Oleosin expression and trafficking during oil body biogenesis in tobacco leaf cells.

Abstract

We have established a versatile method for studying the interaction of the oleosin gene product with oil bodies during oil body biogenesis in plants. Our approach has been to transiently express a green fluorescent protein (GFP)-tagged Arabidopsis oleosin gene fusion in tobacco leaf cells containing bona fide oil bodies and then to monitor oleosin-GFP expression using real-time confocal laser scanning microscopy. We show that normally non-oil-storing tobacco leaf cells are able to synthesize and then transport oleosin-GFP fusion protein to leaf oil bodies. Synthesis and transport of oleosin-GFP fusion protein to oil bodies occurred within the first 6 h posttransformation. Oleosin-GFP fusion protein exclusively associated with the endoplasmic reticulum and was trafficked in a Golgi-independent manner at speeds approaching 0.5 microm sec(-1) along highly dynamic endoplasmic reticulum positioned over essentially static polygonal cortical endoplasmic reticulum. Our data indicate that oil body biogenesis can occur outside of the embryo and that oleosin-GFP can be used to monitor early events in oil body biogenesis in real-time.