欧洲鳗鲡(Anguilla anguilla (L.))视杆视蛋白基因表达的转换
Switch in rod opsin gene expression in the European eel, Anguilla anguilla (L.).
作者信息
Hope A J, Partridge J C, Hayes P K
机构信息
School of Biological Sciences, University of Bristol, UK.
出版信息
Proc Biol Sci. 1998 May 22;265(1399):869-74. doi: 10.1098/rspb.1998.0372.
Abstract
The rod photoreceptors of the European eel, Anguilla anguilla (L.), alter their wavelength of maximum sensitivity (lambda max) from c.a. 523 nm to c.a. 482 nm at maturation, a switch involving the synthesis of a new visual pigment protein (opsin) that is inserted into the outer segments of existing rods. We artificially induced the switch in rod opsin production by the administration of hormones, and monitored the switch at the level of mRNA accumulation using radiolabelled oligonuleotides that hybridized differently to the two forms of eel rod opsin. The production of the deep-sea form of rod opsin was detected 6 h after the first hormone injection, and the switch in rod opsin expression was complete within four weeks, at which time only the mRNA for the deep-sea opsin was detectable in the retinal cells. It is suggested that this system could be used as a tractable model for studying the regulatory control of opsin gene expression.
摘要
欧洲鳗鲡(Anguilla anguilla,L.)的视杆光感受器在成熟时,其最大敏感波长(λmax)从约523纳米改变为约482纳米,这种转变涉及一种新的视觉色素蛋白(视蛋白)的合成,该视蛋白被插入到现有视杆的外段中。我们通过激素给药人工诱导视杆视蛋白产生的转变,并使用与两种形式的鳗鲡视杆视蛋白杂交方式不同的放射性标记寡核苷酸,在mRNA积累水平监测这种转变。在首次注射激素6小时后检测到深海形式视杆视蛋白的产生,视杆视蛋白表达的转变在四周内完成,此时在视网膜细胞中只能检测到深海视蛋白的mRNA。有人提出,这个系统可以用作研究视蛋白基因表达调控控制的一个易于处理的模型。
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