Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

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Sinkins, W.G. et al.

The COOH-terminal domain of Drosophila TRP channels confers thapsigargin sensitivity.

Previous studies have shown that the Drosophila cation channels designated Trp and Trpl can be functionally expressed in Sf9 insect cells using baculovirus expression vectors. The trp gene encodes a Ca2+-permeable channel that is activated by thapsigargin, blocked by low micromolar Gd3+, and is relatively selective for Ca2+ versus Na+ and Ba2+. In contrast, trpl encodes a Ca2+-permeable cation channel that is constitutively active, not affected by thapsigargin, blocked by high micromolar Gd3+, and non-selective with respect to Ca2+, Na+, and Ba2+. The region of lowest sequence identity between Trp and Trpl occurs in the COOH-terminal domain. To test the hypothesis that this region is responsible for the differential sensitivity of these channels to thapsigargin, chimeric constructs of Trp and Trpl were created in which the COOH-terminal tail region of each protein was exchanged. The Trp construct with the Trpl COOH-tail was constitutively active, insensitive to thapsigargin, but retained selectivity for Ca2+ over Na+ and Ba2+. In contrast, the Trpl construct with the Trp COOH-tail was not constitutively active, could be activated by thapsigargin, but remained non-selective with respect to Ca2+, Ba2+, and Na+. These results suggest that the COOH-terminal domain of Trpl plays an important role in determining constitutive activity, whereas the COOH-terminal region of Trp contains the structural features necessary for activation by thapsigargin.[1]

References

The COOH-terminal domain of Drosophila TRP channels confers thapsigargin sensitivity. Sinkins, W.G., Vaca, L., Hu, Y., Kunze, D.L., Schilling, W.P. J. Biol. Chem. (1996) [Pubmed]

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