SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2313162110> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W2313162110 endingPage "463" @default.
W2313162110 startingPage "449" @default.
W2313162110 abstract "Eutrema parvulum (synonym, Thellungiella parvula) is an extreme halophyte that thrives in high salt concentrations (100–150 mm) and is closely related to Arabidopsis thaliana. The main aim of this study was to determine how E. parvulum uses reactive oxygen species (ROS) production, antioxidant systems and redox regulation of the electron transport system in chloroplasts to tolerate salinity. Plants of E. parvulum were grown for 30 d and then treated with either 50, 200 or 300 mm NaCl. Physiological parameters including growth and water relationships were measured. Activities of antioxidant enzymes were determined in whole leaves and chloroplasts. In addition, expressions of chloroplastic redox components such as ferrodoxin thioredoxin reductases (FTR), NADPH thioredoxin reductases (NTRC), thioredoxins (TRXs) and peroxiredoxins (PRXs), as well as genes encoding enzymes of the water–water cycle and proline biosynthesis were measured. Salt treatment affected water relationships negatively and the accumulation of proline was increased by salinity. E. parvulum was able to tolerate 300 mm NaCl over long periods, as evidenced by H2O2 content and lipid peroxidation. While Ca2+ and K+ concentrations were decreased by salinity, Na+ and Cl– concentrations increased. Efficient induction of activities and expressions of water–water cycle enzymes might prevent accumulation of excess ROS in chloroplasts and therefore protect the photosynthetic machinery in E. parvulum. The redox homeostasis in chloroplasts might be achieved by efficient induction of expressions of redox regulatory enzymes such as FTR, NTRC, TRXs and PRXs under salinity. E. parvulum was able to adapt to osmotic stress by an efficient osmotic adjustment mechanism involving proline and was able to regulate its ion homeostasis. In addition, efficient induction of water–water cycle enzymes and other redox regulatory components such as TRXs and PRXs in chloroplasts were able to protect the chloroplasts from salinity-induced oxidative stress." @default.
W2313162110 created "2016-06-24" @default.
W2313162110 creator A5035223994 @default.
W2313162110 creator A5052276041 @default.
W2313162110 creator A5056029176 @default.
W2313162110 creator A5087967424 @default.
W2313162110 creator A5091651970 @default.
W2313162110 date "2014-09-17" @default.
W2313162110 modified "2023-10-16" @default.
W2313162110 title "Changes in the alternative electron sinks and antioxidant defence in chloroplasts of the extreme halophyte Eutrema parvulum (Thellungiella parvula) under salinity" @default.
W2313162110 cites W1750250371 @default.
W2313162110 cites W1972784380 @default.
W2313162110 cites W1973564485 @default.
W2313162110 cites W1973712759 @default.
W2313162110 cites W1974237463 @default.
W2313162110 cites W1976329122 @default.
W2313162110 cites W1979016373 @default.
W2313162110 cites W1991064860 @default.
W2313162110 cites W1993041851 @default.
W2313162110 cites W2006504077 @default.
W2313162110 cites W2009791735 @default.
W2313162110 cites W2014812138 @default.
W2313162110 cites W2015306574 @default.
W2313162110 cites W2016489893 @default.
W2313162110 cites W2018237940 @default.
W2313162110 cites W2018940918 @default.
W2313162110 cites W2022863807 @default.
W2313162110 cites W2024212048 @default.
W2313162110 cites W2026303000 @default.
W2313162110 cites W2028823348 @default.
W2313162110 cites W2034059555 @default.
W2313162110 cites W2037459401 @default.
W2313162110 cites W2043007290 @default.
W2313162110 cites W2043844046 @default.
W2313162110 cites W2047774915 @default.
W2313162110 cites W2050474032 @default.
W2313162110 cites W2052499827 @default.
W2313162110 cites W2055694557 @default.
W2313162110 cites W2060560143 @default.
W2313162110 cites W2062904684 @default.
W2313162110 cites W2064750286 @default.
W2313162110 cites W2071347662 @default.
W2313162110 cites W2072976273 @default.
W2313162110 cites W2073944932 @default.
W2313162110 cites W2079176212 @default.
W2313162110 cites W2079702047 @default.
W2313162110 cites W2080776406 @default.
W2313162110 cites W2081822678 @default.
W2313162110 cites W2092308286 @default.
W2313162110 cites W2093078281 @default.
W2313162110 cites W2099524720 @default.
W2313162110 cites W2100837269 @default.
W2313162110 cites W2101422765 @default.
W2313162110 cites W2102455345 @default.
W2313162110 cites W2103225375 @default.
W2313162110 cites W2103245321 @default.
W2313162110 cites W2104732633 @default.
W2313162110 cites W2116507604 @default.
W2313162110 cites W2117992939 @default.
W2313162110 cites W2119756660 @default.
W2313162110 cites W2120793912 @default.
W2313162110 cites W2120988516 @default.
W2313162110 cites W2127583512 @default.
W2313162110 cites W2127937927 @default.
W2313162110 cites W2139328007 @default.
W2313162110 cites W2139780027 @default.
W2313162110 cites W2140791476 @default.
W2313162110 cites W2145865677 @default.
W2313162110 cites W2146047703 @default.
W2313162110 cites W2148717014 @default.
W2313162110 cites W2150015388 @default.
W2313162110 cites W2152540599 @default.
W2313162110 cites W2154140763 @default.
W2313162110 cites W2156439942 @default.
W2313162110 cites W2163620085 @default.
W2313162110 cites W2164944073 @default.
W2313162110 cites W2166108635 @default.
W2313162110 cites W2170394538 @default.
W2313162110 cites W2170819728 @default.
W2313162110 cites W2471808455 @default.
W2313162110 cites W2588987108 @default.
W2313162110 cites W41889498 @default.
W2313162110 cites W4293247451 @default.
W2313162110 doi "https://doi.org/10.1093/aob/mcu184" @default.
W2313162110 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4332603" @default.
W2313162110 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25231894" @default.
W2313162110 hasPublicationYear "2014" @default.
W2313162110 type Work @default.
W2313162110 sameAs 2313162110 @default.
W2313162110 citedByCount "53" @default.
W2313162110 countsByYear W23131621102013 @default.
W2313162110 countsByYear W23131621102015 @default.
W2313162110 countsByYear W23131621102016 @default.
W2313162110 countsByYear W23131621102017 @default.
W2313162110 countsByYear W23131621102018 @default.
W2313162110 countsByYear W23131621102019 @default.
W2313162110 countsByYear W23131621102020 @default.
W2313162110 countsByYear W23131621102021 @default.