橡子淀粉的分子结构是怎样测定的

橡子淀粉的尾端至非尾端的葡萄糖残基的比例(3％)已用四种不同方法测定得出一致的结果。橡子淀粉含有80％的支淀粉,支链每个尾端有24个葡萄糖基组成。橡子淀粉的甲基和乙基衍生物的特点是在间——甲酚中具有高粘度,以及它们高分子量的特性。用比色法测定甲基化支淀粉中存在的甲基化的链淀粉。用高碘酸盐氧化支淀粉侧链方式提供证据表明在C_6连结的主链糖苷键至少占75％。     

基于高通量测序技术检测全基因组DNA甲基化水平的方法

DNA甲基化的研究最近几年一直是表观遗传学研究的重点。有关DNA甲基化水平检测的方法大体上有十几种,随着第二代测序技术的发展,实现了在全基因组水平上对甲基化状态进行检测。目前,基于第二代高通量测序进行全基因组DNA甲基化水平检测的方法主要有BSP-seq(亚硫酸氢盐修饰结合直接测序法)、Me DIP-seq(甲基化DNA免疫共沉淀测序法)、MBD-seq(甲基化DNA富集结合高通量测序法)。就这3种方法在原理、流程、优缺点、优化使用及后期需要用到的部分生物信息学资源等方面的研究进展作一综述,旨在为研究者在采用高通量测序方法研究DNA甲基化模式时提供一些思路。     

巢式甲基化特异性PCR检测不同类型组织标本中WIF-1基因启动子异常甲基化

目的:采用一种高灵敏度的DNA甲基化分析方法,即巢式甲基化特异性PCR法(nested-MSP,nMSP),检测外科手术切除新鲜组织、石蜡包埋组织及纤维支气管镜活检组织中WIF-1基因启动子的异常甲基化状态。方法:将基因组DNA变性成为单链,用亚硫酸氢盐修饰单链DNA,所有未甲基化的胞嘧啶被转变为尿嘧啶,而甲基化的胞嘧啶则不变。设计针对甲基化和非甲基化等位基因的特异引物,进行巢式PCR扩增,最后经凝胶电泳检测目的片段。结果:在3种类型的原发性非小细胞肺癌标本中都检测出了WIF-1基因启动子的异常甲基化。结论:巢式甲基化特异性PCR是一种灵敏度高、特异性强的甲基化检测方法,可广泛应用于不同类型标本基因启动子甲基化的分析。     

植物DNA甲基化作用机制的研究进展

DNA甲基化是表观遗传学的一种重要修饰形式,也是一种重要的基因表达调控机制。DNA甲基化的异常模式可导致植物生长发育异常。文中从植物DNA甲基化模式入手,对DNA甲基化在调控基因表达和维持基因组稳定性的分子功能、DNA甲基化在植物发育、参与植物对生物和非生物胁迫的反应等方面的相关研究进行回顾和总结,为深入了解DNA甲基化的作用机制并将DNA甲基化应用于植物新品种的培育和遗传改良研究提供一定的参考。     

DNA甲基化与动脉粥样硬化

DNA甲基化是一种重要的表观遗传调控方式,可在转录前水平调节基因的表达.近年来的研究表明,动脉粥样硬化的发生发展与DNA甲基化密切相关. 对DNA甲基化模式改变在动脉粥样硬化发病的相关机制做深入研究,可能为动脉粥样硬化的诊治提供一种新的途径.本文将从基因组低甲基化、相关基因异常甲基化以及动脉粥样硬化危险因素的DNA甲基化等方面重点阐述DNA甲基化与动脉粥样硬化的关系.     

高通量DNA甲基化数据的处理和分析方法

DNA甲基化作为一种表观遗传学修饰,在调控基因表达、X染色体失活、印记基因等方面都发挥着重要的作用.不同的DNA甲基化的预处理方法结合二代测序产生了大量的高通量甲基化数据,这些数据的存储、处理和分析是当前亟需解决的问题.在本文中,总结了目前存在的三种高通量DNA甲基化检测技术（限制性内切酶法,亲和纯化法,重亚硫酸盐转换法）,以及针对这些技术产生的高通量数据开发的存储、处理和分析工具.另外,还注重介绍了单碱基水平的DNA甲基化检测技术,BS-Seq的测序原理、数据处理流程以及后续的分析工具.     

SPARC基因DNA甲基化与胰腺癌的研究进展

SPARC(Secreted Protein Acidic and Rich in Cysteine)蛋白是一种富含半胱氨酸(Cys)的酸性分泌蛋白,参与细胞增殖、迁移、凋亡及肿瘤血管生成等生物学过程。前期研究表明,DNA甲基化在胰腺癌中广泛地存在,其可能是胰腺癌等消化道恶性肿瘤中富含半胱氨酸的酸性分泌蛋白(SPARC)表达下调的机制之一。DNA甲基化通常导致某些抑瘤基因的高甲基化失活,SPARC基因是一种抑瘤基因,甲基化能够使其功能性的失活。而通过抑制DNA甲基化可以恢复SPARC的表达,DNA甲基化有望成为胰腺癌早期诊断的潜在生物学标记物以及治疗的靶点。因此,本文主要就SPARC的DNA甲基化在胰腺癌发生发展中的最新研究进展作一综述。     

DNA 去甲基化机制的研究进展*

DNA甲基化作为动植物体内一种重要的表观遗传修饰形式,在调控基因表达、维持基因组的稳定性等方面发挥重要的生物学作用。固有DNA甲基化水平和模式的变化会导致生物的表型异常甚至死亡。而5-甲基胞嘧啶的水平和模式是由DNA甲基化和去甲基化共同决定的。DNA去甲基化可以分为主动去甲基化与被动去甲基化,而基因组甲基化模式的形成主要依赖于主动去甲基化。本文综述了生物体内DNA主动去甲基化五种潜在机制:DNA转葡糖基酶参与的碱基切除修复途径、脱氨酶参与的碱基切除修复途径、核苷酸切除修复途径、氧化作用去甲基化与水解作用去甲基化。     

半胱氨酸双加氧酶1基因启动子甲基化在肿瘤研究中的应用

半胱氨酸双加氧酶1 (cysteine dioxygenase 1,CDO1)是一种肿瘤抑制基因（tumor suppressor gene,TSG）,参与细胞增殖、分化、凋亡及铁死亡等一系列生理过程。DNA甲基化是人类肿瘤中表观遗传学修饰的主要方式之一,CDO1是一种与恶性肿瘤高度相关的甲基化基因（highly relevant methylation gene,HRMG）,在多种人类癌症中被其甲基化启动子所沉默,甲基化的CDO1基因启动子是人类肿瘤中最常见的早期特异性诊断标志物之一。本文就CDO1生物学功能及其启动子DNA的甲基化在肿瘤中的作用及调控作一综述。     

植物DNA甲基化及其研究策略

DNA甲基化是表观遗传学研究的热点问题之一, 植物DNA甲基化的研究对植物研究领域的发展有着举足轻重的作用。本文阐述了植物DNA甲基化的相关机制, 其中包括RdDM(RNA-dependent DNA methylation)、DNA 甲基化与组蛋白修饰 以及DNA 去甲基化等近几年研究的热点问题; 讨论了DNA甲基化在植物发育中的功能(包括基因组防御和调控基因表达)、DNA甲基化与转基因沉默的关系以及其在表观遗传学中的地位。最后就目前国内外研究植物DNA甲基化所采取的常用策略,即高效液相色谱法、亚硫酸盐测序法、甲基化敏感的限制性内切酶结合Southern杂交分析法和MSAP(methylation-sensitive amplified Polymorphism)法进行了详尽的介绍和讨论。     

Microwave-assisted methylation of cassava starch with dimethyl carbonate

A novel and environmentally friendly process for the methylation of cassava starch with dimethyl carbonate (DMC) could be accelerated by employing a combined strategy: using disodium hydrogen phosphate (Na₂HPO₄) as the catalyst (chemical means) and microwave irradiation as the energy source (physical means). By varying the volume of 5% sodium chloride aqueous solution between 50 and 150 mL, the amount of Na₂HPO₄ between 0 and 1.25 g, the volume of DMC between 75 and 200 mL, and the microwave time from 5 to 20 min, methyl cassava starch with degree of substitution (DS) values in the range of 0.033 and 1.087 was prepared. The chemical structure of methyl cassava starch was analyzed by ¹H NMR spectroscopy.     

Lipase-catalyzed synthesis of glycerol carbonate from renewable glycerol and dimethyl carbonate through transesterification

Glycerol carbonate is a key multifunctional compound employed as solvent, additive, monomer, and chemical intermediate. Enzymatic synthesis of glycerol carbonate from renewable starting materials (glycerol and dimethyl carbonate) was successfully achieved by immobilized lipase from Candida antarctica (CALB, Novozym 435). Addition of molecular sieves as scavenger for the removal of methanol, which was generated from dimethyl carbonate during the reaction, accelerated a reaction rate. After the optimization, the equimolar use of glycerol and dimethyl carbonate in the Novozym 435-catalyzed reaction yielded a glycerol carbonate with almost quantitative yield. The resulting glycerol carbonate from 60 °C reaction has shown the low enantiomeric excess (13% ee) as configuration of (R)-enantiomer.     

Lipase-catalyzed synthesis of glycerol carbonate from renewable glycerol and dimethyl carbonate through transesterification

Glycerol carbonate is a key multifunctional compound employed as solvent, additive, monomer, and chemical intermediate. Enzymatic synthesis of glycerol carbonate from renewable starting materials (glycerol and dimethyl carbonate) was successfully achieved by immobilized lipase from Candida antarctica (CALB, Novozym 435). Addition of molecular sieves as scavenger for the removal of methanol, which was generated from dimethyl carbonate during the reaction, accelerated a reaction rate. After the optimization, the equimolar use of glycerol and dimethyl carbonate in the Novozym 435-catalyzed reaction yielded a glycerol carbonate with almost quantitative yield. The resulting glycerol carbonate from 60 °C reaction has shown the low enantiomeric excess (13% ee) as configuration of (R)-enantiomer.     

Dimethyl carbonate as potential reactant in non-catalytic biodiesel production by supercritical method

In this study, the non-catalytic supercritical method has been studied in utilizing dimethyl carbonate. It was demonstrated that, the supercritical dimethyl carbonate process without any catalysts applied, converted triglycerides to fatty acid methyl esters with glycerol carbonate and citramalic acid as by-products, while free fatty acids were converted to fatty acid methyl esters with glyoxal. After 12 min of reaction at 350 degrees C/20 MPa, rapeseed oil treated with supercritical dimethyl carbonate reached 94% (w/w) yield of fatty acid methyl ester. The by-products from this process which are glycerol carbonate and citramalic acid are much higher in value than glycerol produced by the conventional process. In addition, the yield of the fatty acid methyl esters as biodiesel was almost at par with supercritical methanol method. Therefore, supercritical dimethyl carbonate process can be a good candidate as an alternative biodiesel production process.     

Extraction of starch by dimethyl sulfoxide and quantitation by enzymatic assay

A method for the rapid, sensitive, and specific determination of starch in plant tissues is described. Starch from a variety of plant tissues is solubilized by stirring for 24 h or by sonication for 40 min in dimethyl sulfoxide. Dilution of this extract to less than 20% dimethyl sulfoxide permits a nearly complete hydrolysis of the starch in less than 3 h with glucoamylase from Rhizopus niveus. Quantitation of liberated glucose by a coupled hexokinase and glucose-6-phosphate dehydrogenase method provides an additional degree of specificity.     

难溶于二甲亚砜多糖的甲基化方法研究

本文对难溶于二甲亚砜(DMSO)但易溶于水的多糖——羊栖菜褐藻糖胶的甲基化方法进行了研究。10mg多糖用0．1mL水溶解后,加和3mL DMSO,使多糖转溶于DMSO,然后加人2mL 3A分子筛脱除水分。将DNSO溶液过滤后,滤液中加入50mg NaOH粉末,室温下反应10min。加入0．5mL碘甲烷,室温下反应60min。加1mL水终止反应,加1mol／L HAc中和、透析、冻干。该法简便易行,所得产物的甲基化程度比较高。     

Biosynthesis of glycerol carbonate from glycerol by lipase in dimethyl carbonate as the solvent

Glycerol carbonate was synthesized from renewable glycerol and dimethyl carbonate using lipase in solvent-free reaction system in which excess dimethyl carbonate played as the reaction medium. A variety of lipases have been tested for their abilities to catalyze transesterification reaction, and Candida antartica lipase B and Novozyme 435 exhibited higher catalytic activities. The silica-coated glycerol with a 1:1 ratio was supplied to prevent two-phase formation between hydrophobic dimethyl carbonate and hydrophilic glycerol. Glycerol carbonate was successfully synthesized with more than 90% conversion from dimethyl carbonate and glycerol with a molar ratio of 10 using Novozyme 435-catalyzed transesterification at 70 °C. The Novozyme 435 [5% (w/w) and 20% (w/w)] and silica gel were more than four times recycled with good stability in a repeated batch operation for the solvent-free synthesis of glycerol carbonate.     

Bupivacaine hydrochloride induces muscle fiber necrosis and hydroxyl radical formation-dimethyl sulphoxide reduces hydroxyl radical formation

We induced acute skeletal muscle necrosis in rats using bupivacaine hydrochloride and found that both 2,5- and 2,3-dihydroxybenzoic acid significantly increased in skeletal muscle. A single administration of dimethyl sulphoxide, a free radical scavenger, significantly lowered concentrations of 2,5- and 2,3-dihydroxybenzoic acid. These results suggest that dimethyl sulphoxide is an effective hydroxyl radical scavenger and may be useful in the treatment of myopathy.     

Specific protection of nucleotides in the lac operator from DMS methylation and DNase I nicking by crude bacterial cell extracts

Crude bacterial cell extracts prepared from an Escherichia coli lacIq strain were shown to protect specific nucleotides in the lac operator from methylation by dimethyl sulfate (DMS) or digestion by DNase I, whereas no protection was observed using extracts prepared from a nearly isogenic lacI- strain. These experiments show that it is not necessary to use purified regulatory proteins in experiments designed to localize sequences on DNA which interact with proteins. Therefore, crude cell extracts should be useful in DNA "footprinting" experiments to define regions of DNA which bind to unknown regulatory proteins.     

Electronic and spatial structure of dimethyl orthophosphate and orthophosphate

The applicability of different variants of the semiempirical CNDO method to calculate the electronic structure of different conformations of all possible ionic forms of dimethyl orthophosphate and orthophosphate is considered. The CNDO/BW (Boyd-Whitehead parameterization) approximation with selected parameters for the P-O bond is shown to provide the best qualitative and sometimes quantitative agreement with ab initio methods. The dependences of energy and P-O bond strengths in P-O-CH₃ (P-O-H) groups on torsion angles at P-O bonds are obtained in this approximation for dimethyl orthophosphate and orthophosphate. The rotation of these groups is found to stremgthen one P-O bond stronger and labilize another. The energy minima of dimethyl orthophosphate and orthophosphate anions are shown to correspond to conformations where the strengths of the studied P-O bonds are almost the same, i.e., none of the bonds is weakened to a minimum. Protonation of these compounds increases the strength of P-O bonds and decreases the dependence of bond strength on torsion angles. The di-and trianions of dimethyl orthophosphate and orthophosphate are also studied. The growth of negative charge is shown to progressively weaken the P-O bond. The dependence of bond strength on torsion angle for the dianion is less pronounced than that for the monoanion. Calculation results are compared with experimental data known from literature. The significance of the data obtained for revealing essential features of the enzyme cleaving and forming the P-O bond is discussed.