Covalently linking the Escherichia coli global anaerobic regulator FNR in tandem allows it to function as an oxygen stable dimer

Glutathione (GSH) serves as an important anti-oxidant in the brain by scavenging harmful reactive oxygen species that are generated during different molecular processes. The GSH level in the brain provides indirect information on oxidative stress of the brain. We report in vivo detection of GSH non-invasively from various brain regions (frontal cortex, parietal cortex, hippocampus and cerebellum) in bilateral hemispheres of healthy male and female subjects and from bi-lateral frontal cortices in patients with mild cognitive impairment (MCI) and Alzheimer's disease (AD). All AD patients who participated in this study were on medication with cholinesterase inhibitors. Healthy young male (age 26.4±3.0) and healthy young female (age 23.6±2.1) subjects have higher amount of GSH in the parietal cortical region and a specific GSH distribution pattern (parietal cortex>frontal cortex>hippocampus ~ cerebellum) has been found. Overall mean GSH content is higher in healthy young female compared to healthy young male subjects and GSH is distributed differently in two hemispheres among male and female subjects. In both young female and male subjects, statistically significant (p=0.02 for young female and p=0.001 for young male) difference in mean GSH content is found when compared between left frontal cortex (LFC) and right frontal cortex (RFC). In healthy young female subjects, we report statistically significant positive correlation of GSH content between RFC and LFC (r=0.641, p=0.004) as well as right parietal cortex (RPC) and left parietal cortex (LPC) (r=0.797, p=0.000) regions. In healthy young male subjects, statistically significant positive correlation of GSH content was observed between LFC and LPC (r=0.481, p=0.032) regions. This statistical analysis implicates that in case of a high GSH content in LPC of a young male, his LFC region would also contain high GSH and vice versa. The difference in mean of GSH content between healthy young female control and female AD patients in RFC region (p=0.003) and difference in mean of GSH content between healthy young male control and male AD patients (p=0.05) in LFC region is found to be statistically significant. It is the first scientific report correlating alteration (in selective brain regions) of GSH level with clinical status of male and female subjects using non-invasive imaging technique.     

退耕区域发展碳汇产业的生态经济学思考

碳汇产业,即利用植物吸收二氧化碳的潜力及规律,在人工适度干预下获得清洁空气、满足人们生产和生活对生态环境需求的产业,为原有相对均衡或稳定的农业产业-资源系统的优化升级提供突破口和新的增长点.退耕区域生态系统服务中,固碳释氧功能的经济显化、碳汇潜力的迅速提高,以及国内外碳汇交易与碳汇市场的兴起等,为碳汇产业的发展奠定了理论和现实基础.随着碳汇产业的发展,生产经营者必然以提高碳汇产出为核心,形成对碳源的控制及对碳贮量增加路径的开发,重新布局农业产业-资源结构,因而为退耕区域可持续发展带来新的活力;同时,也隐含了下一步需要研发的重点,即碳汇产业融入后的农业产业-资源的配置结构及良性耦合机制.     

Phosphorylation of Pkp1 by RIPK4 regulates epidermal differentiation and skin tumorigenesis

Tissue homeostasis of skin is sustained by epidermal progenitor cells localized within the basal layer of the skin epithelium. Post‐translational modification of the proteome, such as protein phosphorylation, plays a fundamental role in the regulation of stemness and differentiation of somatic stem cells. However, it remains unclear how phosphoproteomic changes occur and contribute to epidermal differentiation. In this study, we survey the epidermal cell differentiation in a systematic manner by combining quantitative phosphoproteomics with mammalian kinome cDNA library screen. This approach identified a key signaling event, phosphorylation of a desmosome component, PKP1 (plakophilin‐1) by RIPK4 (receptor‐interacting serine–threonine kinase 4) during epidermal differentiation. With genome‐editing and mouse genetics approach, we show that loss of function of either Pkp1 or Ripk4 impairs skin differentiation and enhances epidermal carcinogenesis in vivo. Phosphorylation of PKP1's N‐terminal domain by RIPK4 is essential for their role in epidermal differentiation. Taken together, our study presents a global view of phosphoproteomic changes that occur during epidermal differentiation, and identifies RIPK‐PKP1 signaling as novel axis involved in skin stratification and tumorigenesis.     

The Mental Retardation Associated Protein,srGAP3 Negatively Regulates VPA-Induced Neuronal Differentiation of Neuro2A Cells

The Slit-Robo GTPase-activating proteins (srGAPs) are important multifunctional adaptor proteins involved in various aspects of neuronal development, including axon guidance, neuronal migration, neurite outgrowth, dendritic morphology and synaptic plasticity. Among them, srGAP3, also named MEGAP (Mental disorder-associated GTPase-activating protein), plays a putative role in severe mental retardation. SrGAP3 expression in ventricular zones of neurogenesis indicates its involvement in early stage of neuronal development and differentiation. Here, we show that overexpression of srGAP3 inhibits VPA (valproic acid)-induced neurite initiation and neuronal differentiation in Neuro2A neuroblastoma cells, whereas knockdown of srGAP3 facilitates the neuronal differentiation in this cell line. In contrast to the wild type, overexpression of srGAP3 harboring an artificially mutation R542A within the functionally important RhoGAP domain does not exert a visible inhibitory effect on neuronal differentiation. The endogenous srGAP3 selectively binds to activated form of Rac1 in a RhoGAP pull-down assay. We also show that constitutively active (CA) Rac1 can rescue the effect of srGAP3 on attenuating neuronal differentiation. Furthermore, change in expression and localization of endogenous srGAP3 is observed in neuronal differentiated Neuro2A cells. Together, our data suggest that srGAP3 could regulate neuronal differentiation in a Rac1-dependent manner.     

冀南地区汉族人群皮纹分析

本文研究了冀南地区健康汉族医学生1020例(男性510人, 女性510人)的皮纹, 探讨了冀南地区正常汉族群体皮纹特点。结果发现: 冀南地区群体指纹频率顺序: 尺箕纹>斗形纹>弓形纹>桡箕纹; 十指指纹类型分布有显著差异; 两性斗形纹分布有显著差异; 两手弓形纹分布有差异但不显著; 指纹纹型分布有极高对称性; 同名指指纹组合频率排序为L/L>W/W>L/W>A/L>A/A>A/W; 五指的FRC有显著差别、两性的TFRC有差异, 但不显著; 两性T/I、III、IV的真实花样出现率有差异。因此, 本文认为指纹分布具有同型组合极高亲和性、异型组合不相容性; 皮纹发育形成主要受遗传因素控制, 也受性别影响; 冀南地区人群可能与山东省、辽宁省同属中国汉族北方群同一亚群。     

人Semaphorin 4D慢病毒载体的构建及鉴定

目的:构建并制备能够有效表达Semaphorin 4D的重组慢病毒。方法:从人急性T细胞白血病Jurkat细胞DNA 扩增人Semaphorin 4D基因,克隆至pWPI GW慢病毒载体上,与pVSVG及pSPAX质粒共转染人胚肾293T细胞,包装出重组慢病毒,将纯化后的重组病毒直接感染293T和HUVEC细胞,通过免疫印迹、免疫荧光染色和血管内皮细胞迁移分析等方法检测Semaphorin 4D的表达和诱导血管内皮细胞迁移的作用。结果: 重组慢病毒介导Semaphorin 4D在293T和HUVEC内获得表达,能介导血管内皮细胞迁移。结论:成功构建了表达Semaphorin 4D的重组慢病毒载体。     

葛根素对糖尿病心肌细胞的保护及其机制研究

观察葛根素（Puerarin）对链脲佐菌素（streptozotocin,STZ）诱导的糖尿病大鼠心肌细胞的保护作用,并探讨血小板反应素1（Thrombospondin-1,TSP-1）的表达改变及其作用。雄性SD大鼠45只随机分为三组（n=15）：糖尿病组和葛根素治疗组采用一次腹腔注射链脲佐菌素（STZ）65mg／kg制备糖尿病模型,其中葛根素治疗组于造模后葛根素腹腔注射4周（100mg/kg/day）,正常对照组仅腹腔注射等量生理盐水（6ml／kg）,同样喂养4周。四周后各组大鼠处死。H—E染色及透射电子显微镜观察三组大鼠心肌细胞纤维显微结构和超微结构的病理改变．免疫组化和实时荧光定量PCR法观察大鼠心肌细胞中TSP-1蛋白和mRNA表达的变化．同时利用Langendorff离体心脏灌流法测定各组大鼠心室肌细胞功能。结果发现葛根素治疗组较糖尿病组大鼠的体重增加明显,同时血糖下降,有显著性差异（P〈0．01）。H—E染色显示糖尿病大鼠多处心肌肌丝紊乱伴少量炎症细胞浸润,电镜下发现有线粒体嵴消失溶解,肌丝排列紊乱等病理改变,而葛根素治疗组大鼠偶见上述病理变化。免疫组化显示葛根素治疗组心肌内TSP-1阳性细胞密度小于糖尿病大鼠,TSP-1 mRNA表达也比糖尿病大鼠要低。此外葛根素治疗组大鼠的左室收缩末压（LVSEP）、左心室舒张末期压（LVEDP）等心功能指标均明显低于正常组（P〈0．01）,但较糖尿病组有显著改善（P〈0．01）。上述结果显示葛根素能保护糖尿病大鼠心肌细胞的高糖损伤和维持心室肌细胞的功能,而该机制可能与抑制心肌细胞TSP-1表达的水平有关。     

螺旋粉虱对不同波长发光二极管的趋光反应

螺旋粉虱Aleurodicus disperses Russell是很多果树和观赏植物的重要害虫.本文应用六角体装置研究了螺旋粉虱成虫对6种波长发光二极管(LED)的趋性反应,这些LED分别为:紫(405 nm);蓝(461 nm);绿(519 nm);黄(570 nm);红(650 nm)和红外(850 nm).结果表明紫光LED(405 nm)对螺旋粉虱的吸引率显著高于其它波长的LED,两性间没有显著的差异.短波长较长波长的可见光对螺旋粉虱更具吸引力.研究结果可为提高灯诱对螺旋粉虱的吸引率提供依据.     

皮质抑素的生物学效应研究进展

皮质抑素是1996年在哺乳动物大脑皮质中发现的与生长抑素结构有高度同源性的活性多肽,广泛分布于人体的组织器官中,包括大脑皮质、冠状动脉、胃、肾、睾丸、视网膜、白细胞和免疫系统等.研究表明,皮质抑素能够与生长抑素受体、生长激素促分泌物受体1a及Mas相关基因2受体结合发挥多种生物学作用,包括调节学习与记忆过程,诱导睡眠,抑制炎症,调节内分泌代谢及发挥心血管效应,是调节机体自稳态平衡的重要因素.