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Abstract
E. coliβ-glucuronidase, a cytosolic enzyme, was found not to be a good reporter enzyme for secretion studies in plants. In this study, we chose to test and adapt an animal β-glucuronidase as a better reporter protein for the secretory pathway of plants. We modified rat β-glucuronidase to obtain secreted and vacuolar variants. Five different C-termini were produced: the original C-terminus of the rat enzyme, a 19 codon deletion (Δ19), a 15 codon deletion (Δ15) and fusions of the Δ19 or Δ15 termini with the last 6 or 7 codons of the vacuolar sorting determinant of tobacco chitinase A, respectively. The signal sequence of the rat β-glucuronidase polypeptide was replaced by the sequence encoding the signal peptide of tobacco chitinase A. In a transient expression system, the best enzymatic activity was found with β-glucuronidase having the 15 codons deletion, therefore Δ15 (secRGUS) and Δ15 + Chi (RGUS-Chi) were further evaluated and their efficiency of secretion or vacuolar targeting were tested under different conditions. To determine the correct targeting of reporter genes, we compared the localization of β-glucuronidase and of an endogenous marker, α-mannosidase. Treating cells with drugs that specifically affect different aspects of the secretory pathway also tested the validity of RGUS-based reporters. A non-specific inhibitor such as cytochalasin D and a wide range inhibitor such as BFA were compared with specific inhibitors such as wortmannin and bafilomycin A1. Finally, monensin and NH4Cl were used to evaluate the role of vacuolar pH in correct RGUS-Chi targeting. The two new reporter proteins proved to be good tools for our studies in the transient expression system in tobacco protoplasts and for further applications.
Acknowledgements
This work was supported by the Swiss National Science Foundation, grants 31-037434.93 and 31-46926.96, and also in part (10%) by the FP6 EU project funding MTKD-CT-2004-509253. Initial support by Thomas Boller and Maciej Pietrzak (University of Basel and Friedrich-Miescher Institute, Basel, Switzerland) is gratefully acknowledged.