Chloroplast-mediated regulation of CO
 2
 -concentrating mechanism by Ca
 2+
 -binding protein CAS in the green alga
 Chlamydomonas reinhardtii

Wang, Lianyong; Yamano, Takashi; Takane, Shunsuke; Niikawa, Yuki; Toyokawa, Chihana; Ozawa, Shinichiro; Tokutsu, Ryutaro; Takahashi, Yuichiro; Minagawa, Jun; Kanesaki, Yu; Yoshikawa, Hideki; Fukuzawa, Hideya

doi:10.1073/pnas.1606519113

Cited by 76 publications

(74 citation statements)

References 45 publications

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“…Under very low CO 2 conditions, the LCIB/LCIC complex, whose role is still uncertain (Jin et al, 2016), is known to form puncta around the pyrenoid periphery (Yamano et al, 2010). Recently, a Ca 2+ -binding protein, CAS, has been shown to specifically localize to the pyrenoid tubules at low CO 2 (Wang et al, 2016). Here, we identify seven additional pyrenoid-localized components and three previously un-described sub-pyrenoid localization patterns (Figure 4B–D).…”

Section: Resultsmentioning

confidence: 99%

“…Recent work has shown that Ca 2+ signalling is key for proper regulation of the CCM, with the Ca 2+ -binding protein CAS1 transcriptionally regulating HLA3 and other components (Wang et al, 2016). One HCIP of HLA3 is an EF-hand-containing Ca 2+ /calmodulin-dependent protein kinase (Cre13.g571700), which could potentially regulate HLA3 post-translationally.…”

Section: Resultsmentioning

confidence: 99%

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A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

Mackinder

Chen

Leib

et al. 2017

Cell

267

362

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SUMMARY Approximately one-third of global CO2 fixation is performed by eukaryotic algae. Nearly all algae enhance their carbon assimilation by operating a CO2-concentrating mechanism (CCM) built around an organelle called the pyrenoid, whose protein composition is largely unknown. Here, we developed tools in the model alga Chlamydomonas reinhardtii to determine the localizations of 135 candidate CCM proteins, and physical interactors of 38 of these proteins. Our data reveal the identity of 89 pyrenoid proteins, including Rubisco-interacting proteins, photosystem I assembly factor candidates and inorganic carbon flux components. We identify three previously un-described protein layers of the pyrenoid: a plate-like layer, a mesh layer and a punctate layer. We find that the carbonic anhydrase CAH6 is in the flagella, not in the stroma that surrounds the pyrenoid as in current models. These results provide an overview of proteins operating in the eukaryotic algal CCM, a key process that drives global carbon fixation.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

Mackinder

Chen

Leib

et al. 2017

Cell

267

362

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“…In Arabidopsis, CAS crucially functions in the generation of cytosolic and stromal Ca 2+ transients as well as in the modulation of MAPK signaling (Guo et al, 2016). Moreover, it is involved in photo-acclimation in Chlamydomonas reinhardtii by contributing to the control of expression of LHCSR3 and to the expression of proteins related to the carbon-concentrating mechanism (Petroutsos et al, 2011;Wang et al, 2016b). Also the activity of the cyclic electron flow (CEF) is modulated via CAS and the availability of Ca 2+ in C. reinhardtii and in Arabidopsis (Terashima et al, 2012;Takahashi et al, 2013;Strand et al, 2015).…”

Section: Ca 2+ Signaling In Mitochondria and Chloroplastsmentioning

confidence: 99%

Advances and current challenges in calcium signaling

et al. 2018

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Content Summary414I.Introduction415II.Ca2+ importer and exporter in plants415III.The Ca2+ decoding toolkit in plants415IV.Mechanisms of Ca2+ signal decoding417V.Immediate Ca2+ signaling in the regulation of ion transport418VI.Ca2+ signal integration into long‐term ABA responses419VIIIntegration of Ca2+ and hormone signaling through dynamic complex modulation of the CCaMK/CYCLOPS complex420VIIICa2+ signaling in mitochondria and chloroplasts422IXA view beyond recent advances in Ca2+ imaging423XModeling approaches in Ca2+ signaling424XIConclusions: Ca2+ signaling a still young blooming field of plant research424Acknowledgements425ORCID425References425 Summary Temporally and spatially defined changes in Ca2+ concentration in distinct compartments of cells represent a universal information code in plants. Recently, it has become evident that Ca2+ signals not only govern intracellular regulation but also appear to contribute to long distance or even organismic signal propagation and physiological response regulation. Ca2+ signals are shaped by an intimate interplay of channels and transporters, and during past years important contributing individual components have been identified and characterized. Ca2+ signals are translated by an elaborate toolkit of Ca2+‐binding proteins, many of which function as Ca2+ sensors, into defined downstream responses. Intriguing progress has been achieved in identifying specific modules that interconnect Ca2+ decoding proteins and protein kinases with downstream target effectors, and in characterizing molecular details of these processes. In this review, we reflect on recent major advances in our understanding of Ca2+ signaling and cover emerging concepts and existing open questions that should be informative also for scientists that are currently entering this field of ever‐increasing breath and impact.

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“…Actually, PsbP is considered to be evolutionarily recruited as a replacement of Cc 550 in the photosynthetic green lineage, playing a similar role stabilizing the binding of Ca 2+ , and thus increasing PSII affinity for this ion (Frazão et al , Roncel et al ). Moreover, a Ca 2+ ‐binding protein (CAS) has been also recently shown to specifically localize into the intrapyrenoid thylakoids of C. reinhardtii (Wang et al ). Thus, the presence of Cc 550 in the pyrenoid of P. tricornutum could be related to its role as a calcium‐binding stabilizing protein.…”

Section: Resultsmentioning

confidence: 99%

The singular properties of photosynthetic cytochrome c₅₅₀ from the diatom Phaeodactylum tricornutum suggest new alternative functions

Bernal‐Bayard

Álvarez

Calvo

et al. 2019

Physiologia Plantarum

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Cytochrome c550 is an extrinsic component in the luminal side of photosystem II (PSII) in cyanobacteria, as well as in eukaryotic algae from the red photosynthetic lineage including, among others, diatoms. We have established that cytochrome c550 from the diatom Phaeodactylum tricornutum can be obtained as a complete protein from the membrane fraction of the alga, although a C‐terminal truncated form is purified from the soluble fractions of this diatom as well as from other eukaryotic algae. Eukaryotic cytochromes c550 show distinctive electrostatic features as compared with cyanobacterial cytochrome c550. In addition, co‐immunoseparation and mass spectrometry experiments, as well as immunoelectron microscopy analyses, indicate that although cytochrome c550 from P. tricornutum is mainly located in the thylakoid domain of the chloroplast – where it interacts with PSII – , it can also be found in the chloroplast pyrenoid, related with proteins linked to the CO2 concentrating mechanism and assimilation. These results thus suggest new alternative functions of this heme protein in eukaryotes.

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Chloroplast-mediated regulation of CO ₂ -concentrating mechanism by Ca ²⁺ -binding protein CAS in the green alga Chlamydomonas reinhardtii

Cited by 76 publications

References 45 publications

A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

Advances and current challenges in calcium signaling

The singular properties of photosynthetic cytochrome c₅₅₀ from the diatom Phaeodactylum tricornutum suggest new alternative functions

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Chloroplast-mediated regulation of CO 2 -concentrating mechanism by Ca 2+ -binding protein CAS in the green alga Chlamydomonas reinhardtii

Cited by 76 publications

References 45 publications

A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

A Spatial Interactome Reveals the Protein Organization of the Algal CO2-Concentrating Mechanism

Advances and current challenges in calcium signaling

The singular properties of photosynthetic cytochrome c550 from the diatom Phaeodactylum tricornutum suggest new alternative functions

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Chloroplast-mediated regulation of CO ₂ -concentrating mechanism by Ca ²⁺ -binding protein CAS in the green alga Chlamydomonas reinhardtii

The singular properties of photosynthetic cytochrome c₅₅₀ from the diatom Phaeodactylum tricornutum suggest new alternative functions