Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana

Sreedhar Nellaepalli; Sireesha Kodru; Agepati S. Raghavendra; Rajagopal Subramanyam

doi:10.1016/j.jphotobiol.2015.02.013

Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana

Sreedhar Nellaepalli, Sireesha Kodru, Agepati S. Raghavendra, Rajagopal Subramanyam

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Abstract

We investigated the mechanism involved in triggering state transitions at 40 C in Arabidopsis thaliana. Leaves (1-6 week old) exposed to 40 C exhibited state II transition indicating its role as one of the earliest stress responsive mechanism apart from regulation of light energy distribution between photosystem (PS)II and PSI. Post illumination transients (rise in F_o′) revealed that non-photochemical reduction of PQ pool at 40 C in dark is responsible for activation of STN7 kinase, consequently light harvesting complex (LHC)II phosphorylation leading to state II condition. Later, in pgr5 mutant, non-photochemical reduction of PQ pool was observed indicating the involvement of alternative electron transfer routes. In chlororespiratory mutant crr2-2, state II transition occurred signifying that the reduction of PQ pool is independent from NDH mediated cyclic electron transfer. Further, antimycin A inhibitor studies in wt and mutants revealed its inhibitory action on non-photochemical reduction of PQ pool affecting both LHCII phosphorylation and migration to PSI which leads to state I. Thus, our study showed that antimycin A sensitive pathway independent from PGR5 dependent cyclic electron transfer, is responsible for inducing non-photochemical reduction of PQ pool and state transitions at 40 C.

Original language	English
Article number	9950
Pages (from-to)	24-33
Number of pages	10
Journal	Journal of Photochemistry and Photobiology B: Biology
Volume	146
DOIs	https://doi.org/10.1016/j.jphotobiol.2015.02.013
Publication status	Published - May 2015

ASJC Scopus subject areas

Radiation
Radiological and Ultrasound Technology
Biophysics
Radiology Nuclear Medicine and imaging

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10.1016/j.jphotobiol.2015.02.013

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Nellaepalli, S., Kodru, S., Raghavendra, A. S., & Subramanyam, R. (2015). Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana. Journal of Photochemistry and Photobiology B: Biology, 146, 24-33. Article 9950. https://doi.org/10.1016/j.jphotobiol.2015.02.013

Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana. / Nellaepalli, Sreedhar; Kodru, Sireesha; Raghavendra, Agepati S. et al.
In: Journal of Photochemistry and Photobiology B: Biology, Vol. 146, 9950, 05.2015, p. 24-33.

Research output: Contribution to journal › Article › peer-review

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title = "Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana",

abstract = "We investigated the mechanism involved in triggering state transitions at 40 C in Arabidopsis thaliana. Leaves (1-6 week old) exposed to 40 C exhibited state II transition indicating its role as one of the earliest stress responsive mechanism apart from regulation of light energy distribution between photosystem (PS)II and PSI. Post illumination transients (rise in Fo′) revealed that non-photochemical reduction of PQ pool at 40 C in dark is responsible for activation of STN7 kinase, consequently light harvesting complex (LHC)II phosphorylation leading to state II condition. Later, in pgr5 mutant, non-photochemical reduction of PQ pool was observed indicating the involvement of alternative electron transfer routes. In chlororespiratory mutant crr2-2, state II transition occurred signifying that the reduction of PQ pool is independent from NDH mediated cyclic electron transfer. Further, antimycin A inhibitor studies in wt and mutants revealed its inhibitory action on non-photochemical reduction of PQ pool affecting both LHCII phosphorylation and migration to PSI which leads to state I. Thus, our study showed that antimycin A sensitive pathway independent from PGR5 dependent cyclic electron transfer, is responsible for inducing non-photochemical reduction of PQ pool and state transitions at 40 C.",

author = "Sreedhar Nellaepalli and Sireesha Kodru and Raghavendra, {Agepati S.} and Rajagopal Subramanyam",

note = "Funding Information: This work was supported by Department of Biotechnology (DBT) (BT/PR15132/BRB/10/909/2011), Council of Scientific and Industrial Research (No. 38 (1381)/14/EMR-II), India. Also, acknowledged the Department of Science and Technology (FIST) and DBT ( CREBB ) for funding to Department of Plant Sciences and School of Life Sciences, University of Hyderabad. We would like to acknowledge Dr. Dario Leister and Prof. Robert Carpentier, Plant Molecular Biology, Ludwig-Maximilians-Universitat, Munich, Germany; University of Quebect at Trois-rivieres, Canada, for kind gift of stn7 and pgr5 and crr2-2 mutant seeds. Also, we thank Dr. Craig Jolley, RIKEN Center for Developmental Biology, Japan and Dr. Balakumar Thangaraj, Arizona State University, USA for critical reading of the manuscript. SK and SN thank CSIR-UGC for providing JRF and SRF. We thank Prof. Reto J Strasser and Late. Prof. Prasanna Mohanty for providing Handy PEA instrument. Publisher Copyright: {\textcopyright} 2015 Elsevier B.V. All rights reserved.",

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doi = "10.1016/j.jphotobiol.2015.02.013",

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AU - Nellaepalli, Sreedhar

AU - Kodru, Sireesha

AU - Raghavendra, Agepati S.

AU - Subramanyam, Rajagopal

N1 - Funding Information: This work was supported by Department of Biotechnology (DBT) (BT/PR15132/BRB/10/909/2011), Council of Scientific and Industrial Research (No. 38 (1381)/14/EMR-II), India. Also, acknowledged the Department of Science and Technology (FIST) and DBT ( CREBB ) for funding to Department of Plant Sciences and School of Life Sciences, University of Hyderabad. We would like to acknowledge Dr. Dario Leister and Prof. Robert Carpentier, Plant Molecular Biology, Ludwig-Maximilians-Universitat, Munich, Germany; University of Quebect at Trois-rivieres, Canada, for kind gift of stn7 and pgr5 and crr2-2 mutant seeds. Also, we thank Dr. Craig Jolley, RIKEN Center for Developmental Biology, Japan and Dr. Balakumar Thangaraj, Arizona State University, USA for critical reading of the manuscript. SK and SN thank CSIR-UGC for providing JRF and SRF. We thank Prof. Reto J Strasser and Late. Prof. Prasanna Mohanty for providing Handy PEA instrument. Publisher Copyright: © 2015 Elsevier B.V. All rights reserved.

PY - 2015/5

Y1 - 2015/5

N2 - We investigated the mechanism involved in triggering state transitions at 40 C in Arabidopsis thaliana. Leaves (1-6 week old) exposed to 40 C exhibited state II transition indicating its role as one of the earliest stress responsive mechanism apart from regulation of light energy distribution between photosystem (PS)II and PSI. Post illumination transients (rise in Fo′) revealed that non-photochemical reduction of PQ pool at 40 C in dark is responsible for activation of STN7 kinase, consequently light harvesting complex (LHC)II phosphorylation leading to state II condition. Later, in pgr5 mutant, non-photochemical reduction of PQ pool was observed indicating the involvement of alternative electron transfer routes. In chlororespiratory mutant crr2-2, state II transition occurred signifying that the reduction of PQ pool is independent from NDH mediated cyclic electron transfer. Further, antimycin A inhibitor studies in wt and mutants revealed its inhibitory action on non-photochemical reduction of PQ pool affecting both LHCII phosphorylation and migration to PSI which leads to state I. Thus, our study showed that antimycin A sensitive pathway independent from PGR5 dependent cyclic electron transfer, is responsible for inducing non-photochemical reduction of PQ pool and state transitions at 40 C.

AB - We investigated the mechanism involved in triggering state transitions at 40 C in Arabidopsis thaliana. Leaves (1-6 week old) exposed to 40 C exhibited state II transition indicating its role as one of the earliest stress responsive mechanism apart from regulation of light energy distribution between photosystem (PS)II and PSI. Post illumination transients (rise in Fo′) revealed that non-photochemical reduction of PQ pool at 40 C in dark is responsible for activation of STN7 kinase, consequently light harvesting complex (LHC)II phosphorylation leading to state II condition. Later, in pgr5 mutant, non-photochemical reduction of PQ pool was observed indicating the involvement of alternative electron transfer routes. In chlororespiratory mutant crr2-2, state II transition occurred signifying that the reduction of PQ pool is independent from NDH mediated cyclic electron transfer. Further, antimycin A inhibitor studies in wt and mutants revealed its inhibitory action on non-photochemical reduction of PQ pool affecting both LHCII phosphorylation and migration to PSI which leads to state I. Thus, our study showed that antimycin A sensitive pathway independent from PGR5 dependent cyclic electron transfer, is responsible for inducing non-photochemical reduction of PQ pool and state transitions at 40 C.

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Antimycin A sensitive pathway independent from PGR5 cyclic electron transfer triggers non-photochemical reduction of PQ pool and state transitions in Arabidopsis thaliana

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