The main photoacoustic gas uptake signal reflects light-induced CO2-uptake associated with stroma alkalisation: New evidence based on carbonic-anhydrase-antisense transgenic tobacco plants

Heinz Reising; Holger Keß; G. Dean Price; Murray R. Badger; Ulrich Schreiber

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The main photoacoustic gas uptake signal reflects light-induced CO2-uptake associated with stroma alkalisation: New evidence based on carbonic-anhydrase-antisense transgenic tobacco plants

Plant and Cell Physiology (1998) 39(4) 462-445

DOI: 10.1093/oxfordjournals.pcp.a029392

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Abstract

The photoacoustic gas uptake signal correlates with carbonic anhydrase activity in transgenic tobacco plants, various levels of which were induced by antisense RNA [Price et al. (1994) Planta 193: 339]. This is taken as evidence that the uptake signal is caused by CO2-solubilisation upon light-driven stroma alkalisation rather than by O2-uptake.

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Reising, H., Keß, H., Price, G. D., Badger, M. R., & Schreiber, U. (1998). The main photoacoustic gas uptake signal reflects light-induced CO2-uptake associated with stroma alkalisation: New evidence based on carbonic-anhydrase-antisense transgenic tobacco plants. Plant and Cell Physiology, 39(4), 462–445. https://doi.org/10.1093/oxfordjournals.pcp.a029392

The main photoacoustic gas uptake signal reflects light-induced CO2-uptake associated with stroma alkalisation: New evidence based on carbonic-anhydrase-antisense transgenic tobacco plants

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