defense reaction

Effect of Different Molecular Weight Chitosan on Several Physiological and Biochemical Characteristics Related with Plant Defense Reaction

不同分子量壳聚糖对一些与植物防御反应相关生理生化指标的影响

Infection of white spot syndrome virus and defense reaction of penaeid shrimp

白斑综合征病毒感染与对虾的免疫防御反应

The Defense Reaction of Patients with Gynecological Cancer to Chemotherapy

妇科恶性肿瘤化疗时机体的保护性反应

Defensins was an important antimicrobial peptides generated by the organism during the defense reaction .

防御素（defensins）是生物体在抵御病原微生物的防御过程中产生的一类重要的抗菌肽类物质。

Conclusion Retroperitoneal chemotherapy ( RP ) can trigger the defense reaction of patients with gynecological cancer .

结论接受盆腔腹膜外化疗的妇科恶性肿瘤患者，盆腔局部淋巴结出现保护性反应，有利于最终彻底消灭癌细胞。

Recent studies suggest that GM-CSF correlate with alveolar macrophage function , lung host defense reaction and pulmonary surfactant homeostasis .

最近研究表明，粒细胞-巨噬细胞集落刺激因子（GM-CSF）与肺泡巨噬细胞功能、肺宿主防御反应、表面活性物质稳态有关。

Inflammation , both as a defense reaction and a pathological response of the body , often bring severe pathological damage to body tissues or organs .

炎症既作为机体的一种防御反应，也是极为普遍的病理反应，许多炎症性疾病常常给机体组织或器官带来严重的病理损伤。

Making certain that how the defense reaction in the level of invasion of the pathogen , and interadaptation between ticks and bacteria .

从生物化学水平分析蜱媒对该病原体入侵的防御反应，并分析蜱媒与病原体间的相互适应结果。

On the other hand , ROS acts as a signal molecule to participate defense reaction , cell death and regulation of expression of resistant genes to plant pathogens infection .

另一方面，ROS作为信号物质参与植物对病菌侵染的防御反应、细胞死亡和抗病基因表达的调控等。

RNA silencing is a natural antiviral defense reaction in plants , and RNA silencing suppressors coded by most plant viruses can overcome the host defense reactions .

RNA沉默是植物体内固有的一种抗病毒防卫反应，而大多数植物病毒编码的RNA沉默抑制子可以克服这种寄主的防卫反应。

[ Background ] Inflammation is defined as the defense reaction of organism to injury , which is a pathological process including damage and resistance to damage . Macrophage plays an important role in inflammation .

[研究背景]炎症是机体对有害刺激因素的防御性反应，是损伤与抗损伤并存的病理过程，其中巨噬细胞在炎症反应中发挥重要作用。

The phenoloxidase in crustacean is activated by the invading microbes , and is involved in the defense reaction , thus having certain relation with the immune condition of the animals .

甲壳动物酚氧化酶在入侵微生物的刺激下被激活，参与机体的防御反应，因此与机体的免疫状态有一定的相关。

Destruction of the cell ultrastructure of resistant varieties was lighter , a series of significant structural defense reaction produced in : the host cells : there was sediments in the cell wall and black granular sediment showed in the vacuolar membrane .

而抗病品种细胞超微结构破坏较轻，寄主细胞产生一系列显著的结构防卫反应：形成细胞壁沉积物及液泡膜上显示出黑色颗粒状沉积物等。

It is now being evident that NO is also a ubiquitous signal molecule in plant kingdom . It was proved to participate in many key physiological processes such as growth , development , pathogen defense reaction , programmed cell death , and stress tolerance .

在植物体内NO也是一种广泛存在的信号分子，参与调节了许多重要的生理过程如生长、发育、抗病防御反应、细胞程序性死亡和抗逆反应。

Even though NO research in plants is not as advanced as in animals , in the last decade No was proved to participate in many key plant physiological process such as growth , development , pathogen defense reaction , programmed cell death , and stress tolerance .

尽管一氧化氮研究在植物方面开始较晚，但最近10年已经证明NO参与了许多重要的植物生理过程，如生长、发育、病原体防御反应、程序性细胞死亡和胁迫抗性等。

They can be classified into as follow categories according to their putativefunctions : regulatory protein , transcription factor , protein biosynthesis , protein folding , assembly , proteolysis , defense reaction , energy metabolism , cytoskeleton , retrotransposon , metabolism , and unknown protein .

根据蛋白质的功能可以把他们划分为调控蛋白，转录因子，蛋白质合成，蛋白质折叠、装配、降解，防卫反应，能量代谢，细胞骨架，逆转录转座子，代谢酶，以及未知功能的蛋白质。

Research on the DDoS Defense and Reaction Techniques

DDoS防御与反应技术研究

A suntan , she explained , was a defense skin reaction to produce more of the pigment melanin to protect itself from too much harmful ultraviolet ( U ) radiation .

她解释说晒黑是皮肤的一种防御反应，皮肤为了保护自己免受过多的有害的紫外线的照射产生更多的黑色素。

Host defense include nonspecific inflammatory reaction and specific immune response ( included that humoral immunity , cell immunity and complement system ) .

宿主的防御过程分为非特异性的炎症反应和特异性的免疫应答反应（包括体液免疫、细胞免疫和补体系统）。