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cold, article, light, elip, high, privacy, cookies, content, early, lightinducible, proteins, stress, plants, access, data, information, publish, search, acclimation, elips, lipid, levels, conditions, protein, plant, log, journal, research, planta, barley, level, posttranscriptional, montané, dreyer, triantaphylides, peroxidation, observed, low, synthesis, amounts, photosystem, discover, springer, function, optional, personal, parties, policy, find, track,

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early light-inducible proteins light-harvesting chlorophyll high-light-grown plants increased cold-stress conditions showed lipid peroxidation increases high-light stress severe photoinhibition occurred high-light-treated plants photosystem ii fluorescence month download article/chapter département d'ecophysiologie végétale photooxidative stress caused lipid peroxidation protein synthesis occurred hordeum vulgare photosystem ii lhc ii genes related subjects 2023 plant lhc article planta aims high light induced privacy choices/manage cookies /b-binding proteins full article pdf check access instant access protein accumulated lhc ii european economic area circadian oscillation moderate growth conditions arabidopsis thaliana heynh article montan� conditions privacy policy silke dreyer reciprocal posttranscriptional control high light lipid hydroperoxides posttranscriptional regulation published accepting optional cookies long-term acclimation low quantum flux low-temperature hardening main content log elip mrna levels journal finder publish elip amounts noticeably de microbiologie article log light

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         headline:Early light-inducible proteins during long-term acclimation of barley to photooxidative stress caused by light and cold: high level of accumulation by posttranscriptional regulation
         description: The expression of early light-inducible proteins (ELIPs) was analyzed in non-hardened barley (Hordeum vulgare L. cv. Apex) plants which were acclimated to cold (5 °C) and high-light stress (1500 μmol · m−2 · s−1) for several days. Severe photoinhibition occurred after some hours in the cold and remained constant during the following days. Lipid peroxidation was observed only under high light in the cold; it started during the second day and increased with time of acclimation. High light induced a five- to eightfold increase in ELIP mRNA levels; a cold treatment additionally enhanced the levels up to threefold. Under photoinhibitory conditions a loss of circadian oscillation in the ELIP mRNA levels was observed. After one week in high light at 5 °C, ELIP levels were at least 40 times higher than at 25 °C. At 5 °C and a low quantum flux (100 μmol · m−2 · s−1) that did not induce ELIP at 25 °C the protein accumulated to a level that was only five times lower than under high light. Immediately after transfer to the cold, ELIP synthesis was low but the amounts of ELIP observed after 12 h were considerably enhanced and differed only slightly in low- and high-light-treated plants. These data indicate a rapid recovery of ELIP synthesis between the 4th and the 12th hour after transfer to the cold. This resumption of protein synthesis occurred after the decline of photosystem II fluorescence and before the formation of lipid hydroperoxides. Later during acclimation to cold, during which lipid peroxidation increases, only the high-light-grown plants increased their ELIP amounts noticeably. The distribution of ELIPs along the leaves of plants that were acclimated to light- and/or cold-stress conditions showed that the ELIPs are mainly located in the photosynthetic tissues while under moderate growth conditions they are mainly found in the region of dividing cells. Under high light and cold, the 40-fold increase in ELIP amounts was accompanied by a 2-fold decrease in the light-harvesting chlorophyll a/b-binding proteins of photosystem II (LHC II), which indicates a reciprocal posttranscriptional control of ELIP and LHC II genes. The possible trigger of induction of ELIPs under light and cold stresses, their function and their organisation within the thylakoids are discussed.
         datePublished:
         dateModified:
         pageStart:293
         pageEnd:302
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            Key words: Chloroplast development
            Cold stress
            Hordeum
            Early light-inducible protein
            Light-harvesting complex II
            Light stress
            Lipid peroxidation
            Photoinhibition
            Plant Sciences
            Agriculture
            Ecology
            Forestry
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      headline:Early light-inducible proteins during long-term acclimation of barley to photooxidative stress caused by light and cold: high level of accumulation by posttranscriptional regulation
      description: The expression of early light-inducible proteins (ELIPs) was analyzed in non-hardened barley (Hordeum vulgare L. cv. Apex) plants which were acclimated to cold (5 °C) and high-light stress (1500 μmol · m−2 · s−1) for several days. Severe photoinhibition occurred after some hours in the cold and remained constant during the following days. Lipid peroxidation was observed only under high light in the cold; it started during the second day and increased with time of acclimation. High light induced a five- to eightfold increase in ELIP mRNA levels; a cold treatment additionally enhanced the levels up to threefold. Under photoinhibitory conditions a loss of circadian oscillation in the ELIP mRNA levels was observed. After one week in high light at 5 °C, ELIP levels were at least 40 times higher than at 25 °C. At 5 °C and a low quantum flux (100 μmol · m−2 · s−1) that did not induce ELIP at 25 °C the protein accumulated to a level that was only five times lower than under high light. Immediately after transfer to the cold, ELIP synthesis was low but the amounts of ELIP observed after 12 h were considerably enhanced and differed only slightly in low- and high-light-treated plants. These data indicate a rapid recovery of ELIP synthesis between the 4th and the 12th hour after transfer to the cold. This resumption of protein synthesis occurred after the decline of photosystem II fluorescence and before the formation of lipid hydroperoxides. Later during acclimation to cold, during which lipid peroxidation increases, only the high-light-grown plants increased their ELIP amounts noticeably. The distribution of ELIPs along the leaves of plants that were acclimated to light- and/or cold-stress conditions showed that the ELIPs are mainly located in the photosynthetic tissues while under moderate growth conditions they are mainly found in the region of dividing cells. Under high light and cold, the 40-fold increase in ELIP amounts was accompanied by a 2-fold decrease in the light-harvesting chlorophyll a/b-binding proteins of photosystem II (LHC II), which indicates a reciprocal posttranscriptional control of ELIP and LHC II genes. The possible trigger of induction of ELIPs under light and cold stresses, their function and their organisation within the thylakoids are discussed.
      datePublished:
      dateModified:
      pageStart:293
      pageEnd:302
      sameAs:https://doi.org/10.1007/s004250050131
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         Key words: Chloroplast development
         Cold stress
         Hordeum
         Early light-inducible protein
         Light-harvesting complex II
         Light stress
         Lipid peroxidation
         Photoinhibition
         Plant Sciences
         Agriculture
         Ecology
         Forestry
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                  address:
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            name:Silke Dreyer
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            name:Christian Triantaphylides
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