Salinity Response in Chloroplasts: Insights from Gene Characterization

Salinity is a severe abiotic stress limiting agricultural yield and productivity. Plants have evolved various strategies to cope with salt stress. Chloroplasts are important photosynthesis organelles, which are sensitive to salinity. An understanding of molecular mechanisms in chloroplast tolerance...
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Autor*in:	Jinwei Suo [verfasserIn] Qi Zhao [verfasserIn] Lisa David [verfasserIn] Sixue Chen [verfasserIn] Shaojun Dai [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2017

Schlagwörter:	chloroplast gene characterization salinity response

Übergeordnetes Werk:	In: International Journal of Molecular Sciences - MDPI AG, 2003, 18(2017), 5, p 1011
Übergeordnetes Werk:	volume:18 ; year:2017 ; number:5, p 1011

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/ijms18051011

Katalog-ID:	DOAJ006332404

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language	English
source	In International Journal of Molecular Sciences 18(2017), 5, p 1011 volume:18 year:2017 number:5, p 1011
sourceStr	In International Journal of Molecular Sciences 18(2017), 5, p 1011 volume:18 year:2017 number:5, p 1011
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authorswithroles_txt_mv	Jinwei Suo @@aut@@ Qi Zhao @@aut@@ Lisa David @@aut@@ Sixue Chen @@aut@@ Shaojun Dai @@aut@@
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author	Jinwei Suo
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topic	misc QH301-705.5 misc QD1-999 misc chloroplast misc gene characterization misc salinity response misc Biology (General) misc Chemistry
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abstract	Salinity is a severe abiotic stress limiting agricultural yield and productivity. Plants have evolved various strategies to cope with salt stress. Chloroplasts are important photosynthesis organelles, which are sensitive to salinity. An understanding of molecular mechanisms in chloroplast tolerance to salinity is of great importance for genetic modification and plant breeding. Previous studies have characterized more than 53 salt-responsive genes encoding important chloroplast-localized proteins, which imply multiple vital pathways in chloroplasts in response to salt stress, such as thylakoid membrane organization, the modulation of photosystem II (PS II) activity, carbon dioxide (CO2) assimilation, photorespiration, reactive oxygen species (ROS) scavenging, osmotic and ion homeostasis, abscisic acid (ABA) biosynthesis and signaling, and gene expression regulation, as well as protein synthesis and turnover. This review presents an overview of salt response in chloroplasts revealed by gene characterization efforts.
abstractGer	Salinity is a severe abiotic stress limiting agricultural yield and productivity. Plants have evolved various strategies to cope with salt stress. Chloroplasts are important photosynthesis organelles, which are sensitive to salinity. An understanding of molecular mechanisms in chloroplast tolerance to salinity is of great importance for genetic modification and plant breeding. Previous studies have characterized more than 53 salt-responsive genes encoding important chloroplast-localized proteins, which imply multiple vital pathways in chloroplasts in response to salt stress, such as thylakoid membrane organization, the modulation of photosystem II (PS II) activity, carbon dioxide (CO2) assimilation, photorespiration, reactive oxygen species (ROS) scavenging, osmotic and ion homeostasis, abscisic acid (ABA) biosynthesis and signaling, and gene expression regulation, as well as protein synthesis and turnover. This review presents an overview of salt response in chloroplasts revealed by gene characterization efforts.
abstract_unstemmed	Salinity is a severe abiotic stress limiting agricultural yield and productivity. Plants have evolved various strategies to cope with salt stress. Chloroplasts are important photosynthesis organelles, which are sensitive to salinity. An understanding of molecular mechanisms in chloroplast tolerance to salinity is of great importance for genetic modification and plant breeding. Previous studies have characterized more than 53 salt-responsive genes encoding important chloroplast-localized proteins, which imply multiple vital pathways in chloroplasts in response to salt stress, such as thylakoid membrane organization, the modulation of photosystem II (PS II) activity, carbon dioxide (CO2) assimilation, photorespiration, reactive oxygen species (ROS) scavenging, osmotic and ion homeostasis, abscisic acid (ABA) biosynthesis and signaling, and gene expression regulation, as well as protein synthesis and turnover. This review presents an overview of salt response in chloroplasts revealed by gene characterization efforts.
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title_short	Salinity Response in Chloroplasts: Insights from Gene Characterization
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