1.
The role of actin filaments was disused in this paper.
本文讨论了肌动蛋白微丝骨架在细胞融合过程中的作用。
2.
Effect of ischemia-reperfusion on bile canalicular F-actin microfilaments in rat liver
大鼠肝脏缺血再灌注对胆小管纤维形肌动蛋白微丝的影响
3.
Global or filament actin was visualized in cytoplasm and nucleus of tobacco pollen mother cells, under immunoelectron microscope.
免疫电镜观察发现,花粉母细胞中的细胞质及核中存在线状和粒状的肌动蛋白微丝。
4.
filamentous actin
(纤)丝状肌动蛋白
5.
Any of the ultramicroscopic filaments, made up of actin and myosin, that are the structural units of a myofibril.
肌丝一种极微小的细丝,由肌动朊和肌球蛋白组成,是肌原纤维的结构单位
6.
Studies on Function of Microfilaments and Actin mRNA during the Development of Callus;
微丝及肌动蛋白mRNA在棉花愈伤组织发育过程中作用的研究
7.
Effects of Exposure to Electromagnetic Pulse on the Expression of the Skeleton F-actin in Vascular Endothelial Cell
电磁脉冲对血管内皮细胞骨架微丝聚合肽肌动蛋白表达的影响
8.
Studies on the Composition of Plasmodesmata--Immuno-gold Labeling of Actin and Myosin;
胞间连丝组分的研究——肌动蛋白和肌球蛋白的免疫金标记
9.
Identification of Interaction between HSPC300/hHBRK1 and Myosin Ⅵ
微丝相关蛋白HSPC300/hHBRK1与肌球蛋白Ⅵ相互作用的鉴定
10.
capping protein
[肌动蛋白]加帽蛋白
11.
The Effect of Myosin Light Chain Kinase on Phosphorylated Myosin ATPase Activity and the Velocity of Actin Filaments in Myosin Molecular by in Vitro Motility;
MLCK对磷酸化肌球蛋白ATP酶活性及体外肌丝运动的影响
12.
Primary Study the Expression of F-actin Ralated Protein hHBrk1 in Tumor and the Interaction with Myosin Ⅵ;
微丝相关蛋白hHBrk1在肿瘤组织中的表达及其与肌球蛋白Ⅵ相互作用的初步研究
13.
Effects of Soy Hydrolyzed Peptides Supplementation on Immunostaining of Intermediate Filaments;
补充活性肽对大鼠运动后骨骼肌中间丝蛋白免疫染色的影响
14.
Effects of fluid shear stress and cytoskeletal disruption on the actin cytoskeleton
流体剪切力和细胞骨架阻断对肌动蛋白丝的影响
15.
Tropomyosin adds structural rigidity to the thin filament.
原肌球蛋白增加细丝的结构刚性。
16.
Differential Analysis of Membrane Proteins Expressed in Two Morphologic Filaments and Preliminary Study of Actin-like Protein in Spirulina Platensis
钝顶螺旋藻两种藻丝体的差异膜蛋白分析及肌动蛋白类似物的初步研究
17.
Silk Protein: Balance absorption and smooth skin.
丝蛋白:加强肌肤水份平衡及吸收,使肌肤柔软。
18.
Studies on Ultrastructure Damage and Actin Expression in Cultured Primary Cardiomyocytes Irradiated by High Power Microwave
高功率微波辐照对原代培养心肌细胞超微结构及肌动蛋白表达的影响