English translation for "膜转运"

membrane transport general concepts
membrane transport, general concepts

Related Translations:

特异转运:  unitransport

转运蛋白:  translocatortransport protein

转运港:  port of transhipmentport of transshipmenttranshipment port

转运业:  forwarding business

转运体:  abc transportersabcnissert

准许转运:  tra hipment to be allowedtranshipment to be allowed

蛋白质转运:  protein transporttranslocation of a protein

无限制转运:  unlimited transhipment {= ut; u.t

转运代理转运代理人:  forwarding agent

转运时间:  t/t time of transhipment

Example Sentences:

	1.	Intracellular delivery of cdte quantum dots conjugated with polypeptide tat 量子点共价偶联后的跨膜转运
	2.	Membrane transporters : na ca2 exchangers 膜转运剂
	3.	Genetic association between polymorphism of claudin 5 transmembrane protein gene and schizophrenia 膜转运蛋白基因单核苷酸多态性与精神分裂症
	4.	Transporting of ions across plasma membrane is an important process of nutrient acquisition for plant not only at cell level but also at tissue and organ levels 摘要养分离子的跨膜转运是细胞获取养分的重要环节，亦是植物在组织和器官水平上进行养分吸收运移的基础。
	5.	Fluid absorption and secretion across the reproductive tract epithelia largely depends on electrolyte transport through the apically and basolaterally located ion channels , working together with an array of other transporters 位于生殖道上皮细胞顶膜或基底膜的一系列离子通道和转运体，通过对水、电解质的跨膜转运，从而调节雌性生殖道内液体的分泌与吸收。
	6.	However , in fact , nsltps are extracellular proteins , so there is yet no direct demonstration of an in vivo function . despite their implication in these diverse aspects of plant biology , it is not clear which specific role nsltps play here , because in a given plant , several nsltp genes can be found , and they are often specifically expressed in both time and tissue . also individual nsltp genes are induced under a variety of conditions 目前认为nsltp是定位在细胞壁中的一类蛋白质，没有直接的证据表明它能体内跨膜转运脂类物质，尽管猜测它可能参与多种生理过程，但对于其具体的生物学功能仍不清楚；另外，由于nsltp在不同组织和不同发育阶段的特异性表达以及各个nsltp之间是否存在功能上的互补都为准确确定其功能增加了难度。
	7.	Abstract : plant responses to salt stress via a complex mechanism , including sensing and transducing the stress signal , activating the transcription factors and the corresponding metabolizing genes . since the whole mechanism is still unclear , this review emphasize the biochemical events during the plant adaptation to salt stress referring to an index of importance : the homeostasis in cytoplasm , the biosynthesis of osmolytes and the transport of water . most of these biochemical events were elucidated by study of halophyte and salt - sensitive mutations , also many important genes involved were cloned and used to generate stress - tolerance phenotypes in transgenic plants . on the other hand , about the molecular mechanism in signal transduction , the research of arabidopsis mutations and yeast functional complementation provided helpful traces but not full pathway 摘要植物对盐胁迫的耐受反应是个复杂的过程,在分子水平上它包括对外界盐信号的感应和传递,特异转录因子的激活和下游控制生理生化应答的效应基因的表达.在生化应答中,本文着重讨论负责维持和重建离子平衡的膜转运蛋白、渗调剂的生物合成和功能及水分控制.这些生理生化应答最终使得液泡中离子浓度升高和渗调剂在胞质中积累.近年来,通过对各种盐生植物或盐敏感突变株的研究,阐明了许多盐应答的离子转运途径、水通道和物种特异的渗调剂代谢途径,克隆了其相关基因并能在转基因淡水植物中产生耐盐表型;另一方面,在拟南芥突变体及利用酵母盐敏感突变株功能互补筛选得到一些编码信号传递蛋白的基因,这些都有助于阐明植物盐胁迫应答的分子机制。

Similar Words：

"膜中毒" English translation, "膜中筛骨" English translation, "膜重建" English translation, "膜周室间隔缺损" English translation, "膜转位" English translation, "膜转运蛋白" English translation, "膜转运剂" English translation, "膜转运修饰剂" English translation, "膜状的" English translation, "膜状沸腾" English translation