Author response: The induction of pyrenoid synthesis by hyperoxia and its implications for the natural diversity of photosynthetic responses in Chlamydomonas

Peter Neofotis,Nicole Norris,Eric Pollner,Barbara Sears,Joshua Temple,Melinda Frame,Oliver L Tessmer,Sarathi M Weraduwage,Alecia Withrow,David Hall,Jacob Bibik,Joseph Weissman,Greg Mogos,David M Kramer,Ben Lucker

doi:10.7554/elife.67565.sa2

Author response: The induction of pyrenoid synthesis by hyperoxia and its implications for the natural diversity of photosynthetic responses in Chlamydomonas

Peter Neofotis, Nicole Norris + Show 13 more

Open Access

https://doi.org/10.7554/elife.67565.sa2

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Publication Date: Sep 10, 2021
Citations: 5	License type: CC BY 4.0

Affiliation: Michigan State University, Department of Plant Biology, Great Lakes Bioenergy Research Center, ExxonMobil (United States)

#Hyperoxia Tolerance #Carbon-concentrating Mechanism + Show 8 more

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Abstract

In algae, it is well established that the pyrenoid, a component of the carbon-concentrating mechanism (CCM), is essential for efficient photosynthesis at low CO2. However, the signal that triggers the formation of the pyrenoid has remained elusive. Here, we show that, in Chlamydomonas reinhardtii, the pyrenoid is strongly induced by hyperoxia, even at high CO2 or bicarbonate levels. These results suggest that the pyrenoid can be induced by a common product of photosynthesis specific to low CO2 or hyperoxia. Consistent with this view, the photorespiratory by-product, H2O2, induced the pyrenoid, suggesting that it acts as a signal. Finally, we show evidence for linkages between genetic variations in hyperoxia tolerance, H2O2 signaling, and pyrenoid morphologies.

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