产肠毒素性大肠杆菌与仔猪腹泻的致病过程密切相关。
Enterotoxigenic escherichia coil (ETEC) related with diarrhoea of early-weaned piglets.
这些结果表明:稻纹枯病菌毒素的分泌可能在其致病过程中起重要作用。
These results suggest that the toxin secreted by R. solani might play an important role in pathogenesis of this pathogen on rice.
目前松材线虫的致病机理尚不明确,其食道腺可能在致病过程中起重要作用。
Now, pathogenesis of pine wood nematode wasn't clear, maybe the esophageal glands play an important role in the process of pathogen.
目前已在分子水平上,证实了甘蓝黑腐病黄单胞菌产生的胞外蛋白酶在致病过程中起着重要的作用。
Recently, the extracellular proteases produced by Xanthomonas campestris pv. campestris have been demonstrated at molecular level to be important in pathogenicity.
掌握细胞微生物学知识有助于更深入地理解微生物病原体的致病过程,以及宿主和病原体的相互关系。
Knowledge of cellular microbiology will provide a deeper understanding of the evolution of pathogenicity and host-parasite relationships.
结论人体感染HIV后一些免疫因素如低的幼稚T细胞数、明显的T细胞化及细胞凋亡等参与了致病过程。
Conclusions: Some immune factors such as lower naive t cell, excessive activation and apoptosis are involved in the immunopathogenesis of HIV.
产肠毒素性大肠杆菌(ETEC)是引起仔猪腹泻的主要病原菌,黏附素在ETEC的致病过程中起着重要作用。
The EnterotoxigenicEscherichia coli(ETEC) is an important pathogenic bacteria causing Colibacillus diarrhea of piglet. Adhesions gene plays an important role in the pathogenesis of disease.
本文就此病原菌产生的胞外蛋白酶、胞外蛋白酶基因的克隆分析、胞外蛋白酶突变体的构建以及胞外蛋白酶在致病过程中的作用的研究进展作一概述。
This review describes the recent progress in the studies of the extracellular proteases, the cloning and analysis of the genes encoding the enzymes, the construction of protease negative mut…
药剂带来的副作用会导致病人患病,有时候不得不更换疗养方案,而这一过程需要几天甚至几个星期。
Side effects from the drugs can make patients ill, and sometimes the regimen has to be changed, a process that can take days and weeks.
他们说这也支持了这样一种观点,即帮助人类度过饥荒的生物特点在食物逐渐丰盛过程中变成了致病原因。
This would support the theory that biological traits that helped human beings survive famines have become disease-causing in times of plenty, they said.
拟态弧菌的致病作用与其在生长繁殖过程中产生的毒力因子密切相关。
Pathogeniciy of Vibrio mimicus strongly relates with the virulence factors produced by the pathogen during the growth phase.
目的研究卡氏肺孢子虫的超微结构、发育增殖过程及其在肺组织内的寄生情况,探讨其致病机制。
Objective To study the ultra structure of Pneumocystis carinii on the process of development and reproduction, and the distribution in lung tissue.
结果从病历环节质量控制发现,在病历形成过程中部分内容记录不完整,导致病历的价值不能充分体现。
Results Imcom plete records in some medical records, which decreased the value of medical records, were found by medical record link quality control.
肝纤维化是各种致病因素导致肝内结缔组织异常增生的肝内弥散性细胞外基质过度沉积的病理过程。
Hepatic fibrosis was caused by intrahepatic connective tissue dysplasia due to many pathological factors, Which was a massive diffuse ECM deposition pathological process in human body.
对太谷县的6处枣园的枣缩果病的发病过程及其致病因素进行专题研究。
The development and factors of jujube-fruit shrink disease in 6 jujube gardens in Taigu county were studied.
修订过程中,世界一些国家爆发了人感染高致病性禽流感。
Revision process, the world in some countries a person infected with the outbreak of highly pathogenic avian influenza.
以往认为慢性免疫缺陷病毒感染的致病机制是免疫损伤缓慢进行的过程。
The pathogenesis of chronic HIV-1 infection has long been considered as chronic process of immune damage.
在心肌缺血过程中,胞质钙累积介导致病性改变。
During myocardial ischemia, cytosolic calcium accumulation mediates pathogenic changes.
痰浊、瘀血、内毒既是代谢产物,又是致病因素,在代谢综合的发病全过程中起着重要的作用。
Phlegm, blood stasis and toxic metabolites of evil are not only metabolites, but also risk factors. They play important roles in the pathogenesis of metabolic syndrome.
因而,研究这种依赖小曩泡融合而形成成熟液泡的过程对于稻瘟菌附着孢的形成及其致病性的影响是十分重要的。
So, Vacuole formation in daughter cells through fusion of vesicles inheritance from mother cell is very important in maturing appressoria and effecting its infection ability.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
植物与病原菌相互作用的过程中涉及了许多信号分子的识别与传导,对病原菌而言,这些信号分子很有可能就是与植物受体蛋白起作用的激发子和其它致病因子。
The interaction involves a complex process of signal recognition and transduction, at which the signal molecules from plant fungal pathogens may be recognized as elicitors or virulence factors.
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