Plants response to light stress

Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chlorop...

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Published inJournal of genetics and genomics Vol. 49; no. 8; pp. 735 - 747
Main Authors Shi, Yafei, Ke, Xiangsheng, Yang, Xiaoxia, Liu, Yuhan, Hou, Xin
Format Journal Article
LanguageEnglish
Published China Elsevier Ltd 01.08.2022
Subjects
abiotic stress
acclimation
anthocyanins
chloroplasts
electron transfer
Fluctuating light
genomics
High light
light intensity
Light stress
photoinhibition
Photorepair
Photosynthesis
photosystem II
reactive oxygen species
signal transduction
solar energy
stomatal movement
thermal energy
transcription (genetics)
High light
Fluctuating light
Photosynthesis
Photorepair
Light stress
Online AccessGet full text
ISSN1673-8527
DOI10.1016/j.jgg.2022.04.017

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Abstract Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chloroplasts to whole cells and from locally stressed tissues to the rest of the plant body. These signals trigger a variety of physiological and biochemical reactions intended to mitigate the deleterious effects of high light intensity, such as photodamage and photoinhibition. Light stress protection mechanisms include chloroplastic Reactive oxygen species (ROS) scavenging, chloroplast and stomatal movement, and anthocyanin production. Photosynthetic apparatuses, being the direct targets of photodamage, have also developed various acclimation processes such as thermal energy dissipation through nonphotochemical quenching (NPQ), photorepair of Photosystem II (PSII), and transcriptional regulation of photosynthetic proteins. Fluctuating light is another mild but persistent type of light stress in nature, which unfortunately has been poorly investigated. Current studies, however, suggest that state transitions and cyclic electron transport are the main adaptive mechanisms for mediating fluctuating light stress in plants. Here, we review the current breadth of knowledge regarding physiological and biochemical responses to both high light stress and fluctuating light stress.
AbstractList Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chloroplasts to whole cells and from locally stressed tissues to the rest of the plant body. These signals trigger a variety of physiological and biochemical reactions intended to mitigate the deleterious effects of high light intensity, such as photodamage and photoinhibition. Light stress protection mechanisms include chloroplastic Reactive oxygen species (ROS) scavenging, chloroplast and stomatal movement, and anthocyanin production. Photosynthetic apparatuses, being the direct targets of photodamage, have also developed various acclimation processes such as thermal energy dissipation through nonphotochemical quenching (NPQ), photorepair of Photosystem II (PSII), and transcriptional regulation of photosynthetic proteins. Fluctuating light is another mild but persistent type of light stress in nature, which unfortunately has been poorly investigated. Current studies, however, suggest that state transitions and cyclic electron transport are the main adaptive mechanisms for mediating fluctuating light stress in plants. Here, we review the current breadth of knowledge regarding physiological and biochemical responses to both high light stress and fluctuating light stress.
Plants require solar energy to grow through oxygenic photosynthesis. However, when light intensity exceeds the optimal range for photosynthesis it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chloroplasts to whole cells and from locally stressed tissues to the rest of the plant body. These signals trigger a variety of physiological and biochemical reactions intended to mitigate the deleterious effects of high light intensity such as photodamage and photoinhibition. Light stress protection mechanisms include chloroplastic Reactive Oxygen Species (ROS) scavenging, chloroplast and stomatal movement, and anthocyanin production. Photosynthetic apparatuses, being the direct targets of photodamage, have also developed various acclimation processes such as thermal energy dissipation through Non-Photochemical Quenching (NPQ), photorepair of Photosystem II (PSII), and transcriptional regulation of photosynthetic proteins. Fluctuating light is another mild but persistent type of light stress in nature, which has unfortunately been poorly investigated. Current studies suggest however that state transitions and cyclic electron transport are the main adaptive mechanisms for mediating fluctuating light stress in plants. Here, we review the current breadth of knowledge regarding physiological and biochemical responses to both high light stress and fluctuating light stress.
Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chloroplasts to whole cells and from locally stressed tissues to the rest of the plant body. These signals trigger a variety of physiological and biochemical reactions intended to mitigate the deleterious effects of high light intensity, such as photodamage and photoinhibition. Light stress protection mechanisms include chloroplastic Reactive oxygen species (ROS) scavenging, chloroplast and stomatal movement, and anthocyanin production. Photosynthetic apparatuses, being the direct targets of photodamage, have also developed various acclimation processes such as thermal energy dissipation through nonphotochemical quenching (NPQ), photorepair of Photosystem II (PSII), and transcriptional regulation of photosynthetic proteins. Fluctuating light is another mild but persistent type of light stress in nature, which unfortunately has been poorly investigated. Current studies, however, suggest that state transitions and cyclic electron transport are the main adaptive mechanisms for mediating fluctuating light stress in plants. Here, we review the current breadth of knowledge regarding physiological and biochemical responses to both high light stress and fluctuating light stress.Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes abiotic stress and physiological damage in plants. In response to high light stress, plants initiate a series of signal transduction from chloroplasts to whole cells and from locally stressed tissues to the rest of the plant body. These signals trigger a variety of physiological and biochemical reactions intended to mitigate the deleterious effects of high light intensity, such as photodamage and photoinhibition. Light stress protection mechanisms include chloroplastic Reactive oxygen species (ROS) scavenging, chloroplast and stomatal movement, and anthocyanin production. Photosynthetic apparatuses, being the direct targets of photodamage, have also developed various acclimation processes such as thermal energy dissipation through nonphotochemical quenching (NPQ), photorepair of Photosystem II (PSII), and transcriptional regulation of photosynthetic proteins. Fluctuating light is another mild but persistent type of light stress in nature, which unfortunately has been poorly investigated. Current studies, however, suggest that state transitions and cyclic electron transport are the main adaptive mechanisms for mediating fluctuating light stress in plants. Here, we review the current breadth of knowledge regarding physiological and biochemical responses to both high light stress and fluctuating light stress.
Author Hou, Xin
Shi, Yafei
Ke, Xiangsheng
Yang, Xiaoxia
Liu, Yuhan
Author_xml – sequence: 1
  givenname: Yafei
  orcidid: 0000-0003-0247-2098
  surname: Shi
  fullname: Shi, Yafei
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  surname: Ke
  fullname: Ke, Xiangsheng
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  givenname: Xiaoxia
  orcidid: 0000-0001-7767-9718
  surname: Yang
  fullname: Yang, Xiaoxia
– sequence: 4
  givenname: Yuhan
  surname: Liu
  fullname: Liu, Yuhan
– sequence: 5
  givenname: Xin
  surname: Hou
  fullname: Hou, Xin
  email: xinhou@whu.edu.cn
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Keywords High light
Fluctuating light
Photosynthesis
Photorepair
Light stress
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Snippet Plants require solar energy to grow through oxygenic photosynthesis; however, when light intensity exceeds the optimal range for photosynthesis, it causes...
Plants require solar energy to grow through oxygenic photosynthesis. However, when light intensity exceeds the optimal range for photosynthesis it causes...
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SubjectTerms abiotic stress
acclimation
anthocyanins
chloroplasts
electron transfer
Fluctuating light
genomics
High light
light intensity
Light stress
photoinhibition
Photorepair
Photosynthesis
photosystem II
reactive oxygen species
signal transduction
solar energy
stomatal movement
thermal energy
transcription (genetics)
Title Plants response to light stress
URI https://dx.doi.org/10.1016/j.jgg.2022.04.017
https://www.ncbi.nlm.nih.gov/pubmed/35580763
https://www.proquest.com/docview/2666547350
https://www.proquest.com/docview/2675589788
Volume 49
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