Abstract
The molecular composition of chloroplast outer and inner envelope translocons is fairly well established, but little is known about mechanisms and elements involved in import regulation. After synthesis in the cytosol, chloroplast targeted precursor proteins are recognized by outer envelope receptors Toc34 and Toc159. Phosphorylation plays an important role in regulation of Toc34 activity and preprotein binding. Using kinase renaturation assays, we have identified an ATP-dependent 98-kDa outer envelope kinase which is able to selectively phosphorylate Toc34 at a specific site. A 70-kDa outer envelope polypeptide phosphorylating Toc159 was identified by the same strategy. Antiserum against the 98-kDa kinase inhibits phosphorylation of Toc34, whereas labeling of Toc159 remains unaffected. Both kinases do not autophosphorylate in vitro and are unable to utilize myelin basic protein as substrate. We propose that distinct kinases are involved in regulation of chloroplast import via desensitization of preprotein receptors.
Highlights
During evolution, chloroplasts have transferred the majority of their genes to the nucleus [1]
Preprotein Receptor Toc159 Is a Phosphoprotein—Certain proteins contained within chloroplast outer envelope membranes can be phosphorylated by endogenous kinase(s) in vitro
The 34-kDa phosphoprotein has recently been identified as the preprotein import receptor Toc34
Summary
Chloroplasts have transferred the majority of their genes to the nucleus [1]. We have identified an ATP-dependent 98kDa outer envelope kinase which is able to selectively phosphorylate Toc34 at a specific site. Complex phosphorylation pattern of outer envelope polypeptides and requirements for both ATP and GTP implicated the existence of multiple protein kinases associated with this membrane.
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