1)Intoxication mechanism中毒机制
英文短句/例句
1.Application of gene chip technique in mechanism of heavy metal poisoning基因芯片技术在重金属中毒机制研究中的应用
2.The Poisonous Components and Common Mechanism of Detoxification Processing of Araceae Herbal Medicine天南星科有毒中药刺激性毒性成分及矾制解毒共性机制研究
3.The Studies on the Mechanism of Sub-Chronic Manganism to the Nervous System of Cock亚慢性锰中毒致鸡神经毒性机制的研究
4.Distribution and Toxic Mechanisms of Pb, Cd in Cells of Robinia Pseudoacacia L.;Pb、Cd在刺槐细胞中的分布及毒害机制
5.The Role of mGluR1 in the Mechanism of Neurotoxicity Induced by AluminummGluR1在铝致神经毒性机制中的作用
6.Interleukin-17 in SyphilisIL-17在梅毒免疫机制中的作用机理研究
7.The Role and Possible Mechanisms of microRNA in HBV ReplicationmicroRNA在乙肝病毒复制中的作用及机制研究
8.The Studies on the Mechanism of Sub-Chronic Manganism to the Immune System of Cock亚慢性锰中毒致鸡免疫抑制机制的研究
9.Study about the Effect and Mechanism of Reduping Made from Traditional Chinese Medical Herbs Against Endotoxima of Heat Stroke;中药复方热毒平抗中暑内毒素血症作用及其机制探讨
10.The Mechanisms of Endothelin-1 in Rat Paraquat Poisoning内皮素-1在大鼠百草枯中毒中的机制研究
11.Study on the Mechanism of Cytotoxic T Lymphocyte in Viral Myocarditis;CTL介导的细胞毒作用在病毒性心肌炎中作用机制的研究
12.The chapter mainly inquired into cadmium metablism, cadmium poisioning mechanism and pathological lesins of cadmium poisioning, and it provi ded theoretical foundation to diagnose and provent cadmium poisioning.本文探讨了镉代谢、中毒机理及镉中毒的病理变化,为镉中毒的诊断和防制提供了相关依据。
13.The Role of NF-E2 Related Factor 2 (Nrf2) /Antioxidative Response Elements (ARE) Pathway in Deltamethrin Neurotoxicity and Its Mechanism;Nrf2/ARE通路在溴氰菊酯神经毒性中的作用和机制
14.Investigation in Molecular Mechanisms of Lead Neurotoxicity on Rat Spatial Learning;铅中毒损害大鼠空间学习记忆机制探讨
15.Role and Mechanisms of Monocyte Chemoattractant Protein-1(MCP-1) in Pathogenesis of Viral Myocarditis;MCP-1在病毒性心肌炎发病中的作用及其机制
16.The Role of Interleukin 1β Involved in the Neural Toxicity of Deltamethrin;IL-1β在溴氰菊酯神经毒性中作用机制初探
17.Experimental Study the Cytotoxic Role of Advanced Glycation End Products and β-Amyloid Peptide in Alzheimer Disease and Vascular Dementia;AGEs、Aβ在AD、VaD中神经毒性作用机制的实验研究
18.Mechanisms of Melatonin in Improving Lead-induced Rat Learning and Memory Impairments;褪黑素消除铅中毒大鼠学习记忆障碍的机制
相关短句/例句
intoxicated encephalopathy中毒性脑病机制
3)Poisoning control中毒控制
4)poisoning mechanism中毒机理
1.In this paper, the origins, characteristics and poisoning mechanisms of shellfish poisons including the paralytic shellfish poison(PSP),the diarrheic shellfish poison(DSP), the neurotoxic shellfish poison(NSP) and the amnestic shellfish poison(ASP) were introduced briefly.简要介绍了麻痹性贝类毒素、腹泻性贝类毒素、神经性贝类毒素及健忘性贝类毒素等贝类毒素的来源、性质、组成及中毒机理 ,并探讨了贝类毒素的检验及其排除方法。
2.This paper briefly introduces the discovery and utilization, physical and chemical properties, toxicity, poisoning mechanism, poisoning symptom, prevention and cure of mustard gas poisoning.本文将从芥子气的发现及利用、理化性质、毒性、中毒机理、中毒症状、预防及治疗等方面予以简单介绍,其中渗透结构决定性能的科学思想,让读者对芥子气有所了解。
5)toxic mechanism中毒机理
1.Studies of Toxic Mechanism of Main Toxic Components of Oxytropis Glabra DC.on CNS in Mice;小花棘豆主要有毒成分对小白鼠中枢神经系统中毒机理的研究
2.The toxic mechanism of endocrine disrupting of the xenobioties was summaried, and application of gene chip technology in toxic mechanism of the xenobioties was also discussed.概述了外源性化合物的内分泌干扰中毒机理,并进一步探讨了基因芯片技术在中毒机理研究方面的应用。
6)mechanism of toxicity毒性机制
1.The mechanism of toxicity of anilines to Photobacterium phosphoreum is also investigated.应用两种理化参数logP和pKa,对毒性数据进行定量构效关系(QSARs)研究,探讨苯胺类化合物的毒性机制。
2.On this basis, an initial inquiry is made into the mechanism of toxicity of phenol chemicals.在此基础上 ,初步探讨苯酚类化合物的毒性机制 。
延伸阅读
磁耦合机制和沙兹曼机制 解释太阳系角动量特殊分布的两种理论。太阳质量占太阳系总质量的99.8%以上,但其角动量(动量矩)却只占太阳系总角动量的1%左右,而质量仅占0.2%的行星和卫星等天体,它们的角动量却占99%左右。太阳系角动量的这种特殊分布,是太阳系起源研究中的一个重要问题。1942年,阿尔文提出一种"磁耦合机制"。他认为,太阳通过它的磁场的作用,把角动量转移给周围的电离云,从而使由后者凝聚成的行星具有很大的角动量。他假定原始太阳有很强的偶极磁场,其磁力线延伸到电离云并随太阳转动。电离质点只能绕磁力线作螺旋运动,并且被磁力线带动着随太阳转动,因而从太阳获得角动量。太阳因把角动量转移给电离云,自转遂变慢了。 1962年,沙兹曼提出另一种通过磁场作用转移角动量的机制,称为沙兹曼机制。他认为,太阳(恒星)演化早期经历一个金牛座T型变星的时期,由于内部对流很强和自转较快,出现局部强磁场和比现今太阳耀斑强得多的磁活动,大规模地抛出带电粒子。这些粒子也随太阳磁场一起转动,直到抵达科里奥利力开始超过磁张力的临界距离处,它们一直从太阳获得角动量。由于临界距离达到恒星距离的量级,虽然抛出的物质只占太阳质量的很小一部分,但足以有效地把太阳的角动量转移走。沙兹曼也用此机制解释晚于F5型的恒星比早型星自转慢的观测事实。晚于F5型的恒星,都有很厚的对流区和很强的磁活动,通过抛出带电粒子转移掉角动量,自转因而变慢。然而早于F5型的恒星,没有很厚的对流区,没有损失角动量,因而自转较快。
