1)p38MAPKp38 MAPK
英文短句/例句
1.Study on the Effect of EGCG on LPS-induced p38 MAPK Signal Transduction;EGCG对LPS诱导的p38 MAPK信号转导作用研究
2.R10, a Novel Inhibitor of p38 Mitogen-activated Protein KinaseR10,新型p38 MAPK抑制剂生物学功能研究
3.The Role of p38 MAPK and ERK in iNOS Expression Induced by Lipopolysaccharides;p38 MAPK和ERK在内毒素诱导的iNOS表达中的作用
4.Studies on Transcriptional Regulation and Its Mechanism of iNOS Gene Expression by p38 MAP Kinase;p38 MAPK对iNOS基因的转录调控及其机制研究
5.Construction and Expression of Red Fluorescent Protein Fusion Vector of p38 MAPK;p38 MAPK红色荧光蛋白融合载体的构建及表达
6.Expression of phosphorylate-p38 mitogen-activated protein kinase in skin squamous cell carcinoma and its significance磷酸化p38 MAPK在皮肤鳞状细胞癌中的表达及意义
7.Expression of Phosphorylated-p38 MAPK in Dorsal Root Ganglion Neurons in Morphine Tolerance in Rats吗啡耐受大鼠背根神经节磷酸化p38 MAPK的表达
8.THE ROLES OF P38MAPK ACTIVATION IN SPINAL DORSAL HORN IN THE FORMATION OF INCISIONAL PAIN IN RATS脊髓背角p38 MAPK活化在大鼠切口痛形成中的作用
9.Airway Inflammation and Mucus Hypersecretion is Regulated Through p38 MAPK/MMP-9 Pathway;p38 MAPK/MMP-9信号通路调控气道炎症和黏液高分泌的分子机制探讨
10.The Mechanism and Effect on the Changes of Heat Shock Protein70, p38 Mitogen-Activated Protein Kinase in Missile Craniocerebral Injuries under High Temperature and High Humidity Environment;高温高湿环境下颅脑火器伤后HSP70、p38 MAPK变化及其作用机理
11.The Regulate Functions of p38 MAPK to the Venule Endothelial Celluar Junction and Cytoskeleton Recombination of Rats Suffered Burns;p38 MAPK对烧伤大鼠微血管内皮细胞连接及骨架重组的调控作用
12.The Effects of Mechanical Pressure on the Activation of p38 MAPK and Expression of IL-6 in the Human Periodontal Ligament Fibroblasts;机械压力对人牙周膜成纤维细胞p38 MAPK活性及IL-6基因表达的影响
13.Expression of p38 MAPK in oxidative stress response to rabbit carotid adventitial injury兔颈动脉外膜损伤术后氧化应激中p38 MAPK的表达变化
14.Experimental Studies on Hypoxic Preconditioning-induced Neuroprotection against Focal Ischemic Injury of Mice and Its p38 MAPK Mechanism低氧预适应对小鼠缺血脑的保护及其p38 MAPK机制的实验研究
15.Expression of p38 MAPK in cerebral ischemia core and penumbra in rats with focal cerebral ischemiap38 MAPK在局灶性脑缺血大鼠缺血中心区和半影区的表达
16.p38 MAPK-Pim-3 signal pathway may be involved in cardiomyocyte anoxia preconditioning against anoxia/reoxygenation injuryp38 MAPK-Pim-3通路可能介导预处理对抗心肌细胞缺氧/复氧损伤
17.Role of p38 MAPK in cyclic mechanical stretch induced HMGB1 expression in alveolar macrophagesp38 MAPK在周期性机械牵张诱导肺泡巨噬细胞表达HMGB1中的作用
18.The Pathologic Changes in Lung Tissues in Diabetic Rats and the Activation of p38MAPK and NF-κB;糖尿病大鼠肺病变及P38 MAPK、NF-κB的作用
相关短句/例句
the expression of p38MARKp38 MAPK表达
3)P38 MAPK geneP38 MAPK基因
4)p38 mitogen activated protein kinases(p38 MAPK)p38丝裂原激活蛋白激酶(p38 MAPK)
5)mitogen-activated protein kinaseMAPK
1.Experimental Research on Mitogen-Activated Protein Kinase in Heart,Liver,Brain of Rats with Spleen-Qi Deficiency Syndrome and Effective Mechanism of Chinese Herbs for Reinforcing Spleen-Qi;脾气虚证模型大鼠心脏 肝脏 脑组织 MAPK活性变化及补脾气方药对其影响的实验研究
2.Experimental Research on Mitogen-Activated Protein Kinase in Heart, Liver, Brain of Rats with Spleen-Yang Deficiency Syndrome and Effective Mechanism of Chinese Herbs for Reinforcing Spleen-Qi;脾阳虚证大鼠心、肝、脑组织MAPK活性变化及温补脾阳方药对其影响的实验研究
3.Objective: To investigate the changes of activities of mitogen-activated protein kinase(MAPK) in the heart of the rats with spleen-yin deficiency syndrome and the effective mechanism of Chinese herbs for replenishing the spleen-yin.目的:通过观察脾阴虚证大鼠模型MAPK活性变化,探讨在脾阴虚状态下大鼠心脏组织MAPK活性变化规律及其调控机制,进一步揭示脾阴虚证的病理实质和滋脾阴法的作用,从而为脾实质的研究提供客观依据。
6)p42 mitogen-activated protein kinaseP42 MAPK
延伸阅读
38号元素锶,原子序数38,原子量87.62。元素名来源它的发现地的地名。1790年克劳福德在苏格兰斯特朗申得铅矿中第一次识别了自然界存在的碳酸锶;1792年霍普证实并分离了钡、锶、钙的化合物;1808年戴维利用汞阴极电解氢氧化锶,第一次得到纯的金属锶,并命名。锶在地壳中的含量为0.02%,主要矿石为天青石和菱锶矿,锶也在动、植物中与钙共存。锶有四个天然同位素。锶是一种活泼金属,熔点769°c,沸点1384°c,密度2.6克/厘米³。锶能与水直接反应,与酸猛烈反应;锶与卤素、氧和硫都能迅速反应;锶在空气中会很快生成保护性氧化膜;锶在空气中加热会燃烧;在一定条件下可与氮、碳、氢直接化合;由于锶很活泼,应保存在煤油中。金属锶的实际应用很少;锶的挥发性盐在火焰中呈现红色,可用作焰火、照明灯和曳光弹的材料;放射性锶90可治疗骨癌。总体特性名称, 符号, 序号 锶、sr、38系列 碱土金属族, 周期, 元素分区 2族, 5, s密度、硬度 2630 kg/m3、1.5颜色和外表 银白色金属地壳含量 0.01 %原子属性原子量 87.62 原子量单位原子半径 (计算值) 215.1(无数据)pm共价半径 192 pm范德华半径 无数据价电子排布 [氪]5s2电子在每能级的排布 2,8,18,8,2氧化价(氧化物) 2(强碱性)晶体结构 体新立方格物理属性物质状态 固态(顺磁性)熔点 1050 k(777 °c)沸点 1655 k(1382 °c)摩尔体积 33.94×10-6m3/mol汽化热 144 kj/mol熔化热 8.3 kj/mol蒸气压 246 帕(1042k)声速 无数据其他性质电负性 0.95(鲍林标度)比热 300 j/(kg·k)电导率 7.62×106/(米欧姆)热导率 35.3 w/(m·k)第一电离能 549.5 kj/mol第二电离能 1064.2 kj/mol第三电离能 4138 kj/mol最稳定的同位素同位素 丰度 半衰期 衰变模式 衰变能量mev 衰变产物84sr 0.56 % 稳定86sr 9.86 % 稳定87sr 7.0 % 稳定88sr 82.58 % 稳定90sr 人造 28.78年 β衰变 0.546 90y在没有特别注明的情况下使用的是国际标准基准单位单位和标准气温和气压锶是一种化学元素,它的化学符号是sr,它的原子序数是38,是一种银白色的碱土金属。 锶存在於矿物天青石(srso4)中及某些矿泉中。锶的焰色为深红色。 锶-90是一种核裂变产物,对人体有相当大的危害,它在核试验中由铀产生,以粉尘的形态被人体吸入,对人体产生放射性伤害。 锶的化学反应强烈,在空气中会转黄色。
