油松茎次生木质部中树脂道的发育过程和组织化学研究

利用组织化学方法对油松茎次生木质部树脂道发育过程中上皮细胞内树脂滴和淀粉粒的动态变化进行了研究。发现在树脂道原始细胞阶段,每个原始细胞含淀粉粒较少,含树脂滴稀少。在树脂道形成阶段,淀粉粒数目较多,体积增大,树脂滴也呈递增趋势。在树脂道成熟阶段,淀粉粒数目变化不大,而体积明显变小,树脂滴的体积增大,数目减少。     

针叶树树脂的抗害功能及抗害机制

害虫及其共生真菌是针叶树生长、繁衍的一个灾害性的问题,在漫长的进化过程中,很多针叶树种发展了高度发达的固有和诱导树脂防御系统来抵御侵害。树脂的抗害过程,也即树脂的分泌过程,树脂是由单萜、蓓半萜和二萜组成的复杂混合物。文章介绍树脂的组成及其抗害功能,分析外界环境条件对树脂防御功能的影响,阐述诱导树脂生物合成的途径、路线及其一般规律和树脂萜的基因鉴定,讨论开发、利用树脂优良特性保护针叶树的前景。     

油松茎次生结构中树脂道的结构分布和发育的研究

油松茎的次生结构中树脂道存在于次生维管组织中。其中,次生木质部内具有水平的和垂直的两类树脂道,而次生韧皮部内则仅有水平的树脂道。两类树脂道都由上皮细胞和鞘细胞包围着胞间道构成,其中木质部内的树脂道具有死鞘细胞,而韧皮部中的则都系生活细胞。在心材中,垂直树脂道形成拟侵填体。在次生木质部内,垂直树脂道常分布于早材的外部区域和最初形成的晚材中,它们与水平树脂道连接,腔道贯通,从而形成二维网状结构。垂直树脂道来源于纺锤状原始细胞的衍生细胞,而水平树脂道来源于射线原始细胞,两者都以裂生方式发生。     

两种树脂基托细菌粘附情况的比较

目的比较BPS注塑树脂和热凝基托树脂表面细菌粘附能力的大小。方法将BPS注塑树脂和热凝基托树脂试件进行细菌体外粘附实验,采用菌落形成单位计数法测定血型链球菌、粘性放线菌和白色念珠菌粘附量的大小。结果培养24h、48h、168h后,各BPS注塑树脂试件组的细菌粘附量均少于热凝基托树脂试件组。结论BPS注塑树脂较热凝基托树脂更能减少血型链球菌、粘性放线菌和白色念珠菌在其表面的粘附。     

磁性大孔树脂对苹果渣多酚的吸附-解吸效能

以苹果渣多酚类化合物为吸附模型,制备一种可有效吸附分离苹果渣多酚的磁性树脂,研究其吸附、解吸效能,并就吸附和解吸效能、使用次数与普通大孔树脂进行比较。结果显示,5种普通树脂中D280、H103、AB-8对苹果渣多酚的吸附率均高于80%,AB-8、D3520树脂对苹果渣多酚的解吸率均高于90%,AB-8树脂的吸附率和解吸率最好;磁性大孔树脂吸附0.5 h后即可达到吸附平衡,吸附平衡后剩余液多酚质量浓度低于AB-8树脂吸附平衡后剩余液多酚质量浓度,吸附效能明显优于AB-8树脂;磁性大孔树脂解吸效能也略优于AB-8树脂;使用4 次后,磁性大孔树脂的吸附率仍然高于70%,稳定性优于AB-8树脂。可见,磁性大孔树脂是一种良好的苹果渣多酚吸附剂,有较好的工业化应用前景。     

树脂在生化物质分离纯化上的应用——Ⅰ.抗菌素

<正> 分离纯化上用的树脂包括吸附树脂及离子交换树脂。吸附树脂是以吸附为特征的一类树脂。一般是按照制备大孔型离子交换树脂骨架的方法制得,未经功能基反应,不带离子交换功能基的多孔树脂骨架。也叫多孔小白球。有些是由带极性基团单体制成的,也就是离子交换树脂。两者很难严格分开。吸附树脂是一类具有多孔性海绵状立体结构的小球粒,也就是树脂吸附剂。按链节分子结构可分为非极性、中极性、极性、强极性四类。     

微波加热时基托树脂收缩量的研究

目的,针对基托树脂固化的特性,探讨微波加热对树脂收缩量的影响。方法:采用四种常用基托树脂,分别采取单纯微波固化和微波加压固化聚合后,测定开盒后一周内树脂的聚合收缩情况。结果:两种固化方法收缩量均较小,适应性强。微波加压固化虽收缩量相对稍大但收缩均匀各树脂间无显著差异。结论:微波加热固化清洁高效,基托树脂结构致密,收缩量小,是今后树脂固化的一个发展方向。     

选择性ADS-21吸附树脂对大豆异黄酮吸附性能的研究

本文筛选了6种不同性能的吸附树脂,对比了这些树脂对大豆异黄酮的吸附规律。结果表明,以大豆胚为原料,用乙醇提取,经选择性吸附树脂——ADS-21树脂吸附,再用70%的乙醇洗脱,可以得到含量达45%以上的大豆异黄酮提取物,表明ADS-21树脂对大豆异黄酮有良好的吸附选择性。     

两种树脂对固相法合成丙型肝炎疫苗多肽的影响

本实验采用固相法合成丙型肝炎疫苗多肽,比较Wang树脂和二氯三苯甲基树脂（以下简称二氯树脂）作为载体时的连接率以及目标肽的产率和纯度。通过质谱鉴定分析所得目标多肽的分子量,用茚三酮法对两种树脂与氨基酸的连接率进行比较,用反相高效液相色谱（RP-HPLC）进行粗肽的分析和纯化。结果显示以二氯树脂作载体,第一个氨基酸的连接率,以及目标肽的纯度和产率都要明显高于Wang树脂,因此二氯树脂作载体合成丙型肝炎疫苗多肽更适合大规模工业化生产的要求。     

大孔吸附树脂分离纯化培养基残基中虫草素

采用大孔吸附树脂分离纯化人工蛹虫草培养基残基中的虫草素,以HPLC法测定样品中虫草素含量,筛选出了适宜的大孔树脂NKA-II。研究了pH、洗脱剂乙醇体积分数等因素对该树脂吸附性能及解析性能的影响。结果表明,NKA-II型树脂纯化虫草素的最佳吸附条件为pH9,吸附流速2BV/h,该树脂对虫草素的吸附量可达到16.5mg/g。洗脱工艺条件为2.5倍树脂柱体积的50%乙醇,NKA-II大孔树脂对虫草素的解析率可达到95%以上。     

紫胶树脂改性研究进展

本文概述了紫胶树脂的特点和应用范围,并且分析和阐述了其化学改性和物理改性的方法和原理,在化学方面,利用各种化学试剂对紫胶树脂上的羧基、羟基、醛基等活性基团进行改性;在物理方面,对紫胶树脂的成膜性质和相态进行改进。展望了紫胶树脂作为未来绿色材料的发展前景和方向。     

A molecular dynamics investigation on the compression of cross-linked epoxy resins

Molecular dynamics method is employed to simulate the compression deformation of the polymer materials for electronic packaging. The effects of moisture content, conversion degree, strain rate and temperature on the mechanical properties of epoxy resin are investigated. The stress–strain curves, Young's modulus and Poisson ratio are compared with existing experimental data. The results show that mechanical properties of epoxy resin decrease obviously with increasing moisture content and temperature. However, the high cross-linking conversion and strain rate enhance the mechanical properties of resin.     

Characterization of nano-clay reinforced phytagel-modified soy protein concentrate resin

Phytagel and nano-clay particles were used to improve the mechanical and thermal properties and moisture resistance of soy protein concentrate (SPC) resin successfully. SPC and Phytagel were mixed together to form a cross-linked structure. The Phytagel-modified SPC resin (PH-SPC) showed improved tensile strength, modulus, moisture resistance, and thermal stability as compared to the unmodified SPC resin. The incorporation of 40% Phytagel and 20% glycerol led to an overall 340% increase in the tensile strength (over 50 MPa) and approximately 360% increase in the Young's modulus (over 710 MPa) of the SPC resin. Nano-clay was uniformly dispersed into PH-SPC resin to further improve the properties. The PH-SPC (40% Phytagel) resin modified with 7% clay nanoparticles (CPH-SPC) had a modulus of 2.1 GPa and a strength of 72.5 MPa. The dynamic mechanical properties such as storage modulus together with the glass transition temperature of the modified resins were also increased by the addition of clay nanoparticles. The moisture resistance of the CPH-SPC resin was higher as compared to both SPC and PH-SPC resins. The thermal stability of the CPH-SPC resin was seen to be higher as compared to the unmodified SPC.     

Properties of flaky affinity resin with co-continuous structure

A new type of flaky affinity resin for capture of the target proteins was prepared to discuss its properties compared with those of a particulate affinity resin. The resin prepared had totally co-continuous structure (monolith) and was utilized in the shape of flake. The concentration of surface amino groups for immobilization of ligand was determined to be 22.3 micromol/ml. Immobilizations of ligand such as Sulfonamide, Ketoprofen, Captopril, or Methotrexate (MTX) on the affinity resin were quantitatively proceeded to afford fully covered (100%) affinity resins. Control of the immobilization rate of affinity resin using Sulfonamide or Ketoprofen was successfully achieved with the calculated immobilization rate. The flaked shape of affinity resin (100-400 microm) presumably simplified affinity experimental procedures and the affinity resin immobilizing Sulfonamide effectively captured one of the target proteins, CAII, without non-specifically bound proteins. The observed properties of the flaky affinity resin as well as ease in handling are really useful for capture of the target proteins of possible rare ligands.     

Integrated antiherbivore, antidesiccant and ultraviolet screening properties of creosotebush resin

The surface leaf resin of creosotebush, Larrea spp. (Zygophyllaceae) exhibits antiherbivore, antidesiccant and UV screening properties. Composed mainly of monomeric phenolic aglycones, the resin absorbs most radiation of wavelength shorter than 410 nm, reduces the rate of evaporative water loss across cellulose membrane and exhibits tannin-like protein-complexing and digestibility-reducing properties. Leaf-chewing insects prefer mature leaves which have a lower resin content than young leaves. A phenoloxidaes system present in the leaves probably enhances the digestibility-reducing action of resin on in vitro proteolysis and growth-rates of Astroma quadrilobatum (Orthoptera: Proscopiidae) are negatively correlated with resin-phenoloxidase activity as measured by macerated leaf oxygen demand. Non-ideal behaviour of the resin is suggestive of cooperative action between components.     

Effect of a Pharmaceutical Cationic Exchange Resin on the Properties of Controlled Release Diphenhydramine Hydrochloride Matrices Using Methocel K4M or Ethocel 7cP as Matrix Formers

This work was aimed at evaluating the effect of a pharmaceutical cationic exchange resin (Amberlite IRP-69) on the properties of controlled release matrices using Methocel K4M (HPMC) or Ethocel 7cP (EC) as matrix formers. Diphenhydramine hydrochloride (DPH), which was cationic and water soluble, was chosen as a model drug. HPMC- and EC-based matrices with varying amounts (0–40%w/w) of resin incorporation were prepared by a direct compression. Matrix properties including diameter, thickness, hardness, friability, surface morphology and drug release were evaluated. The obtained matrices were comparable in diameter and thickness regardless of the amount of resin incorporation. Increasing the incorporated resin decreased the hardness of HPMC- and EC-based matrices, correlating with the degree of rupturing on the matrix surfaces. The friability of HPMC-based matrices increased with increasing the incorporated resin, corresponding to their decreased hardness. In contrast, the EC-based matrices showed no significant change in friability in spite of decreasing hardness. The incorporated resin differently influenced DPH release from HPMC- and EC-based matrices in deionized water. The resin further retarded DPH release from HPMC-based matrices due to the gelling property of HPMC and the ion exchange property of the resin. In contrast, the release from EC-based matrices initially increased because of the disintegrating property of the resin, but thereafter declined due to the complex formation between released drug and dispersed resin via the ion exchange process. The release in ionic solutions was also described. In conclusion, the incorporated resin could alter the release and physical properties of matrices.     

D140大孔吸附树脂银杏黄酮提取纯化性能研究

对国内外部分大孔吸附树脂的银杏黄酮吸附性能进行了比较筛选实验。其中D140型大孔吸附树脂具有较佳的吸附能力,应用该树脂研究了银杏黄酮的树脂法提取纯化工艺,研究结果表明,银杏黄酮提取液的预处理,提取液的pH,提取液过柱流速,洗脱剂种类及用量,洗脱物后处理等因素均对银杏提取物的收率、纯度等产生影响,采用D140树脂提取银杏黄酮的平均收率为3.54％,纯度为24.54％。已用于工业化生产。     

大孔树脂对三孢布拉霉菌产番茄红素的吸附性能研究

为利用大孔吸附树脂分离纯化三孢布拉霉菌发酵液番茄红素,考察了4种大孔树脂(HP20, HP2MG, SP825, SP207)对番茄红素的吸附 解吸特性,筛选出最佳树脂。结果表明,HP20大孔树脂对番茄红素具有较好的吸附 解吸性能,且吸附迅速,能在1h内达到吸附平衡。用含55%和60%异丙醇的丙酮不连续梯度洗脱,回收率可达89.55%,重结晶后可获得纯度95%以上的番茄红素,经红外、质谱、核磁等鉴定为天然型番茄红素。该方法简单,可操作性强,极具工业应用价值。     

木质素酚醛树脂的研究进展

综述酚醛树脂发展史、种类、合成机理及进展,由于木质素分子中有酚羟基和醛基,因此使用木质素既可改善胶粘剂的性质,又可节约苯酚的用量,降低甲醛释放量,达到废物利用与保护环境的目的。重点论述了新型改性酚醛树脂的研究进展,尤其木质素改性酚醛树脂,并对新型酚醛树脂复合材料的发展方向和前景作了展望。