but the negative ellipticity absorption band in the near UV region assignable to Trp is eliminated in acid solution upon protonation of the neighboring -Asp-Asp-Asp- triplet. In the two peptides, the spin system of each amino acid has been assigned through 2D-¹H scalar coupling correlated experiments; pure absorption NOESY experiments were used to determine through-space connectivities. The results are entirely consistent with the previous experiments in that both peptides contain predominantly -turn elements and the amino terminus of the 31-residue peptide is highly ordered in comparison with the 27-mer; in fact, this region is likely to be helical in nature. In addition to the turn and sheet elements, the 31-mer shows long-range connectivities which are not present in the 27-mer. Hence, the 31-mer likely folds in solution forming a unique domain. By inference, the N-terminal segment of the 31-residue peptide contributes in large part to its fourfold increase in affinity for prekallikrein.     

菠菜光系统Ⅱ天线组分CP29的分离及其性质

菠菜放氧的光系统Ⅱ（ＰＳⅡ）核心复合物经０．８ｍｏｌ／Ｌ Ｔｒｉｓ（ｐＨ８．０）洗涤后,用温和的非离子去垢剂ＤＭ和高浓度的ＬｉＣｌＯ４增溶,再经ＤＥＡＥ－Ｔｏｙｏｐｅａｒｌ－６５０Ｓ离子交换柱层析分离,可得到ＰＳⅡ天线组分中的叶绿素α／ｂ结合蛋白（ＣＰ２９）。ＳＤＳ－ＰＡＧＥ显示一条３０ｋＤ蛋白质带。根据Ａｒｎｏｎ法和Ｍａｒｋｗｅｌｌ法的结果表明,每个蛋白质分子结合有７～８个分子的叶绿素α和２～３     

Effects of acid exposure on the conformation, stability, and aggregation of monoclonal antibodies

Exposure of antibodies to low pH is often unavoidable for purification and viral clearance. The conformation and stability of two humanized monoclonal antibodies (hIgG4-A and -B) directed against different antigens and a mouse monoclonal antibody (mIgG1) in 0.1M citrate at acidic pH were studied using circular dichroism (CD), differential scanning calorimetry (DSC), and sedimentation velocity. Near- and far-UV CD spectra showed that exposure of these antibodies to pH 2.7-3.9 induced only limited conformational changes, although the changes were greater at the lower pH. However, the acid conformation is far from unfolded or so-called molten globule structure. Incubation of hIgG4-A at pH 2.7 and 3.5 at 4 degrees C over the course of 24 h caused little change in the near-UV CD spectra, indicating that the acid conformation is stable. Sedimentation velocity showed that the hIgG4-A is largely monomeric at pH 2.7 and 3.5 as well as at pH 6.0. No time-dependent changes in sedimentation profile occurred upon incubation at these low pHs, consistent with the conformational stability observed by CD. The sedimentation coefficient of the monomer at pH 2.7 or 3.5 again suggested that no gross conformational changes occur at these pHs. DSC analysis of the antibodies showed thermal unfolding at pH 2.7-3.9 as well as at pH 6.0, but with decreased melting temperatures at the lower pH. These results are consistent with the view that the antibodies undergo limited conformational change, and that incubation at 4 degrees C at low pH results in no time-dependent conformational changes. Titration of hIgG4-A from pH 3.5 to 6.0 resulted in recovery of native monomeric proteins whose CD and DSC profiles resembled those of the original sample. However, titration from pH 2.7 resulted in lower recovery of monomeric antibody, indicating that the greater conformational changes observed at this pH cannot be fully reversed to the native structure by a simple pH titration.