The ancestral symbiont sensor kinase CSK links photosynthesis with gene expression in chloroplasts

Puthiyaveetil, Sujith; Kavanagh, Tony A.; Cain, Peter; Sullivan, Jerome L.; Newell, C. A.; Gray, John C.; Robinson, Colin; Giezen, Mark van der; Rogers, Matthew B.; Allen, John F.

doi:10.1073/pnas.0803928105

Cited by 145 publications

(181 citation statements)

References 38 publications

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“…The fact that the decline of STN7 under state 1 conditions occurred as in the wild type in the stn8 mutant suggests that the STN8 kinase is probably not involved in STN7 phosphorylation. Similar conclusion can be reached for the CSK kinase (Puthiyaveetil et al, 2008) from the observation that in its absence the decrease of STN7 still Figure 5. The decrease of STN7 under state 1 conditions is blocked in the STN7-4D lines.…”

Section: Discussionsupporting

confidence: 70%

The Phosphorylation Status of the Chloroplast Protein Kinase STN7 of Arabidopsis Affects Its Turnover

et al. 2011

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The chloroplast serine-threonine protein kinase STN7 of Arabidopsis (Arabidopsis thaliana) is required for the phosphorylation of the light-harvesting system of photosystem II and for state transitions, a process that allows the photosynthetic machinery to balance the light excitation energy between photosystem II and photosystem I and thereby to optimize the photosynthetic yield. Because the STN7 protein kinase of Arabidopsis is known to be phosphorylated at four serine-threonine residues, we have changed these residues by site-directed mutagenesis to alanine (STN7-4A) or aspartic acid (STN7-4D) to assess the role of these phosphorylation events. The corresponding mutants were still able to phosphorylate the light-harvesting system of photosystem II and to perform state transitions. Moreover, we noticed a marked decrease in the level of the STN7 kinase in the wild-type strain under prolonged state 1 conditions that no longer occurs in the STN7-4D mutant. The results suggest a possible role of phosphorylation of the STN7 kinase in regulating its turnover.

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Section: Discussionsupporting

confidence: 70%

The Phosphorylation Status of the Chloroplast Protein Kinase STN7 of Arabidopsis Affects Its Turnover

et al. 2011

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“…Other chloroplast protein kinases have been identified and characterized, including the casein kinase CKII (involved in the control of chloroplast gene expression [56]), the CSK kinase (which has also been proposed to control gene expression through redox control [57] although the evidence is still sparse) and the TAK1 kinase [58,59] (which has been proposed to phosphorylate LHCII). Unfortunately, no further studies have been performed with this kinase.…”

Section: Discussionmentioning

confidence: 99%

“…The PPH1 and the PBCP phosphatases act as the counterparts of the Stt7/STN7 and Stl1/STN8 kinases, respectively [53][54][55]. The kinases CK2a and CSK act on the chloroplast gene expression system and may be redox-controlled [56,57]. TAK1 has been proposed to be involved in LHCII phosphorylation but its precise role remains to be determined [58,59].…”

Section: Phosphatases Involved In Thylakoid Protein Dephosphorylationmentioning

confidence: 99%

Protein kinases and phosphatases involved in the acclimation of the photosynthetic apparatus to a changing light environment

Rochaix

Lemeille

Shapiguzov

et al. 2012

Phil. Trans. R. Soc. B

113

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Photosynthetic organisms are subjected to frequent changes in light quality and quantity and need to respond accordingly. These acclimatory processes are mediated to a large extent through thylakoid protein phosphorylation. Recently, two major thylakoid protein kinases have been identified and characterized. The Stt7/STN7 kinase is mainly involved in the phosphorylation of the LHCII antenna proteins and is required for state transitions. It is firmly associated with the cytochrome b 6 f complex, and its activity is regulated by the redox state of the plastoquinone pool. The other kinase, Stl1/STN8, is responsible for the phosphorylation of the PSII core proteins. Using a reverse genetics approach, we have recently identified the chloroplast PPH1/TAP38 and PBPC protein phosphatases, which counteract the activity of STN7 and STN8 kinases, respectively. They belong to the PP2C-type phosphatase family and are conserved in land plants and algae. The picture that emerges from these studies is that of a complex regulatory network of chloroplast protein kinases and phosphatases that is involved in light acclimation, in maintenance of the plastoquinone redox poise under fluctuating light and in the adjustment to metabolic needs.

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“…One branch concerns chloroplast gene expression (chloroplast branch) and is responsible for the transcriptional regulation of PSI-related genes, such as the psaAB operon. The chloroplast sensor kinase (CSK) (Puthiyaveetil et al, 2008), reported to regulate the transcription of psaAB operon, might be a component of the chloroplast branch. A second branch might be responsible for the regulation of the accumulation of products of nuclear photosynthesis-related genes (nucleus-cytosol branch).…”

Section: Discussionmentioning

confidence: 99%

“…Our analyses allowed to exclude the TSP9 protein as a possible component of the LTR signaling pathway. A possible candidate might be the chloroplast sensor kinase, shown to couple the redox state of the PQ pool with the expression of chloroplast photosynthesisrelated genes (Puthiyaveetil et al, 2008;Figure 12). In the future, phosphoproteomic studies of chloroplast proteins, comparing wild-type and stn7-1 mutant plants, exposed to light conditions favoring PSI or PSII complexes, appears to be the strategy of choice to identify as yet unknown proteins that, upon phosphorylation, might relay the signal to other regions of the chloroplast and to the nucleus.…”

Section: Discussionmentioning

confidence: 99%

ArabidopsisSTN7 Kinase Provides a Link between Short- and Long-Term Photosynthetic Acclimation

et al. 2009

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Flowering plants control energy allocation to their photosystems in response to light quality changes. This includes the phosphorylation and migration of light-harvesting complex II (LHCII) proteins (state transitions or short-term response) as well as long-term alterations in thylakoid composition (long-term response or LTR). Both responses require the thylakoid protein kinase STN7. Here, we show that the signaling pathways triggering state transitions and LTR diverge at, or immediately downstream from, STN7. Both responses require STN7 activity that can be regulated according to the plastoquinone pool redox state. However, LTR signaling does not involve LHCII phosphorylation or any other state transition step. State transitions appear to play a prominent role in flowering plants, and the ability to perform state transitions becomes critical for photosynthesis in Arabidopsis thaliana mutants that are impaired in thylakoid electron transport but retain a functional LTR. Our data imply that STN7-dependent phosphorylation of an as yet unknown thylakoid protein triggers LTR signaling events, whereby an involvement of the TSP9 protein in the signaling pathway could be excluded. The LTR signaling events then ultimately regulate in chloroplasts the expression of photosynthesis-related genes on the transcript level, whereas expression of nuclear-encoded proteins is regulated at multiple levels, as indicated by transcript and protein profiling in LTR mutants.

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The ancestral symbiont sensor kinase CSK links photosynthesis with gene expression in chloroplasts

Cited by 145 publications

References 38 publications

The Phosphorylation Status of the Chloroplast Protein Kinase STN7 of Arabidopsis Affects Its Turnover

The Phosphorylation Status of the Chloroplast Protein Kinase STN7 of Arabidopsis Affects Its Turnover

Protein kinases and phosphatases involved in the acclimation of the photosynthetic apparatus to a changing light environment

ArabidopsisSTN7 Kinase Provides a Link between Short- and Long-Term Photosynthetic Acclimation

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