紫外辐射接枝法修饰聚乳酸表面及其细胞相容性

通过紫外辐射接枝在聚乳酸膜表面引入聚丙烯酸的方法使聚乳酸材料表面的亲水性和细胞相容性得到改善,研究了各种处理条件对材料表面的羧基密度、表面形态和表面接触角的影响,同时还考察了紫外辐射接枝聚丙烯酸的聚乳酸表面的成骨细胞相容性.红外光谱分析和羧基密度测定结果表明:通过紫外光引发接枝,聚丙烯酸被成功接枝到聚乳酸表面,而且接枝密度受接枝时间和聚丙烯酸质量分数的影响很大.接触角和原子力显微镜研究结果表明:接枝聚丙烯酸后的聚乳酸表面的亲水性和粗糙度明显增加,能够促进成骨细胞的生长.     

钛酸四丁酯增韧改性聚乳酸/淀粉共混材料

制备了钛酸四丁酯[Ti(OBu)4]增韧改性的聚乳酸(PLA)/淀粉共混材料,测试了材料的加工流变性能、力学性能、共混形态、结晶性能及疏水性能和降解性能。结果表明:当mTi(OBu)4∶mPLA=0.20时,共混材料的冲击强度提高了40.9%,而弯曲强度下降了59.2%;FT-IR和SEM显示钛酸四丁酯的化学架桥作用增加了共混材料中聚乳酸与淀粉的相容,其吸水率随钛酸四丁酯含量的增加而减少,掩埋150 d后质量下降5%~8%。     

Hydrolytic Degradation of Polylactic Acid Fibers as a Function of pH and Exposure Time

Polylactic acid (PLA) is a widely used bioresorbable polymer in medical devices owing to its biocompatibility, bioresorbability, and biodegradability. It is also considered a sustainable solution for a wide variety of other applications, including packaging. Because of its widespread use, there have been many studies evaluating this polymer. However, gaps still exist in our understanding of the hydrolytic degradation in extreme pH environments and its impact on physical and mechanical properties, especially in fibrous materials. The goal of this work is to explore the hydrolytic degradation of PLA fibers as a function of a wide range of pH values and exposure times. To complement the experimental measurements, molecular-level details were obtained using both molecular dynamics (MD) simulations with ReaxFF and density functional theory (DFT) calculations. The hydrolytic degradation of PLA fibers from both experiments and simulations was observed to have a faster rate of degradation in alkaline conditions, with 40% of strength loss of the fibers in just 25 days together with an increase in the percent crystallinity of the degraded samples. Additionally, surface erosion was observed in these PLA fibers, especially in extreme alkaline environments, in contrast to bulk erosion observed in molded PLA grafts and other materials, which is attributed to the increased crystallinity induced during the fiber spinning process. These results indicate that spun PLA fibers function in a predictable manner as a bioresorbable medical device when totally degraded at end-of-life in more alkaline conditions.     

医用可降解聚乳酸的化学修饰及其作为胆道支架的应用

乳酸纯化后合成聚乳酸（PLA）;采用乙二醇对PLA端基进行化学修饰,合成了医用可降解端羟基聚乳酸（PLA-OH）,其结构和性能经^1H NMR, IR, GPC和TGA表征。通过3D打印技术,设计成型了PLA-OH胆道支架（1）,并研究了1的降解行为。结果表明：处理温度为90 ℃,处理时间为40 min时,乳酸纯度达最大值99%; PLA OH的Mw/Mn为1.3,分子量分布较窄;PLA-OH热稳定性较好,T_5%为240 ℃; 1降解性能良好,在PBS缓冲液中降解11 w,残余量为20.8%。     

Synergistic Flame Retardancy of Phosphatized Sesbania Gum/Ammonium Polyphosphate on Polylactic Acid

Phosphating sesbania gum (DESG) was obtained by modifying sesbania gum (SG) with 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO) and endic anhydride (EA). The structure of DESG was determined using Fourier transform infrared (FTIR) spectroscopy and nuclear magnetic resonance spectroscopy (¹H-NMR). Flame-retardant polylactic acid (PLA) composites were prepared by melt-blending PLA with DESG, which acted as a carbon source, and ammonium polyphosphate (APP), which acted as an acid source and a gas source. The flame retardancy of the PLA composite was investigated using vertical combustion (UL-94), the limiting oxygen index (LOI) and the cone calorimeter (CONE) test. Thermal properties and morphology were characterized via thermogravimetric analysis (TGA) and field emission scanning electron microscopy (FESEM), respectively. Experimental results indicated that when the mass ratio of DESG/APP was equal to 12/8 the LOI value was 32.2%; a vertical burning test (UL-94) V-0 rating was achieved. Meanwhile, the sample showed a lowest total heat release (THR) value of 52.7 MJ/m², which is a 32.5% reduction compared to that of neat PLA. Using FESEM, the uniform distribution of DESG and APP in the PLA matrix was observed. The synergistic effect of DESG and APP effectively enhanced the flame retardancy of PLA. Additionally, the synergistic mechanism of DESG and APP in PLA was proposed.     

基于分子机制的蛋白质酶解反应经验修饰动力学模型

蛋白质酶解反应动力学行为的复杂性在于体系中底物与产物的多样性,以及由此决定的动力学常数的可变性.基于此,以酪蛋白(case in)—胰蛋白酶(trypsin)为模式体系,拟合求得动力学常数(Km和kcat)随水解度(DH)值变化的函数表达式,其规律为:随DH值增加,Km增大,kcat减小,kcat/Km减小,证明:酶与底物的亲和力随肽链缩短而减小,即高分子量多肽为蛋白酶的适宜底物,而酶解效率与酶解专一性随反应进行逐渐降低.进一步,根据分子水平的蛋白质酶解作用机制,关联水解实验数据,得到case in-trypsin酶解反应的经验修饰动力学方程(模型平均相对误差<5%),为定量表征复杂酶解历程以及高效制备活性多肽提供了理论基础.     

酶促水解法拆分布洛芬乙酯的工艺研究

以布洛芬乙酯为反应底物,探索了酶促水解法拆分布洛芬的工艺.以曲拉通X-100为表面活性剂,利用南极假丝酵母脂肪酶B(CAL-B)催化拆分外消旋布洛芬乙酯,并对表面活性剂含量、有机溶剂种类和添加量、酶量、缓冲溶液pH、温度及时间等反应条件进行了优化,得到的最佳反应条件为:在pH为9.0的缓冲溶液中,添加80 mg曲拉通X-100、 50μL二氯甲烷和15 mg CAL-B,于30℃下反应48 h,在该条件下,S-布洛芬乙酯的剩余率(C)为65%,布洛芬乙酯的对映体过量值(ee_s)为94%.     

Insight into industrial PLA aging process by complementary use of rheology,HPLC, and MALDI

Nowadays, there is a growing availability of biodegradable industrial materials intended to food contact applications whose service life behavior needs to be further investigated. This article is focused on the degradation of two materials based on polylactic acid. The correlation between the rate of degradation and the amount of trapped degradation products was investigated applying three characterization techniques in parallel, namely rheology, high‐performance liquid chromatography (HPLC), and matrix‐assisted laser desorption/ionization (MALDI). The rate of degradation was studied through the evaluation of their rheological properties and calculation of the number of average molecular weights, and weight‐average molecular weights. Water‐soluble oligomers and lactic acid were quantified by HPLC‐ultraviolet. Changes in cyclic and linear oligomers were monitored by MALDI‐time‐of‐flight mass spectrometry. Specimens of 4‐mm thickness of each biopolymer were subjected to hydrolysis in deionized water up to 6 months at two temperatures, simulating service conditions of food packaging. The diminution in viscosity and consequently in molecular weight distribution (20–60%) showed the degradation of the molecular structure of both polylactic acids. The chain scission was followed through the increasing values of lactic acid and hydrolyzed oligomers (twofold to eightfold), and the predominant signal of the linear oligomers over the cyclic ones with aging. Rheology, HPLC, and MALDI showed to be complementary tools to better understand the changes in the molecular structure. The obtained results showed the necessity of adding suitable stabilizers for each particular food packaging application. Copyright © 2013 John Wiley & Sons, Ltd.     

复合酶耦合酶解酸处理后玉米秸秆的研究

以玉米秸秆为研究对象,经过2%硫酸预处理后,利用果胶酶、β-葡萄糖苷酶、纤维素酶三种酶协同酶解,以提高玉米秸秆的酶解产糖量。结果表明:当酶解时间为48h,果胶酶、β-葡萄糖苷酶、纤维素酶分别为45U/mL、30U/mL、60U/mL时,葡萄糖、木糖和酶水解得率分别为67.83%、3.25%、73.65%,相比纤维素酶单一酶解的葡萄糖、木糖和酶水解得率分别提高了65.04%、20.82%、65.06%。分步糖化发酵5天后,相比单一酶解发酵乙醇含量提高了72.5%。说明利用三种酶复合处理,能明显提高酶解产糖量。研究结果为玉米秸秆转化为可发酵糖技术的研究提供重要参考。     

Optimal Technological Parameters of Diesel Fuel Hydroisomerization Unit Work Investigation by Means of Mathematical Modelling Method

Mathematical model of diesel fuel hydroisomerization has been developed on the base of the system analysis strategy, which consists of the sequence of the following stages: thermodynamic analysis of chemical reactions possibility, the hydrocarbons conversion scheme drafting, kinetic model development, kinetic parameters estimation by means of inverse kinetic problem solution and large massive of full-scale experimental data and model verification to the real process. Using the developed model, the hydroisomerization process kinetic regularities have been investigated, the temperature influence in the range of 350–410^oC, pressure influence within 4.3-9.3 MPa, hydrogen containing gas flow rate influence in the range of 5000–53000 m³/h while the feed flow rate is 301 m³/h on the product composition have been studied. An optimal technological regime has been determined.     

三氧化硫脲的稳定性

研究了固体三氧化硫脲和固体一水三氧化硫脲的热稳定性。固体三氧化硫脲和水合三氧化硫脲在大气条件下均缓慢分解成SO2和脲,随温度升高分解加快。研究了温度、浓度和pH值对水溶液中的三氧化硫脲水解速率的影响。三氧化硫脲的水解速率方程可以表示为r/(mol.L-1.s-1)=k/(L0.5.mol-0.5.s-1)×c(AIMSO3H)/(mol.L-1)×(c(OH-)/(mol.L-1))0.5。水解反应活化能为73.56kJ/mol。在弱酸性条件下,三氧化硫脲对许多氧化剂稳定。     

微生物降解对苯二甲酸的培养条件优化

对苯二甲酸降解菌0612进行培养条件优化。结果表明,氮源为尿素,质量浓度为1 400mg/L,对苯二甲酸质量浓度为1 000 mg/L、接种量为4%、温度30～37℃、pH 7、转速为140r/min的时候最适合该菌的生长以及对苯二甲酸的降解。     

酶促水解法拆分布洛芬乙酯的工艺研究

以布洛芬乙酯为反应底物,探索了酶促水解法拆分布洛芬的工艺。以曲拉通X-100为表面活性剂,利用南极假丝酵母脂肪酶B（CAL-B）催化拆分外消旋布洛芬乙酯,并对表面活性剂含量、有机溶剂种类和添加量、酶量、缓冲溶液pH、温度及时间等反应条件进行了优化;得到的最佳反应条件为：在pH为9.0的缓冲溶液中,添加80 mg曲拉通X-100、50 μL二氯甲烷和15 mg CAL-B,于30℃下反应48 h;在该条件下,S-布洛芬乙酯的剩余率（C）为65%,布洛芬乙酯的对映体过量值（ees）为94%。     

A Combined Effect of Thermal and Enzymatic Racemization for d‐Aspartic Acid to l‐Aspartic Acid by High‐Performance Liquid Chromatography Assay

The racemization of d ‐aspartic acid to l ‐aspartic acid has been successfully performed with a coupled enzyme system at 90 °C and a pH of about 4.0 by the assay of high‐performance liquid chromatography. This coupled enzymatic racemization is a successive two‐step reaction first induced by d ‐amino acid oxidase and a subsequent coupled reaction by an aminotransferase clonezyme with the help of coenzyme pyridoxal 5′‐phosphate and cosubstrate l ‐glutamate. Due to the very high temperature, part of the l ‐aspartic acid is produced by the thermal effect. In fact the thermal racemization for aspartic acid can proceed from either d ‐ or l ‐aspartic acid via an intermediate fumaric acid and leads to the formation of d ,l ‐malic acid. The formation of α‐oxalacetic acid formed irreversibly from d ‐aspartic acid with d ‐amino acid oxidase can induce a side reaction to l ‐alanine. The thermal effect may also be responsible for the production of d ‐, and l ‐alanine.     

Core-shell Hierarchical Enzymatic Biosensor Based on Hyaluronic Acid Capped Copper Ferrite Nanoparticles for Determination of Endocrine-disrupting Bisphenol A

A novel enzymatic electrochemical biosensor (mCuF/PANI-nf/HA/Lacc/GCE) was designed for detection of bisphenol A (BPA). The copper ferrite nanoparticles was obtained by co-precipitation and its surface was modified with -NH₂ functional organosilane. Polyaniline nanofibers were also synthesized by cyclic voltammetry and characterized by FTIR, XRD, TGA, SEM and TEM, respectively. Then, it was crosslinked with hyaluronic acid as an immobilization matrix for Laccase to adhere to surface of the modified copper ferrites. Cyclic and differential pulse voltammetries were used to evaluate the electrochemical performances of the biosensor, which has a LOD value of 5.40 nM and a LOQ value of 16.20 nM in the 0.01–7.50 μM linear working range. The biosensor was successfully applied for determination of BPA in seawater, canned water and milk samples with recoveries ranging from 96.0 % and 100.7 %. In addition, accuracy of the voltammetric determination method in the real samples was carried out by HPLC and spike/recovery test. The layer-by-layer surface modification strategy of the designed mCuF/PANI-nf/HA/Lacc/GCE biosensor opens a new perspective on both BPA determination and using biopolymer in the structure of enzymatic electrochemical biosensors.     

有机溶剂性质及其水含量对酶催化合成含D－氨基酸残基的二肽衍生物的影响

有机溶剂性质及其水含量对酶催化合成保护的寡肽及其衍生物有显著影响。系 统地研究了有机溶剂性质及在不同有机溶剂中水含量对α－胰凝乳蛋白酶催化合成 含D－氨基酸残基的二肽衍生物产率的影响。用α－胰凝乳蛋白酶、枯草杆菌蛋白 酶和嗜热杆菌蛋白酶在有机溶剂中催化合成了一系列保护的二肽及其衍生物，并研 究了水含量对反应产率的影响，得到了十分有意义的结果。     

用氨基酸加和法计算多肽的脂水分配系数

Based on amino acid addition model, a set of hydrophobicity contributions of amino acids was obtained from the multivariate linear regression analysis of peptides' octanol/water partition coefficients. Multivariate regression was performed on a training set of 219 peptides including dipeptides to pentapeptides which we compose 21 natural amino acids. The correlation coefficients for the whole set fitting are 0. 978 and 0- 974, for log P and log D respectively. In addition, a new test method -evolution test-for regression analysis was discussed. The result of evolution test for amino acid addition model shows the advantage of this new test method.     

用氨基酸加和法计算多肽的脂水分配系数

在药物设计中,化合物的流水性是值得考虑的一种重要的性质．目前常使用化合物在正辛醇和水两相间的分配系数的对数值（logP）来度量其流水性．仅从化合物的结构出发来预测其脂水分配系数具有重要的意义,已有多种计算方法见诸报导’‘,“．对于普通的有机化合物,它们能给出较好的结果．多肽是一类具有重要生物功能的化合物．在药物设计中,多肽也是常用的物系．目前预测一般有机化合物脂水分配系数的方法对于多肽尚不能给出满意的结果．鉴于多肽类化合物特殊的重要性,专门发展一种方法来预测多肽的脂水分配系数也是十分必要的．在这方…     

同步荧光法同时测定苯甲酸和水杨酸的研究

根据苯甲酸与水杨酸在酸性条件下荧光光谱出现的差异，用同步荧光法同时测定其混合物中二组份。苯甲酸及水杨酸的检测限分别为０．２４μｇ／ｍＬ和０．２５μｇ／ｍＬ相对标准偏差分别为１．３％和１．２％。方法用于商品杀菌腐剂中苯甲酸与水杨酸的同时测定，结果满意。