Tuning the substrate selectivity of meta-cleavage product hydrolase by domain swapping

meta-Cleavage product (MCP) hydrolases can catalyze relatively low reactive carbon–carbon bond hydrolysis of products, which are derived from the meta-cleavage of catechols. The strict substrate selectivity of MCP hydrolases attracts an interest to understand the determinants of substrate specificity. Compared with conventional site-directed mutagenesis, domain swapping is an effective strategy to explore substrate specificity due to the large-scale reorganization of three-dimensional structure. In the present study, the hybrid MCP hydrolases BphD_LidA and MfphA_LidD were constructed by exchanging the lid domain of two parental enzymes MfphA and BphD. The residues Gly130/Ala196 (MfphA) and Gly136/Ala211 (BphD) were selected as crossover points according to structural disruption score analysis and molecular dynamics simulations. It was shown that the hybrid enzymes exhibited similar substrate selectivity with the parent enzyme providing the lid domain. Docking studies suggested that the lid domain may play a key role in determining substrate specificity by reshaping the active pocket and modulating the orientation of the substrate.     

Proteomic Analysis of Differential Proteins Related to Anti-nociceptive Effect of Electroacupuncture in the Hypothalamus Following Neuropathic Pain in Rats

Increasing evidence has been accumulated for the effectiveness of acupuncture therapy in relieving pain. However, there are limited data on regulation of protein expression after electroacupuncture (EA) intervention. Thus, the present study is designed to determine changes in protein expression following EA stimulation in rats with sciatic nerve chronic constrictive injury (CCI) induced neuropathic pain. Sixty Wistar rats were equally randomized into normal control group, CCI group, and CCI with EA stimulation (EA) group. The CCI model was established by ligature of the left sciatic nerve. EA stimulation was applied at Zusanli (ST36) and Yanglingquan (GB34) in the EA group. Differentially expressed hypothalamic proteins in the three groups were identified by 2-D gel electrophoresis and matrix-assisted laser desorption/ionization time of flight mass spectrometry. The functional clustering and pathway of the identified proteins were analyzed by Mascot software. Results showed that, after CCI, the thermal pain threshold of the affected hind footpad was decreased and was reversed gradually by 12 sessions of EA treatment. Following EA intervention, there were 17 hypothalamic proteins identified with significant changes in the expression (>twofold). Three gene-ontologies (oxidoreductase activity, oxidation reduction, and protein binding) were enriched, while there was a significant regulation of glycolysis/gluconeogenesis/hexose metabolism pathway. These data demonstrate that EA intervention can attenuate pain via regulation of expression of multiple proteins in the hypothalamus. Further, hypothalamic glucose metabolism may be important in supporting energy and neurotransmitter homeostasis in the effects of EA intervention.     

Insights into the drug resistance induced by the BaDHPS mutations: molecular dynamic simulations and MM/GBSA studies

Dihydropteroate synthase (DHPS) is essential for the folic acid biosynthetic pathway in prokaryotes; the mutation forms for DHPS are found to be relative to the urgent drug resistance problems. In our study, the Bacillus anthracis DHPS (BaDHPS) was selected for molecular dynamics and binding free energy studies to investigate the biochemistry behaviors of the wild-type and mutation form BaDHPS proteins (D184N and K220Q). It is found that the conformational change of the ligand dihydropteroate sulfathiazole binding site in mutation D184N and K220Q systems is mainly attributed from the Loop 1, Loop 2, and Loop 7 regions, and the binding free energy of these mutation systems is lower than that of the wild-type system. Additionally, some important hydrogen bonds of the mutation systems are disrupted during the simulations. But the shortening of the distance between residue Thr67 and the ligand would cause significant change of the binding pose in the K220Q system. These studies of DHPS family will be helpful for further drug resistance investigations.

An animated Interactive 3D Complement (I3DC) is available in Proteopedia at http://proteopedia.org/w/Journal:JBSD:24     

Construction and characterization of Lactobacillus pentosus expressing the D antigenic site of the spike protein of Transmissible gastroenteritis virus

This study explored the feasibility of Lactobacillus pentosus as a live vehicle to deliver and express antigen. First of all, L.?pentosus transformed by electroporation with the plasmids pg611-6D (anchored) and pg612-6D (secretory) based on the xylose operon generated the recombinant strains rLppg611-6D and rLppg612-6D, respectively, expressing the D antigenic site of the spike (S) protein of Transmissible gastroenteritis virus (TGEV), for intragastric administration in mice. Secondly, we collected serum, fecal, nasal, ophthalmic, and vaginal samples from pre-immune mice and after the first immunization (on days 7, 14, 21, 28, 35, and 42) that were used to analyze the levels of immunoglobulins G and A against TGEV by using ELISA. In addition, a plaque reduction assay was performed using sera from groups pg611, pg612-6D, pg11-6D, and phosphate-buffered saline (blank control) to analyze TGEV-neutralizing antibody activity in vitro. A statistically significant difference in serum tests between groups demonstrated that rLppg612-6D induced better immunogenicity than rLppg611-6D, making rLppg612-6D the better candidate for oral vaccine. Taken together, L. pentosus possessed the potential to become a novel vector for mucosal vaccine in the future.     

冷激条件下预形成副溶血性弧菌生物被膜的发展变化

【目的】生物被膜可附着在食品或医药生物材料表面引起持续性的感染,而现今极少有关于温度变化对预形成生物被膜影响的研究。本文分析了冷激条件下副溶血性弧菌预形成生物被膜的发展变化。【方法】以改进的结晶紫染色法检测生物被膜总量,以改进的超声法和Lowry法量化胞外多糖和蛋白质,以RNA试剂盒提取并纯化生物被膜形成的相关基因。同时,激光共聚焦扫描显微镜直观显示了冷激条件下预形成生物被膜形态结构的变化,并深入分析了生物被膜结构的变化,以及生物被膜结构参数和基因转录的相关性。【结果】在冷激条件下,副溶血性弧菌生物被膜总量增加,同时,副溶血性弧菌预形成的生物被膜胞外多聚物的主要成分胞外多糖和蛋白质也逐渐增加,被膜形成相关鞭毛基因和毒力基因的转录活跃。生物被膜的平均厚度(MT)、平均扩散距离(ADD)、孔隙率(P)、生物被膜粗糙度(BR)和均匀性(H)在冷激过程中也发生了变化,同时这些参数之间存在显著相关性(P<0.01),而生物被膜结构参数与生物被膜相关基因转录的相关性较弱(P<0.05)。【结论】因此,4°C和10°C冷激不能完全抑制副溶血性弧菌预形成生物被膜的生长,风险评估人员在制定控制食源性感染风险的战略时应考虑到这一因素。