Effect of 6-Benzoyl-benzothiazol-2-one scaffold on the pharmacological profile of α-alkoxyphenylpropionic acid derived PPAR agonists

Abstract

A series of nitrogen heterocycles containing α–ethoxyphenylpropionic acid derivatives were designed as dual PPARα/γ agonist ligands for the treatment of type 2 diabetes (T2D) and its complications. 6-Benzoyl-benzothiazol-2-one was the most tolerant of the tested heterocycles in which incorporation of O-methyl oxime ether and trifluoroethoxy group followed by enantiomeric resolution led to the (S)-stereoisomer 44?b displaying the best in vitro pharmacological profile. Compound 44?b acted as a very potent full PPARγ agonist and a weak partial agonist on the PPARα receptor subtype. Compound 44?b showed high efficacy in an ob/ob mice model with significant decreases in serum triglyceride, glucose and insulin levels but mostly with limited body-weight gain and could be considered as a selective PPARγ modulator (SPPARγM).     

生物信息大分子功能的研究——酵母甘露聚糖对鼠Sarcoma-180瘤生长的抑制效应

酵母甘露聚糖（Mannan,简称Man）是能参与生物信息流影响生物体、特别是在糖基化方面起着重要调控作用的生物信息大分子.它是否能在抑制生物机体中肿瘤生长方面具有重要作用？研究结果表明：酵母甘露聚糖既能使患S-180瘤鼠的体质增强的同时又有抑制其体内所患S-180瘤生长的功效.Man抑制患鼠机体内的S-180瘤生长的功效（抑瘤率）随用量的增加而提高,当Man用量达360 mg（40 mg/Kg/d·9d）时,其抑瘤率达98.4％的最高水平,此时鼠体重增加1.66倍.Man的抑瘤功效有最佳适用量并存在性别敏感性,通常是雄性鼠的抑瘤率高于雌性鼠.Man抑制鼠S-180肿瘤生长的作用优于市售5-氟尿嘧啶的作用.     

低分子肝素的绿色荧光蛋白荧光标记及其活性检测

增强型绿色荧光蛋白（EGFP）是生物领域常用的标记物. 本实验首先利用高碘酸法活化低分子肝素（LMWH）,与EGFP连接得到LMWH EGFP.然后用Sephacryl S-200 HR对其进行初步分离,再用Sephadex G-10 HR进行脱盐纯化. 采用Sephacryl S 200 HR检测LMWH EGFP的纯度,为单一对称峰. 经检测,LMWH-EGFP具有良好的热稳定性和耐碱性. 通过荧光分光检测器检测LMWH-EGFP的λEx为488 nm,λEm为509 nm. 通过抗凝实验发现LMWH EGFP仍具有抗凝活性. 本实验建立了LWMH荧光标记的方法,为多糖的荧光标记提供了新的选择.     

A structural and functional analysis of the glycosyltransferase BshA from Staphylococcus aureus: Insights into the reaction mechanism and regulation of bacillithiol production

Bacillithiol is a glucosamine‐derived antioxidant found in several pathogenic Gram‐positive bacteria. The compound is involved in maintaining the appropriate redox state within the cell as well as detoxifying foreign agents like the antibiotic fosfomycin. Bacillithiol is produced via the action of three enzymes, including BshA, a retaining GT‐B glycosyltransferase that utilizes UDP‐N‐acetylglucosamine and l ‐malate to produce N‐acetylglucosaminyl‐malate. Recent studies suggest that retaining GT‐B glycosyltransferases like BshA utilize a substrate‐assisted mechanism that goes through an S_Ni‐like transition state. In a previous study, we relied on X‐ray crystallography as well as computational simulations to hypothesize the manner in which substrates would bind the enzyme, but several questions about substrate binding and the role of one of the amino acid residues persisted. Another study demonstrated that BshA might be subject to feedback inhibition by bacillithiol, but this phenomenon was not analyzed further to determine the exact mechanism of inhibition. Here we present X‐ray crystallographic structures and steady‐state kinetics results that help elucidate both of these issues. Our ligand‐bound crystal structures demonstrate that the active site provides an appropriate steric and geometric arrangement of ligands to facilitate the substrate‐assisted mechanism. Finally, we show that bacillithiol is competitive for UDP‐N‐acetylglucosamine with a K_i value near 120–130 μM and likely binds within the BshA active site, suggesting that bacillithiol modulates BshA activity via feedback inhibition. The work presented here furthers our understanding of bacillithiol metabolism and can aid in the development of inhibitors to counteract resistance to antibiotics such as fosfomycin.     

Gene editing of the wheat homologs of TONNEAU1‐recruiting motif encoding gene affects grain shape and weight in wheat

Grain size and weight are important components of a suite of yield‐related traits in crops. Here, we showed that the CRISPR‐Cas9 gene editing of TaGW7, a homolog of rice OsGW7 encoding a TONNEAU1‐recruiting motif (TRM) protein, affects grain shape and weight in allohexaploid wheat. By editing the TaGW7 homoeologs in the B and D genomes, we showed that mutations in either of the two or both genomes increased the grain width and weight but reduced the grain length. The effect sizes of mutations in the TaGW7 gene homoeologs coincided with the relative levels of their expression in the B and D genomes. The effects of gene editing on grain morphology and weight traits were dosage dependent with the double‐copy mutant showing larger effect than the respective single copy mutants. The TaGW7‐centered gene co‐expression network indicated that this gene is involved in the pathways regulating cell division and organ growth, also confirmed by the cellular co‐localization of TaGW7 with α‐ and β‐tubulin proteins, the building blocks of microtubule arrays. The analyses of exome capture data in tetraploid domesticated and wild emmer, and hexaploid wheat revealed the loss of diversity around TaGW7‐associated with domestication selection, suggesting that TaGW7 is likely to play an important role in the evolution of yield component traits in wheat. Our study showed how integrating CRISPR‐Cas9 system with cross‐species comparison can help to uncover the function of a gene fixed in wheat for allelic variants targeted by domestication selection and select targets for engineering new gene variants for crop improvement.     

发酵透明质酸寡糖兽疫链球菌工程菌株的构建

透明质酸(HA)广泛应用于医学、化妆品、食品等领域。HA的生物活性取决于其分子量(M_w)。透明质酸寡糖由于具有重要的生理活性与特殊生理功能,在医药领域具有重要的应用前景。兽疫链球菌因其发酵周期短、生产强度较强的特点,在商业生产HA上具有广泛的应用。为了高效发酵合成透明质酸寡糖和解决发酵过程的溶氧问题,文中通过在兽疫链球菌WSH-24中过表达透明质酸合酶HasA以及优化表达水蛭来源的透明质酸酶LHAase。重组菌株摇瓶发酵24h,透明质酸寡糖积累至0.97g/L,比野生菌提高了182.0%。在3L发酵罐中发酵24 h,透明质酸寡糖生产强度为294.2 mg/(L·h),HA积累至7.06 g/L,比野生菌的罐上水平提高了112.4%。文中所构建的发酵合成透明质酸寡糖的兽疫链球菌重组菌株具有重要的应用前景。     

Morphological variation associated with dispersal capacity in a tree‐killing bark beetle Dendroctonus ponderosae Hopkins

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