An interconnected plastidom inAcetabularia: Implications for the mechanism of chloroplast motility

Abstract

In the unicellular green algaAcetabularia, the vital fluorochrome 3,3′-dihexyloxacarbocyanine (DiOC6) readily accumulates in chloroplasts and mitochondria at low concentrations, suboptimal for the visualization of the endoplasmic reticulum (ER). These organelles align along motility tracks and partially obscure each other, resulting in the loss of image information in conventional fluorescence microscopy. However, superior imaging of organelles was achieved by confocal laser scanning microscopy, which was particularly evident in areas where mitochondrial profiles overlap with chloroplasts. In addition to the tubular mitochondria, a new type of tubular membrane profiles was discovered inAcetabularia which connects the chloroplasts with each other. These tubules may either form short bridges or may stretch over hundreds of micrometers before connecting to the next chloroplast. Because staining intensity, size and overall shape of mitochondria and the connecting membrane tubules were very similar, pharmacological treatments have been applied to differentiate more clearly between the two compartments. Inhibitors of mitochondrial function are shown here to affect mitochondrial shape but not that of the chloroplast tubules. Finally, electron microscopic analysis of thin sectioned materials revealed long tubular emanations from the chloroplasts proving their plastidal origin. The function of these hitherto unknown plastidal membrane tubules is not known, but their behaviour suggests that they interact with the cytoskeleton and effectively modify chloroplast behaviour.