Binding model for eriodictyol to Jun-N terminal kinase and its anti-inflammatory signaling pathway

The anti-inflammatory activity of eriodictyol and its mode of action were investigated. Eriodictyol suppressed tumor necrosis factor (mTNF)-α, inducible nitric oxide synthase (miNOS), interleukin (mIL)-6, macrophage inflammatory protein (mMIP)-1, and mMIP-2 cytokine release in LPS-stimulated macrophages. We found that the anti-inflammatory cascade of eriodictyol is mediated through the Toll-like Receptor (TLR)4/CD14, p38 mitogen-activated protein kinases (MAPK), extracellular-signalregulated kinase (ERK), Jun-N terminal kinase (JNK), and cyclooxygenase (COX)-2 pathway. Fluorescence quenching and saturation-transfer difference (STD) NMR experiments showed that eriodictyol exhibits good binding affinity to JNK, 8.79 × 10⁵ M^-1. Based on a docking study, we propose a model of eriodictyol and JNK binding, in which eriodictyol forms 3 hydrogen bonds with the side chains of Lys55, Met111, and Asp169 in JNK, and in which the hydroxyl groups of the B ring play key roles in binding interactions with JNK. Therefore, eriodictyol may be a potent anti-inflammatory inhibitor of JNK. [BMB Reports 2013; 46(12): 594-599]     

应用改构的炭疽毒素作为靶向肿瘤细胞的药物递送系统及其效果评价

目的:通过改造炭疽毒素保护性抗原Protective Antigen (PA)及致死因子Lethal Factor (LF),尝试建立更加广谱的新型炭疽毒素靶向给药系统并对其递送效率进行定量评价.方法:采用基因工程手段,分别构建了3种改构的天然炭疽毒素保护性抗原PA及炭疽毒素的LF N端融合海肾荧光素酶(Luciferase)的LFn-linker-Luc的大肠杆菌重组表达体系.利用CCK-8法评价改构PA和LF共同作用肿瘤细胞后的细胞存活率;利用改构PA和LFn-linker-Luc与肿瘤细胞共孵育,通过测定细胞内荧光素酶活性,评价改构PA靶向肿瘤细胞的效果.结果:体外酶解实验证明构建的改构PA蛋白能够被正确地酶解成目的大小的片段;改构PA和LF共同作用肿瘤细胞能够显著降低细胞存活率;利用LFn-linker-Luc能够评价改构PA的靶向效率,PA蛋白的改构方式与其递送效率相关.结论:设计并改构的炭疽毒素药物递送系统,能够实现特异性靶向肿瘤细胞的效果,并具有更广谱的作用效果,为研制新型广谱抗肿瘤药物提供了新的思路和方法.     

海藻酸转化生物乙醇研究进展

作为第三代生物燃料,大型褐藻类生物质转化燃料乙醇的研究受到广泛的关注。但是,现有的乙醇工业菌株并不能利用褐藻中的主要成分海藻酸,这个问题是海藻生物乙醇实现工业化生产的主要技术难关。近几年随着对海藻酸裂解酶和海藻酸降解菌代谢途径的深入研究,科研人员构建了不同的海藻酸发酵菌株,为高效转化大型海藻生产生物乙醇提供了可行的技术基础。这篇文章对海藻酸资源概况和海藻酸转化生物乙醇存在的科学问题及其研究进展进行了综述。     

Wnt5a抑制Wnt3a促黑素细胞黑素生成的作用探究

目的：研究WntSa对Wnt3a处理过的melan—a细胞分泌黑色素的影响。方法：体外培养黑色素细胞（melan-a细胞）,分别进行GFP、Wnt3a、Wnt3a＋WntSa处理,比较细胞的突起,酪氨酸酶的活性以及黑素合成相关基因（TYR、TRP2、MITF）表达情况。结果：Wnt3a促进黑色素细胞突起的生长和TYR、TRP2、MITF的表达,而Wnt5a逆转了Wnt3a对黑色素细胞的作用。结论：Wnt5a抑制Wnt3a促黑素细胞黑素生成的作用,表明在melan．a黑素细胞中Wnt5a可有效抑制wnt经典通路。     

联合用药靶控静脉麻醉在纤维支气管镜检查术中的麻醉效果分析

目的：分析纤维支气管镜检查术中丙泊酚联合右美托咪啶靶控静脉麻醉的效果,为临床麻醉提供参考。方法：选取73例行纤维支气管镜检查术的患者作为研究对象,按麻醉方式不同分为观察组38例（采用右美托咪啶联合丙泊酚麻醉）和对照组35例（单用丙泊酚麻醉）。观察分析各时点心率、呼吸次数、平均动脉压、血氧饱和度、镇静效果评分、苏醒时间以及不良反应发生率等指标。结果：Ramsay评分：对照组6分的例数为22例（62．9％）,观察组为32（84．2％）,差异有统计学意义;丙泊酚总用量：观察组为（334．5±54．6）mg,对照组为（463．2±60．5）mg,差异有统计学意义,医生满意度：观察组为92．1％,对照组为74.3％,差异有统计学意义。结论：丙泊酚联合右美托咪啶靶控静脉麻醉安全有效,效果显著,适合纤维支气管镜检查术。     

N+ ion beam implantation of tannase-producing Aspergillus niger and optimization of its process parameters under submerged fermentation

Low-energy ion implantation as a novel mutagen has been increasingly applied in the microbial mutagenesis for its higher mutation frequency and wider mutation spectra. In this work, N⁺ ion beam implantation was used to enhance Aspergillus niger TA9701 in tannase yield. The optimization of process parameters under submerged fermentation was carried out to further improve the tannase yield of the mutant, Aspergillus niger J-T18. The results indicate that an excellent mutant J-T18 with a yield of 38.5 IU/mL, that is five times that of the original strain, was achieved by nine successive implantations under the conditions of 10 keV and 30–40 (×2.6?×?10¹³) ions/cm². This optimization further increased the yield of the mutant by 42 %, i.e. 53.6 U/mL which occurred in the mutant cultivated in the optimal fermentation culture medium composed of: rice flour 5 %; ammonium sulfate 1 %; tannic acid 2 %; calcium carbonate 0.5 %; manganese sulfate 0.1 %; and dipotassium phosphate 0.3 %; incubated at 30°C and 180 rpm for 72 h.     

Ab initio molecular dynamics simulation on the formation process of He@C60 synthesized by explosion

The applications of endohedral non-metallic fullerenes are limited by their low production rate. Recently, an explosive method developed in our group shows promise to prepare He@C₆₀ at fairly high yield, but the mechanism of He inserting into C₆₀ cage at explosive conditions was not clear. Here, ab initio molecular dynamics analysis has been used to simulate the collision between C₆₀ molecules at high-temperature and high-pressure induced by explosion. The results show that defects formed on the fullerene cage by collidsion can effectively decrease the reaction barrier for the insertion of He into C₆₀, and the self-healing capability of the defects was also observed.

Theoretical study of the triangular bonding complex formed by carbon tetrabromide, a halide, and a solvent molecule in the gas phase

MP2(full)/aug-cc-pVDZ(-PP) computations predict that new triangular bonding complexes (where X^? is a halide and H–C refers to a protic solvent molecule) consist of one halogen bond and two hydrogen bonds in the gas phase. Carbon tetrabromide acts as the donor in the halogen bond, while it acts as an acceptor in the hydrogen bond. The halide (which commonly acts as an acceptor) can interact with both carbon tetrabromide and solvent molecule (CH₃CN, CH₂Cl₂, CHCl₃) to form a halogen bond and a hydrogen bond, respectively. The strength of the halogen bond obeys the order CBr₄???Cl^? > CBr₄???Br^? > CBr₄???I^?. For the hydrogen bonds formed between various halides and the same solvent molecule, the strength of the hydrogen bond obeys the order C-H???Cl^? > C-H???Br^? > C-H???I^?. For the hydrogen bonds formed between the same halide and various solvent molecules, the interaction strength is proportional to the acidity of the hydrogen in the solvent molecule. The diminutive effect is present between the hydrogen bonds and the halogen bond in chlorine and bromine triangular bonding complexes. Complexes containing iodide ion show weak cooperative effects.