Chloroplasts extend stromules independently and in response to internal redox signals

Brunkard, Jacob O.; Runkel, Anne M.; Zambryski, Patricia

doi:10.1073/pnas.1511570112

Cited by 146 publications

(160 citation statements)

References 40 publications

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“…Considering that a significant proportion of plastidial polyprenols also reside in the chloroplast envelope, it is tempting to speculate that these compounds also influence envelope dynamics, in much the same way as their thylakoid counterparts. Processes that are critically altered by any change in envelope fluidity, such as plastid division (Osteryoung and Nunnari, 2003), metabolite exchange (Mehrshahi et al, 2013), or the sporadic extension and retraction of stroma filled tubules known as stromules (Schattat et al, 2012;Mathur et al, 2013;Brunkard et al, 2015), would conceivably be affected by the abundance of polyprenols. The latter process is particularly relevant in this context as it has long been speculated that stromule formation, for which the mechanism is unknown, requires modulation of plastid envelope membrane architecture (Thomson and Whatley, 1980;Kwok and Hanson, 2004).…”

Section: Discussionmentioning

confidence: 99%

Polyprenols Are Synthesized by a Plastidial cis-Prenyltransferase and Influence Photosynthetic Performance

et al. 2017

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Plants accumulate a family of hydrophobic polymers known as polyprenols, yet how they are synthesized, where they reside in the cell, and what role they serve is largely unknown. Using Arabidopsis thaliana as a model, we present evidence for the involvement of a plastidial cis-prenyltransferase (AtCPT7) in polyprenol synthesis. Gene inactivation and RNAi-mediated knockdown of AtCPT7 eliminated leaf polyprenols, while its overexpression increased their content. Complementation tests in the polyprenol-deficient yeast Δrer2 mutant and enzyme assays with recombinant AtCPT7 confirmed that the enzyme synthesizes polyprenols of ;55 carbons in length using geranylgeranyl diphosphate (GGPP) and isopentenyl diphosphate as substrates. Immunodetection and in vivo localization of AtCPT7 fluorescent protein fusions showed that AtCPT7 resides in the stroma of mesophyll chloroplasts. The enzymatic products of AtCPT7 accumulate in thylakoid membranes, and in their absence, thylakoids adopt an increasingly "fluid membrane" state. Chlorophyll fluorescence measurements from the leaves of polyprenol-deficient plants revealed impaired photosystem II operating efficiency, and their thylakoids exhibited a decreased rate of electron transport. These results establish that (1) plastidial AtCPT7 extends the length of GGPP to ;55 carbons, which then accumulate in thylakoid membranes; and (2) these polyprenols influence photosynthetic performance through their modulation of thylakoid membrane dynamics.

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Section: Discussionmentioning

confidence: 99%

Polyprenols Are Synthesized by a Plastidial cis-Prenyltransferase and Influence Photosynthetic Performance

et al. 2017

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“…Interestingly, stromule formation was shown to depend on NADPH-dependent TRX reductase C, and silencing its expression doubled the rate of stromule formation. Isolated chloroplasts were able to form stromules, suggesting that stromules intrinsically emerge independent of cytosolic factors (Brunkard et al, 2015), but their emergence might be supported by interaction with microtubules (Kwok and Hanson, 2003). In addition to light and direct changes in redox state, which mimic abiotic stress conditions, stromule formation responds to temperature (Holzinger et al, 2007) and abscisic acid .…”

Section: Reverse Coupling Of Redox Signaling To the Chloroplastmentioning

confidence: 99%

“…Their exact function remains elusive (Natesan et al, 2005). Recently, Brunkard et al (2015) demonstrated that in chloroplasts and leucoplasts, stromules form more frequently in the light than in darkness. Moreover, inhibitors of PET rapidly increase the frequency of stromule formation in chloroplasts, suggesting that redox plays a role in controlling stromule formation.…”

Section: Reverse Coupling Of Redox Signaling To the Chloroplastmentioning

confidence: 99%

Redox- and Reactive Oxygen Species-Dependent Signaling into and out of the Photosynthesizing Chloroplast

Türkan²,

2016

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Photosynthesis is a high-rate redox metabolic process that is subjected to rapid changes in input parameters, particularly light. Rapid transients of photon capture, electron fluxes, and redox potentials during photosynthesis cause reactive oxygen species (ROS) to be released, including singlet oxygen, superoxide anion radicals, and hydrogen peroxide. Thus, the photosynthesizing chloroplast functions as a conditional source of important redox and ROS information, which is exploited to tune processes both inside the chloroplast and, following retrograde release or processing, in the cytosol and nucleus. Analyses of mutants and comparative transcriptome profiling have led to the identification of these processes and associated players and have allowed the specificity and generality of response patterns to be defined. The release of ROS and oxidation products, envelope permeabilization (for larger molecules), and metabolic interference with mitochondria and peroxisomes produce an intricate ROS and redox signature, which controls acclimation processes. This photosynthesis-related ROS and redox information feeds into various pathways (e.g. the mitogen-activated protein kinase and OXI1 signaling pathways) and controls processes such as gene expression and translation.

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“…For instance, it has been suggested that chloroplasts extend stroma filled tubules called stromules in response to internal ROS accumulation following inhibition of the electron transport chain (pETC; Brunkard et al, 2015) and other plastids respond to increased sugar levels in a cell . Similarly, the rapid fission of tubular mitochondria increases their population in a cell in response to high cytosolic sugar content, high ROS levels and light stimuli (Yoshinaga et al, 2005;Yu et al, 2006Yu et al, , 2008Jhun et al, 2013;Jaipargas et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

Molecular Mechanisms and Physiological Significance of Organelle Interactions and Cooperation

2017

Frontiers Research Topics

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Chloroplasts extend stromules independently and in response to internal redox signals

Cited by 146 publications

References 40 publications

Polyprenols Are Synthesized by a Plastidial cis-Prenyltransferase and Influence Photosynthetic Performance

Polyprenols Are Synthesized by a Plastidial cis-Prenyltransferase and Influence Photosynthetic Performance

Redox- and Reactive Oxygen Species-Dependent Signaling into and out of the Photosynthesizing Chloroplast

Molecular Mechanisms and Physiological Significance of Organelle Interactions and Cooperation

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