微绒毛活动的支撑骨架为微丝。
细胞骨架包括微丝、微管及中间丝。
Cytoskeleton includes microfilament, microtubule and intermediate filaments.
微丝是控制纺锤体旋转的关键因素;
Microfilaments play a crucial role in regulating spindle rotation.
树突肿胀、线粒体及神经微丝消失。
Dendrites were swelling, in which mitochondrion and neurofilament disappeared.
微丝和微管主要负责大多数细胞质移动。
Microsfilaments and microtubules are responsible for almost all major cytoplasmic movements.
微绒毛及伪足内的微丝是瘤细胞的运动骨架。
The microfilament in the microvilli and pseudopodia is the motion skeleton of cancer cells.
微绒毛及伪足内的微丝是其运动的骨架结构。
The microfilaments in the microvilli and pseudopodia are the skeleton of the movement.
细胞游离面部分微绒毛的微丝形成中心根并深入胞质。
The microfilaments of some microvilli formed core rootlets and entered into the cytoplasm.
本文还对调节微丝骨架的主要信号传递途径进行了综述。
We also described the main signaling pathways that regulate the microfilament cytoskeleton.
此三型卵圆细胞均有细胞内张力微丝和细胞间连接结构。
Intracellular tonofilaments and intercellular junctions were seen in all three types of oval cells.
VTA中神经微丝丰富,神经元、神经胶质细胞髓鞘变性。
Neuronal microfilament was abundant and myelinic degeneration of neuronal fibra was observed in nerve cell and neurogliocyte of VTA.
结果内皮细胞在损伤修复过程中伴随微丝特殊而有序的变化。
Results A specific sequential changes in microfilaments occourred during wound healing.
用荧光标记的微丝会结合到附着的肌球蛋白的马达结构域上。
Fluorescent actin filaments will bind to the motor domains of the attached myosins.
进一步研究微丝的构造及功能,对癌转移的研究是非常重要的。
Going further into the structure and function of the microfilaments is of great significance to the research in can...
细胞骨架大部分由微丝组成,微丝主要由可收缩的肌动蛋白组成。
A large portion of the cytoskeleton consists of threadlike microfilaments composed mainly of the contractile actin.
电镜观察到单核细胞内有微丝体、微棒状小体和空泡状发育期寄生物;
Under electron microscopy, microfilament bodies, microrhoptryand vacuolar parasitic organisms at developmental stage were observed in monocytes.
微丝骨架作为细胞骨架的一种,它在细胞的许多功能活动中起重要作用。
As one of the cytoskeletons, microfilament is important in many cell functions.
为了显示中央转轴的转动,曾有实验将一截短的荧光标记的微丝连于其上。
To show the rotation of the central shaft, a short fluorescent actin filament was experimentally attached to it.
是诊断丝虫感染的有效方法,可取代微丝蚴血检用于现场的人群丝虫病监测。
It is an effective method for the diagnosis of filarial infections and might be used for the field surveillance of filariasis instead of the conventional microscope examination of blood.
微丝蚴随血液循环,不同种属在临床症状上稍有不同,但是它们均由蚊子传播。
Here are microfilaria. These tiny worms circulate in the bloodstream. There are several species with slightly different clinical characteristics, but they are spread by mosquitos.
这个过程发生,当肌球蛋白附着在细胞器上,由细胞细胞上排列的微丝推动的时候。
The process occurs as myosin proteins attached to organelles push against microfilaments arrayed throughout the cell.
根据自然现象和文献资料,借用数学逻辑思维的方法分析刺激微丝蚴周期性的因素。
Objective:According to natural phenomena and references, to analyses factors which affect microfilarial periodicity by means of logical thought in mathematics.
目的研究抗聚角蛋白微丝蛋白抗体(AFA)在早期类风湿关节炎(RA)的意义。
Objective To study antifilaggrin antibody (AFA) in patients with early rheumatoid arthritis (RA).
供给ATP后,微丝开始旋转,这样就直接地证明了这部卓越的分子机器的机械性质。
When ATP is added, the filament starts spinning, directly demonstrating the mechanical property of this remarkable molecular machine.
裂解蛋白可以引起微丝的断裂而形成较短小的微丝并迅速解聚或者再聚合成新的微丝。
Severing proteins induce kinks in the filaments and led to the formation of short filaments that rapidly depolymerize or give rise to new filaments.
裂解蛋白可以引起微丝的断裂而形成较短小的微丝并迅速解聚或者再聚合成新的微丝。
The depolymerization of proteins may lead to fragments of filaments which form smaller filaments that depolymerize quickly or polymerize into new filaments.
微管微丝动力学试验证实,S47能抑制微管微丝的聚合,与长春新碱作用机理相同。
Microtubule dynamics test showed that S47 inhibited microtubule polymerization. Vincristine had a mechanism of action similar to that of S47.
本文探讨在外源性层粘连蛋白与抗癌药物顺铂的共同作用下,癌细胞内微丝组装的变化。
In this paper, we have studied the changes of F-actin assembly in ascitic liver cancer cells of mouse under the action of extrinsic laminin and cisplatin.
不同周期性应变对细胞微丝结构产生一定的影响,微丝在细胞感应力的响应中起重要作用。
The structure of cytoskeleton were effected by cyclic strain force, it play a important role in influence strain.
不同周期性应变对细胞微丝结构产生一定的影响,微丝在细胞感应力的响应中起重要作用。
The structure of cytoskeleton were effected by cyclic strain force, it play a important role in influence strain.
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