Journal
PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES
Volume 10, Issue 1, Pages 19-24Publisher
SPRINGERNATURE
DOI: 10.1039/c0pp00221f
Keywords
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Funding
- Nencki Institute of Experimental Biology in Warsaw
- Polish Network for Visualization of Biomedical Events (BioImaging)
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The coloured ciliate Blepharisma japonicum changes swimming velocity (positive photokinesis) and elongates its body in response to a prolonged illumination. We have recently proposed that alterations in the phosphorylation level of the ciliate phosducin (Pdc) may be involved in light-induced cell elongation, which in turn affects the interaction of beta gamma-dimer of G-proteins (G beta gamma) with beta-tubulin and subsequent cytoskeletal remodelling. The cellular mechanism that governs the photokinetic effect in this ciliate has not been elucidated. In the present study, we utilise real-time PCR to demonstrate that the levels of ciliate Pdc mRNA are significantly reduced in Pdc-RNAi-treated cells compared to cells fed with bacteria carrying the empty vector (control cells). Using western immunoblotting, we confirmed that these cells treated with Pdc-RNAi expressed a substantially lower level of the Pdc protein. The assay also revealed that in ciliates treated with Pdc-RNAi and exposed to light, the cytosolic level of G beta (similar to 36 kDa) was reduced, whereas the level of G beta localized to the membrane (similar to 32 kDa) was increased compared to control cells. In addition, behavioural analysis of the cells indicated a substantial reduction of photokinesis. The findings in this study provide additional characterization of the functional properties of the ciliate Pdc protein and we discuss a likely role for this phosphoprotein in the photokinetic phenomenon of the ciliate protist Blepharisma.
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