A possible molecular basis for photoprotection in the minor antenna proteins of plants

Kieran F. Fox; Caner Ünlü; Vytautas Balevičius; Baboo Narottamsing Ramdour; Carina Kern; Xiaowei Pan; Mei Li; Herbert van Amerongen; Christopher D.P. Duffy

doi:10.1016/j.bbabio.2018.03.015

A possible molecular basis for photoprotection in the minor antenna proteins of plants

Kieran F. Fox, Caner Ünlü, Vytautas Balevičius, Baboo Narottamsing Ramdour, Carina Kern, Xiaowei Pan, Mei Li, Herbert van Amerongen, Christopher D.P. Duffy^*

^*Bu çalışma için yazışmadan sorumlu yazar

Kimya Bölümü

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

25 Atıf (Scopus)

Özet

The bioenergetics of light-harvesting by photosynthetic antenna proteins in higher plants is well understood. However, investigation into the regulatory non-photochemical quenching (NPQ) mechanism, which dissipates excess energy in high light, has led to several conflicting models. It is generally accepted that the major photosystem II antenna protein, LHCII, is the site of NPQ, although the minor antenna complexes (CP24/26/29) are also proposed as alternative/additional NPQ sites. LHCII crystals were shown to exhibit the short excitation lifetime and several spectral signatures of the quenched state. Subsequent structure-based models showed that this quenching could be explained by slow energy trapping by the carotenoids, in line with one of the proposed models. Using Fluorescence Lifetime Imaging Microscopy (FLIM) we show that the crystal structure of CP29 corresponds to a strongly quenched conformation. Using a structure-based theoretical model we show that this quenching may be explained by the same slow, carotenoid-mediated quenching mechanism present in LHCII crystals.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	471-481
Sayfa sayısı	11
Dergi	Biochimica et Biophysica Acta - Bioenergetics
Hacim	1859
Basın numarası	7
DOI'lar	https://doi.org/10.1016/j.bbabio.2018.03.015
Yayın durumu	Yayınlandı - Tem 2018

Bibliyografik not

Publisher Copyright:
© 2018 Elsevier B.V.

Finansman

K. F. F., V.B. Jr., C. K., B. N. R. and C.D.P.D. acknowledge the support from the Leverhulme Trust RPG-2015-337. This research utilized Queen Mary's MidPlus computational facilities (EPSRC grant EP/K000128/1. X. P. and M. L. acknowledge the Key Research Program of Frontier Sciences of CAS (QYZDB-SSWSMC005) and National Natural Science Foundation of China (31170703). C. Ü. and H. van A. acknowledge financial support from the Netherlands Organization for Scientific Research via the Council for Chemical Sciences. K. F. F., V.B. Jr., C. K., B. N. R. and C.D.P.D. acknowledge the support from the Leverhulme Trust RPG-2015-337 . This research utilized Queen Mary's MidPlus computational facilities ( EPSRC grant EP/K000128/1 . X. P. and M. L. acknowledge the Key Research Program of Frontier Sciences of CAS ( QYZDB-SSWSMC005 ) and National Natural Science Foundation of China ( 31170703 ). C. Ü. and H. van A. acknowledge financial support from the Netherlands Organization for Scientific Research via the Council for Chemical Sciences .

Finansörler	Finansör numarası
Netherlands Organization for Scientific Research
University of Washington College of Arts and Sciences
Engineering and Physical Sciences Research Council	EP/K000128/1
Leverhulme Trust	RPG-2015-337
National Natural Science Foundation of China	31170703
Chinese Academy of Sciences	QYZDB-SSWSMC005

Belgeye Erişim

10.1016/j.bbabio.2018.03.015

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Link to publication in Scopus

Alıntı Yap

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title = "A possible molecular basis for photoprotection in the minor antenna proteins of plants",

abstract = "The bioenergetics of light-harvesting by photosynthetic antenna proteins in higher plants is well understood. However, investigation into the regulatory non-photochemical quenching (NPQ) mechanism, which dissipates excess energy in high light, has led to several conflicting models. It is generally accepted that the major photosystem II antenna protein, LHCII, is the site of NPQ, although the minor antenna complexes (CP24/26/29) are also proposed as alternative/additional NPQ sites. LHCII crystals were shown to exhibit the short excitation lifetime and several spectral signatures of the quenched state. Subsequent structure-based models showed that this quenching could be explained by slow energy trapping by the carotenoids, in line with one of the proposed models. Using Fluorescence Lifetime Imaging Microscopy (FLIM) we show that the crystal structure of CP29 corresponds to a strongly quenched conformation. Using a structure-based theoretical model we show that this quenching may be explained by the same slow, carotenoid-mediated quenching mechanism present in LHCII crystals.",

keywords = "Carotenoids, Light-harvesting, Minor antenna, Non-photochemical quenching, Photoprotection, Photosystem II",

author = "Fox, {Kieran F.} and Caner {\"U}nl{\"u} and Vytautas Balevi{\v c}ius and Ramdour, {Baboo Narottamsing} and Carina Kern and Xiaowei Pan and Mei Li and {van Amerongen}, Herbert and Duffy, {Christopher D.P.}",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier B.V.",

year = "2018",

month = jul,

doi = "10.1016/j.bbabio.2018.03.015",

language = "English",

volume = "1859",

pages = "471--481",

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AU - Fox, Kieran F.

AU - Ünlü, Caner

AU - Balevičius, Vytautas

AU - Ramdour, Baboo Narottamsing

AU - Kern, Carina

AU - Pan, Xiaowei

AU - Li, Mei

AU - van Amerongen, Herbert

AU - Duffy, Christopher D.P.

PY - 2018/7

Y1 - 2018/7

N2 - The bioenergetics of light-harvesting by photosynthetic antenna proteins in higher plants is well understood. However, investigation into the regulatory non-photochemical quenching (NPQ) mechanism, which dissipates excess energy in high light, has led to several conflicting models. It is generally accepted that the major photosystem II antenna protein, LHCII, is the site of NPQ, although the minor antenna complexes (CP24/26/29) are also proposed as alternative/additional NPQ sites. LHCII crystals were shown to exhibit the short excitation lifetime and several spectral signatures of the quenched state. Subsequent structure-based models showed that this quenching could be explained by slow energy trapping by the carotenoids, in line with one of the proposed models. Using Fluorescence Lifetime Imaging Microscopy (FLIM) we show that the crystal structure of CP29 corresponds to a strongly quenched conformation. Using a structure-based theoretical model we show that this quenching may be explained by the same slow, carotenoid-mediated quenching mechanism present in LHCII crystals.

AB - The bioenergetics of light-harvesting by photosynthetic antenna proteins in higher plants is well understood. However, investigation into the regulatory non-photochemical quenching (NPQ) mechanism, which dissipates excess energy in high light, has led to several conflicting models. It is generally accepted that the major photosystem II antenna protein, LHCII, is the site of NPQ, although the minor antenna complexes (CP24/26/29) are also proposed as alternative/additional NPQ sites. LHCII crystals were shown to exhibit the short excitation lifetime and several spectral signatures of the quenched state. Subsequent structure-based models showed that this quenching could be explained by slow energy trapping by the carotenoids, in line with one of the proposed models. Using Fluorescence Lifetime Imaging Microscopy (FLIM) we show that the crystal structure of CP29 corresponds to a strongly quenched conformation. Using a structure-based theoretical model we show that this quenching may be explained by the same slow, carotenoid-mediated quenching mechanism present in LHCII crystals.

KW - Carotenoids

KW - Light-harvesting

KW - Minor antenna

KW - Non-photochemical quenching

KW - Photoprotection

KW - Photosystem II

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M3 - Article

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AN - SCOPUS:85045459933

SN - 0005-2728

VL - 1859

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EP - 481

JO - Biochimica et Biophysica Acta - Bioenergetics

JF - Biochimica et Biophysica Acta - Bioenergetics

IS - 7

ER -

A possible molecular basis for photoprotection in the minor antenna proteins of plants

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