Keywords: مجتمع های برداشت کم نور; Phyllostachys vivax cv. aureocaulis; Stripy culms; Color variation; Photosynthetic membrane; Light harvesting complexes;
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Apoprotein heterogeneity increases spectral disorder and a step-wise modification of the B850 fluorescence peak position
Keywords: مجتمع های برداشت کم نور; Bchl; bacteriochlorophyll; B800; 800Â nm-absorbing Bchl; B850; 850Â nm-absorbing Bchl; LH; light-harvesting; FLP; fluorescence peak; fwhm; full width at half maximum; Light harvesting complexes; Purple bacteria; Single molecule spectroscopy; Photosynthesi
Improved photosynthetic efficacy of maize (Zea mays) plants with arbuscular mycorrhizal fungi (AMF) under high temperature stress
Keywords: مجتمع های برداشت کم نور; ABS; Absorption; AMF; Arbuscular Mycorrhiza Fungi; Chl; Chlorophyll; Ci; Internal CO2 concentration; CS; Cross section; DI0; Dissipation; ET0; Electron transport; Fo; Initial fluorescence; Fm; Maximum fluorescence; Fv; Variable fluorescence; FYM; Field ya
Research PaperLow temperature and ultraviolet-B radiation affect chlorophyll content and induce the accumulation of UV-B-absorbing and antioxidant compounds in bell pepper (Capsicum annuum) plants
Keywords: مجتمع های برداشت کم نور; UV-B; ultraviolet-B; LT; low temperature; ROS; reactive oxygen species; PSI; photosystem I; PSII; photosystem II; LHCs; light harvesting complexes; DAS; days after sowing; HPLC; high-performance liquid chromatography; UPLC; ultra-performance liquid chroma
Modeling the light-induced electric potential difference (ÎΨ), the pH difference (ÎpH) and the proton motive force across the thylakoid membrane in C3 leaves
Keywords: مجتمع های برداشت کم نور; ATP; adenosine triphosphate; BC; buffer capacity; bH, bL; the high and low potential hemes b of the cytochrome b6f complex; CBC; Calvin-Benson cycle; CD; charge difference; CET; cyclic electron transport; COsp; coefficient which relates ÎΨs to ÎpH; CS;
Pigment structure in the FCP-like light-harvesting complex from Chromera velia
Keywords: مجتمع های برداشت کم نور; Photosynthesis; Chlorophylls; Carotenoids; CLH; Resonance Raman; Light harvesting complexes
Functional biotechnologyβ-carbonic anhydrases and carbonic ions uptake positively influence Arabidopsis photosynthesis, oxidative stress tolerance and growth in light dependent manner
Keywords: مجتمع های برداشت کم نور; CAs; carbonic anhydrases; CO2; carbon dioxide; Fv/Fm; maximum quantum efficiency of photosystem II (PSII); LHCs; light harvesting complexes; lsd1; lesion simulating disease 1; ME; malic enzyme; NaHCO3; sodium bicarbonate; NPQ; non-photochemical quenching;
The PsbS protein plays important roles in photosystem II supercomplex remodeling under elevated light conditions
Keywords: مجتمع های برداشت کم نور; AL; actinic light; BN-PAGE; Blue native polyacrylamide gel electrophoresis; CEF; cyclic electron flow; Chl; chlorophyll; DCMU; 3-(3,4-dichlorophenyl)-1,1-dimethylurea; F0; the minimum fluorescence intensity in the dark-adapted state; Fm; the maximum fluor
High light induced changes in organization, protein profile and function of photosynthetic machinery in Chlamydomonas reinhardtii
Keywords: مجتمع های برداشت کم نور; Chlamydomonas reinhardtii; Chlorophyll a fluorescence; High light intensity; Light harvesting complexes; Pigment–pigment interactions; Supercomplexes; Thylakoids
Simple replacement of violaxanthin by zeaxanthin in LHC-II does not cause chlorophyll fluorescence quenching
Keywords: مجتمع های برداشت کم نور; Non-photochemical quenching; Chlorophyll fluorescence; Time-dependent density functional theory; Electronic excited states; Light harvesting complexes
Watching the components of photosynthetic bacterial membranes and their in situ organisation by atomic force microscopy
Keywords: مجتمع های برداشت کم نور; AFM; Atomic Force Microscopy; EM; Electron Microscopy; LH; light-harvesting; RC; reaction centre; 4Hcyt; tetraheme cytochrome; cyt bc1; Cytochrome bc1 complex; PSU; photosynthetic unit; Rb.; Rhodobacter; Rsp.; Rhodospirillum; Blc.; Blastochloris; Rvi.; Ru