绿藻类中运动性反应的光感受器是视紫红质。
The photoreceptor for motility responses in Chlorophyceae is rhodopsin.
对细菌视紫红质中质子泵出分子机理进行了描述。
This paper mainly described molecular mechanism of proton pumping out from bacteriorhodopsin.
蓝莓及山桑子供应紫光的视紫红质的滋养和激活视锥杆。
Blueberry and bilberry supply visual purple which nourishes rhodopsin which activates cones and rods.
视觉的产生是感光色素——视紫红质发生光化学反应的结果。
Vision is resulted in the reaction of visual purple that is a pigment of sensitization.
如果这种做法是成功它可以很快转化为第一个治疗视紫红质反相。
If this approach is successful it could soon be translated as one of the first treatments for rhodopsin RP.
不管是什么原因,能够进行能量转换的视紫红质本身就十分有意义。
Whatever the cause, the energy conversion that rhodopsin brings about is also of interest.
结果表明,光照后,各给药组的视紫红质水平均比对照组显著性地增高。
It was demonstrated that the rhodopsin levels of all given drugs groups were significantly higher than those of control groups.
细菌视紫红质在结构上与视紫红质的相似性使其具有某些视觉响应特性。
Because of the structural similarity to rhodopsin, bacteriorhodopsin is characterized by some visual response properties.
叶绿素、胡萝卜素、视紫红质和黑素是用动植物制成的用作特殊用途的颜料。
Chlorophyll, carotene, rhodopsin, and melanin are pigments produced by plants and animals for specialized purposes.
这一新项目的目的是继续临床前开发这些潜在的治疗视网膜色素变性视紫红质。
This new project aims to continue the pre-clinical development of these potential treatments for rhodopsin retinitis pigmentosa.
结果显示,光受体,称为视紫红质,在蓝和紫外光下最活跃,促使黑色素在几秒内产生。
Results revealed that the light receptors, called rhodopsin, became most active under blue and UV light, prompting melanin production within seconds.
所说的蛋白质就是细菌视紫红质(bR),即一种分子,当它吸收了光线以后,就会发生结构变化。
The protein in question is bacteriorhodopsin (bR), a molecule that undergoes a structural change when it absorbs light.
绿茶可以被人体吸收提供维生素a,而维生素a有助于合成视紫红质,视紫红质可以帮助减少辐射。
As green tea can be assimilated by the body easily into a form of vitamin a, which is later synthesised into a substance called rhodopsin, it helps reducing radiation.
为了研究分析嗜盐古生菌物种与细菌视紫红质(BR)蛋白基因资源,分离纯化得到极端嗜盐古生菌ab3。
In order to study and analyze the species and bacteriorhodopsin (BR) protein resource, a strain of extremely halophilic archaea AB3 was isolated.
观察到了微秒量级的快速光开关现象,并分析了激发光脉冲作用结束时,各中间态上细菌视紫红质分子的分布。
Microsecond optical switch is observed and BR molecule distributing of different intermediate is analyzed when the exciting pulse is over.
遗传突变的视紫红质,光传感蛋白的燃料棒细胞,单是最常见的一种形式的反相和大多数这些突变导致蛋白质错误折叠。
Inherited mutations in rhodopsin, the light sensing protein of rods cells, are the single most common cause of one form of RP and the majority of these mutations cause protein misfolding.
维生素A是构成视觉细胞中感受弱光的视紫红质的组成成分,视紫红质是由视蛋白和11-顺-视黄醛组成,与暗视觉有关。
Vitamin A is to create visual cells in order to feel weak light of the composition of rhodopsin, rhodopsin from opsin and 11 - cis - retinal composition, with the dark vision related.
这个基因的蛋白质编码协助维生素a转换成一种被视网膜感觉细胞(视杆细胞和视锥细胞)用来产生视紫红质的物质,而视紫红质是一种能吸光的色素。
The protein encoded by the gene helps convert vitamin a into a form used by the retina's light-sensing cells (rods and cones) to make rhodopsin, a pigment that absorbs light.
这个基因的蛋白质编码协助维生素a转换成一种被视网膜感觉细胞(视杆细胞和视锥细胞)用来产生视紫红质的物质,而视紫红质是一种能吸光的色素。
The protein encoded by the gene helps convert vitamin a into a form used by the retina's light-sensing cells (rods and cones) to make rhodopsin, a pigment that absorbs light.
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