Brief exposure to HL quickly induced 60~70 % conversion of V to A

Brief exposure to HL quickly induced 60~70 % conversion of V to A and Z in the SSF 1250/6 plants, while the same HL exposure resulted in much less de-epoxidation (20~30 %) in the C 50 plants (Fig. 8d). Light-induced

formation of NPQ is triggered by a pH decrease in the thylakoid lumen, leading to activation of V de-epoxidase (to form Z) and protonation of the PsbS protein, another essential component of NPQ in higher plants (Li beta-catenin inhibitor et al. 2000, 2004; Dominici et al. 2002). Independent of the changes in V + A + Z, the amount of the PsbS protein relative to Chl increased in SSF 1250/6 (Fig. 9). The following changes in PsbS levels were found in the three accessions after 7 days of acclimation to SSF 1250/6: +25 % in Col-0,

+20 % in C24 and +15 % in Eri. Fig. 9 Immunoblot analysis showing PsbS protein levels in mature leaves of Col-0, C24 and Eri acclimated to the C50 or SSF 1250/6 conditions. Extracts from three replicate leaves (from three replicate plants) were harvested on day 7 and pooled for each genotype and treatment The enzyme SOD catalyzes disproportionation of O2 − to H2O2 and O2. In chloroplasts, it acts as the first enzyme in the water–water cycle which allows linear electron transport without ATP consumption (Osmond and Grace 1995; Asada 1999), thus contributing to acidification of the thylakoid lumen needed for rapid induction of NPQ and activation of V de-epoxidase. The leaf SOD activity was somewhat lower in Col-0 than in C24 and Eri when these plants were under C 50 (Fig. 10a). click here The SSF 1250/6 treatment induced marked upregulation of SOD activity in all three accessions, resulting in similarly high values on day 7. The MDA levels found in mature leaves at the end of the night LY2835219 datasheet period did not differ under the two light regimes (Fig. 10b), which is in line with the high F v/F m measured in SSF 1250/6 (see legend to Figs. 1 and 6). Fig. 10 Superoxide dismutase activity C-X-C chemokine receptor type 7 (CXCR-7) (a) and malondialdehyde content (b) in leaves

of Col-0, C24 and Eri. Leaf samples were harvested on day 0 (black bars, all plants under C 50) and day 7 (gray bars, C 50; white bars, SSF 1250/6). For each accession, asterisks indicate significant differences (P < 0.05) between day 0 (C 50) and day 7 of SSF 1250/6; plus signs indicate significant differences (P < 0.05) between C 50 and SSF 1250/6 on day 7. Data are means of four plants (±SE) Table 1 summarizes the results of two-way ANOVA analyzing the effects of accessions (Col-0, C24, and Eri) and light treatments (C 50 and SSF 1250/6) on the changes of the parameters described above. The leaf RGR is the only trait for which interaction between the effects of accessions and treatments was found. Genotypes and treatments seem to independently influence the maximal NPQ levels, whereas variations in the Chl content, V + A + Z, DPS, and SOD activity can be explained by the light treatments alone.

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