Photorespiration is an inevitable trait of all oxygenic phototrophs, being the only known metabolic route that converts the inhibitory side-product of Rubisco's oxygenase activity 2-phosphoglycolate (2PG) back into the Calvin–Benson (CB) cycle's intermediate 3-phosphoglycerate (3PGA). Through this function of metabolite repair, photorespiration is able to protect photosynthetic carbon assimilation from the metabolite intoxication that would occur in the present-day oxygen-rich atmosphere. In recent years, much plant research has provided compelling evidence that photorespiration safeguards photosynthesis and engages in cross-talk with a number of subcellular processes. Moreover, the potential of manipulating photorespiration to increase the photosynthetic yield potential has been demonstrated in several plant species. Considering this multifaceted role, it is tempting to presume photorespiration itself is subject to a suite of regulation mechanisms to eventually exert a regulatory impact on other processes, and vice versa. The identification of potential pathway interactions and underlying regulatory aspects has been facilitated via analysis of the photorespiratory mutant phenotype, accompanied by the emergence of advanced omics’ techniques and biochemical approaches. In this mini-review, I focus on the identification of enzymatic steps which control the photorespiratory flux, as well as levels of transcriptional, posttranslational, and metabolic regulation. Most importantly, glycine decarboxylase (GDC) and 2PG are identified as being key photorespiratory determinants capable of controlling photorespiratory flux and communicating with other branches of plant primary metabolism.
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Cover Image
The plasma membrane of lymphocytes is highly compartmentalized in so-called nanodomains or protein islands. Proteins such as Caveolin-1 (pink), tetraspanins (blue) or flotillins (violet) define these protein islands and thereby regulate the functioning of the immune system. In this issue (see pages 2387–2397), Schaffer and Minguet discuss the importance of these protein islands regarding lymphocyte activation and the development of immunopathologies. This cover artwork has been created by Susana Minguet.
The impact of photorespiration on plant primary metabolism through metabolic and redox regulation
Stefan Timm; The impact of photorespiration on plant primary metabolism through metabolic and redox regulation. Biochem Soc Trans 18 December 2020; 48 (6): 2495–2504. doi: https://doi.org/10.1042/BST20200055
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