【摘 要】
:
When plant primary roots grow along a tilted surface that is impenetrable,they can undergo a slanted devi ation from the direction of gravity called skewing.Skewing is induced by touch stimuli the roo
【机 构】
:
Key Laboratory of Biorheological Science and Technology,Ministry of Education,College of Bioengineer
【出 处】
:
第十一届全国生物力学学术会议暨第十三届全国生物流变学学术会议
论文部分内容阅读
When plant primary roots grow along a tilted surface that is impenetrable,they can undergo a slanted devi ation from the direction of gravity called skewing.Skewing is induced by touch stimuli the roots experience as they grow along the surface.Touch stimuli also induce the release of extracellular ATP (eATP) into plants ex tracellular matrix,and two apyrases (NTPDases) in Arabidopsis,APY1 and APY2,can help regulate the con centration of eATP.Despite these previous studies on the functions of APY1 and APY2,the general importance of these enzymes in the response of plant roots to stimuli is not well understood.
其他文献
目的:研究外源性应力刺激是否调控间充质干细胞的成软骨分化,探讨MEK/EER1/2和p38 MAPK信号通路在大鼠BMSCs成软骨分化过程中的力学转导机制.方法:采用细胞因子诱导大鼠BMSCs成软骨分化,在其分化的第7d进行延迟应力加载,加载方式为周期性动态静水压;采用RT-PCR,Western Blot,免组织化学,免疫荧光等技术研究MEK/ERK和p38 MAPK在成软骨分化过程中的力学转导
Backgrounds and Aims:Vascular stiffness is increased during aging or development of cardiovas cular diseases,which accompanied with the excessive proliferation of vascular smooth muscle cells(VSMC).Co
目的:整合素作为一种很重要的细胞黏附分子,属于跨膜蛋白;其对信号转导至关重要.预测整合素相互作用是生物信息学中一个重要的部分,对探索生命活动有着举足轻重的作用.结构域是蛋白质的结构和功能区域,在蛋白质相互作用中有着重要作用.近年来,已出现多种从结构域层面预测蛋白质间相互作用的方法,这些方法大多从蛋白质对入手,或统计某一对蛋白质对应的结构域对中能相互作用的概率,或利用大量的蛋白质结构信息找出某一对蛋
Objective:The endothelial glycocalyx plays important roles in endothelial mechanotransducton of shear stress,endothelial cell (EC) proliferation response,maintain the normal endothelial barrier,and ce
Breast cancer has a high incidence rate in the world and is becoming a leading cause of death in female pa tients due to its high metastatic ability.High expression of Notch-1 and Jagged-1,the ligand
Objective:The contractility of uterus was tightly controlled during pregnancy,otherwise preterm labor will occur.Ion channels are effectively involved in this regulating process.Among which,the L-type
Bone marrow-derived mesenchymal stem cells (BMSCs) for repairing damaged heart tissue are a new kind of treatment options because of their potential to differentiate into cardiomyocytes.Previous studi
Objective:The migration inhibition of macrophage is the core event in the development of atherosclerosis.But the mechanisms remain elusive.Oxidized low density lipoprotein (oxLDL) is one of the main f
细胞力学微环境在生物体组织(皮肤、骨、肌腱、心肌等)内具有十分重要的作用.因此在体外构建细胞三维力学微环境具有重要意义.现有在体外构建细胞力学微环境的方法多是在二维的单层细胞层面(拉伸、流体剪切力等),但二维微环境与在体三维细胞微环境相差很大,难以获得在体的响应结果.再者,现有的方法多是低通量的,且多采用大尺度(毫米以上)的材料作为细胞载体,因而阻碍细胞所需营养物质的有效扩散,导致细胞在材料中无法
目的:虽然人工心脏已经成为临床改善心衰患者血流动力学状态的主要手段,但是其产生的血栓是影响患者预后的重要原因.研究表明,主动脉内血流动力学特性是影响微栓运动的重要原因,然而人工心脏辅助对主动脉内血栓运动规律的影响尚不明确.针对此问题,将离散相理论与有限元方法相结合,研究人工心脏吻合口位置对主动脉内血栓运动特性的影响规律.方法:基于CT图像数据重建心衰患者主动脉弓以及其三根分叉的真实几何模型,在此基