Re‐evaluating the energy balance of the many routes of carbon flow through and from photorespiration

Author:

Walker Berkley12ORCID,Schmiege Stephanie C.34ORCID,Sharkey Thomas D.135ORCID

Affiliation:

1. MSU‐DOE Plant Research Laboratory Michigan State University East Lansing Michigan USA

2. Department of Plant Biology Michigan State University East Lansing Michigan USA

3. Plant Resilience Institute Michigan State University East Lansing Michigan USA

4. Department of Biology Western University London Ontario Canada

5. Department of Biochemistry and Molecular Biology Michigan State University East Lansing Michigan USA

Abstract

AbstractPhotorespiration is an essential process related to photosynthesis that is initiated following the oxygenation reaction catalyzed by rubisco, the initial enzyme of the Calvin–Benson–Bassham cycle. This reaction produces an inhibitory intermediate that is recycled back into the Calvin–Benson–Bassham cycle by photorespiration which requires the use of energy and the release of a portion of the carbon as CO2. The energy use and CO2 release of canonical photorespiration form a foundation for biochemical models used to describe and predict leaf carbon exchange and energy use (ATP and NAPDH). The ATP and NADPH demand of canonical photorespiration is thought to be different than that of the Calvin–Benson–Bassham cycle, requiring increased flexibility in the ratio of ATP and NADPH from the light reactions. Photorespiration requires many reactions across the chloroplasts, mitochondria and peroxisomes and involves many intermediates. Growing evidence indicates that these intermediates do not all stay in photorespiration as typically assumed and instead feed into other aspects of metabolism and leave as glycine, serine, and methylene‐THF. Here we discuss how alternative flux through and from canonical photorespiration alters the ATP and NADPH requirements of metabolism following rubisco oxygenation using additional derivations of biochemical models of leaf photosynthesis and energetics. Using these new derivations, we determine that the ATP and NADPH demands of photorespiration are highly sensitive to alternative flux in ways that fundamentally changes how photorespiration contributes to the ratio of total ATP and NADPH demand. Specifically, alternative flows of carbon through photorespiration could reduce ATP and NADPH demand ratio to values below what is produced from linear electron transport.

Funder

U.S. Department of Energy

Publisher

Wiley

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