Recent Posts

Review: Strategies to improve photosynthesis

Photosynthesis is the process by which plants assimilate carbon by using light energy. However, with the solar energy conversion efficiency of many crop plants less than 1%, it is inefficient. Therefore, there is interest in manipulating photosynthesis for increased efficiency. Here, Croce et al. identifying…

Review: Chloroplast ion homeostasis

Healthy plants require access to several mineral nutrients, which are usually taken up in ionic form. The details of nutrient uptake, distribution, and function have been painstakingly revealed over several decades. In this excellent new Tansley Review, Kunz et al. provide an overview of ion homeostasis…

The enzyme that makes many algae brown

Cao and Bai et al. reveal a conserved enzyme that makes many algae appear brown as opposed to green typical of land plants. https://doi.org/10.1093/plcell/koad116 Graham Peers1, Martin Lohr2, Xiaobo Li3,4 1 Department of Biology, Colorado State University; Fort Collins, USA. 2 Institut für…

Special issue: Rubisco and its regulation

Rubisco (ribulose-1,5-bisphosphate carboxylase) catalyzes the fixation of atmospheric carbon from CO2 to molecules used for biosynthesis and energy production. Several studies have focused on understanding the nature, complexity, activity, and regulation of Rubisco due to its key role in the production…

Anchoring Membranes in Cyanobacteria

Ostermeier et al. introduce AncM, a new factor for structuring the photosynthetic membrane system in cyanobacteria. Plant Cell https://doi.org/10.1093/plcell/koab253 By Matthias Ostermeier, Steffen Heinz and Jörg Nickelsen at Molecular Plant Science at LMU Munich Background: Cyanobacteria are…

Chlamydomonas keeps the rhythm going

By Patrice Salomé, Department of Chemistry and Biochemistry, UCLA, Los Angeles, CA  Salomé and Merchant analyze hundreds of RNA-seq samples in the single-cell green alga and discover vast co-expression potential and surprising residual synchronized expression across samples derived from cultures…

A Light-Adapted Charge-Separated State for PSII

Sipka and coworkers show that the closed state of photosystem II holds a formerly unrecognized structural and functional plasticity and upon illumination assumes a light-adapted charge-separated state. [Plant Cell https://academic.oup.com/plcell/advance-article/doi/10.1093/plcell/koab008/6119330] By…

A close-up view of the thylakoids (eLIFE)

The thylakoid membranes inside the chloroplasts house the major protein complexes required for photosynthesis, including photosystems I and II (PSI/II), the b6f complex and ATP synthase. To optimize photosynthetic efficiency, the distribution and abundance of these complexes are dynamically regulated…

Awaking the sleeping carboxylase ($) (JACS)

One of the things I like most about synthetic biology is the “why not” attitude. This article by Bernhardsgrütter et al. is intriguing because rather than taking the standard “let’s fix Rubisco approach,” the authors started with a non-CO2 fixing enzyme and engineered it towards having carboxylase…

New Insights into Carboxysomes

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Despite its essential role in photosynthetic carbon fixation, ribulose 1,5 bisphosphate carboxylase/oxygenase (Rubisco) is a relatively inefficient enzyme, due in part to its inability to discriminate between CO2 and O2 as substrates. To suppress the oxygenase reaction and enhance the carboxylase activity…

BSD2 is a Rubisco specific assembly chaperone, forms intermediary hetero‐oligomeric complexes and is non‐limiting to growth in tobacco (Plant Cell Environ)

The rubisco holoenzyme is comprised of eight large subunits and eight small subunits (L8S8).  Several auxiliary proteins are required to correctly assemble the functional protein. In this manuscript, Conlan et al investigate the chaperone function of one of these proteins, BSD2, in tobacco. The authors…

What We're Reading: November 16th

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Photosynthesis Special Issue This week’s ‘What We’re Reading’ summarizes the latest papers from the field of photosynthesis research.  This includes a review on the discovery of the Calvin-Benson cycle by Tom Sharkey, and an Expert View on the relationship between nitrogen and photosynthesis…

Dark-Induced Leaf Senescence 


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Senescence in plants is a prelude to cell or organ death. The metabolites and macromolecules released during senescence are salvaged by the plant for use elsewhere. Generally, senescence occurs prior to programmed cell death (PCD), since the characteristic leaf yellowing can be reversed while PCD is…

Survival of the kleptoplasts (Front. Ecol. Evol.)

How chloroplasts remain viable inside of herbivorous sea slugs is a long-standing curiosity. Unlike corals, which host intact photosynthetic algae, sea slugs retain naked chloroplasts (which are then called kleptoplasts – stolen plastids), some of which remain viable for seveal weeks. Christa et al.…

Assembling a Nanomolecular Power Station

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The ATP synthase complex of chloroplasts is an elegant example of the union of structure and function at the molecular level (Junge and Nelson, 2015). This enzyme complex consists of an integral membrane CFo component that transports protons and an extrinsic CF1 component that synthesizes ATP (Hahn et…

New discovery on photosynthesis discovered

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9:07:18 | Editor: Marc Platthaus From Neue Erkenntnis zur Fotosynthese entdeckt Translated by Google. The conversion of carbon dioxide and sunlight into energy (or biomass) and oxygen: hardly any process is as crucial to life on earth as photosynthesis. Although the process has been studied extensively…

Biogenesis of thylakoid assembly in 3D

During seedling greening, chloroplasts are formed from proplastids. Liang and Zhu et al. used a combination of 3D electron tomography of cryo-fixed Arabidopsis cotyledons at various times after illumination to track their development. The fine structure images, accompanied by transcriptomic analysis…

Synthesis and assembly of the PSII core subunits

Plants have many proteins found in the light-harvesting complex, whereas cyanobacteria have only the high-light-inducible proteins (Hlips).  One-helix proteins (OHPs) are the plant homologs of Hlips, but their precise functions have been unclear. Hey and Grimm used genetic and biochemical approaches…

Review:  New insights into the cellular mechanisms of plant growth at elevated atmospheric carbon dioxide (Plant Cell Environ) $

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Elevated CO2 (eCO2) encourages plant growth through increased photosynthetic rates and lower stomatal conductance.  However, eCO2 also has knock-on effects on plant secondary metabolism, which can also affect plant growth.  In this review, Gamage et al explore these ‘post-photosynthetic’ effects…

Unexpected reversal of C3 versus C4 grass response to elevated carbon dioxide during a 20-year field experiment (Science) $

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It is widely accepted that the growth of C3 plants responds more to elevated CO2 (eCO2) than that of C4 plants, since photosynthesis in C3 plants is more limited by the current atmospheric CO2:O2 ratio due to the oxygenase activity of Rubisco.  This has been established empirically in short-term eCO2…

Measurement of gross photosynthesis, respiration in the light, and mesophyll conductance using H218O labeling (Plant Physiol)

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It is relatively simple to determine net O2 flux in leaves.  However, this data provides no information on the underlying processes responsible for this flux, namely gross oxygen production (GOP, water splitting), mitochondrial respiration in light, Rubisco oxygenation, and photorespiration.  In this…

Variable mesophyll conductance among soybean cultivars sets a tradeoff between photosynthesis and water-use-efficiency

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Boosting photosynthetic efficiency in crop species has long been a goal since efficiency of photosynthesis is a critical factor in crop yield. One strategy for improving photosynthetic rates is enhancing mesophyll conductance to carbon dioxide. Tomeo and  Rosenthal examined 12 cultivars of soybean (Glycine…