叶绿体外被膜中存在的一种氨基酸选择性通道蛋白的分离与鉴定。
Isolation and characterization of an amino acid-selective channel protein present in the chloroplastic outer envelope membrane.
作者信息
Pohlmeyer K, Soll J, Steinkamp T, Hinnah S, Wagner R
机构信息
Botanisches Institut, Universität Kiel, D-24098 Kiel, Germany.
出版信息
Proc Natl Acad Sci U S A. 1997 Aug 19;94(17):9504-9. doi: 10.1073/pnas.94.17.9504.
Abstract
The reconstituted pea chloroplastic outer envelope protein of 16 kDa (OEP16) forms a slightly cation-selective, high-conductance channel with a conductance of Lambda = 1,2 nS (in 1 M KCl). The open probability of OEP16 channel is highest at 0 mV (Popen = 0.8), decreasing exponentially with higher potentials. Transport studies using reconstituted recombinant OEP16 protein show that the OEP16 channel is selective for amino acids but excludes triosephosphates or uncharged sugars. Crosslinking indicates that OEP16 forms a homodimer in the membrane. According to its primary sequence and predicted secondary structure, OEP16 shows neither sequence nor structural homologies to classical porins. The results indicate that the intermembrane space between the two envelope membranes might not be as freely accessible as previously thought.
摘要
重组后的16 kDa豌豆叶绿体外膜蛋白(OEP16)形成了一个具有轻微阳离子选择性的高电导通道,其电导为λ = 1.2 nS(在1 M KCl中)。OEP16通道的开放概率在0 mV时最高(Popen = 0.8),随着电位升高呈指数下降。使用重组重组OEP16蛋白进行的转运研究表明,OEP16通道对氨基酸具有选择性,但排除磷酸丙糖或不带电荷的糖。交联表明OEP16在膜中形成同型二聚体。根据其一级序列和预测的二级结构,OEP16与经典孔蛋白既无序列同源性也无结构同源性。结果表明,两个包膜膜之间的膜间隙可能不像以前认为的那样易于自由进入。
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