Linear dichroism and circular dichroism in photosynthesis research

The efficiency of photosynthetic light energy conversion depends largely on the molecular architecture of the photosynthetic membranes. Linear- and circular-dichroism (LD and CD) studies have contributed significantly to our knowledge of the molecular organization of pigment systems at different levels of complexity, in pigment–protein complexes, supercomplexes, and their macroassemblies, as well as in entire membranes and membrane systems. Many examples show that LD and CD data are in good agreement with structural data; hence, these spectroscopic tools serve as the basis for linking the structure of photosynthetic pigment–protein complexes to steady-state and time-resolved spectroscopy. They are also indispensable for identifying conformations and interactions in native environments, and for monitoring reorganizations during photosynthetic functions, and are important in characterizing reconstituted and artificially constructed systems. This educational review explains, in simple terms, the basic physical principles, and theory and practice of LD and CD spectroscopies and of some related quantities in the areas of differential polarization spectroscopy and microscopy

Circular polarized chlorophyll luminescence reflects the macroorganization of grana in pea chloroplasts

Circular polarization of luminescence (CPL; Steinberg IZ (1978) Annu Rev Biophys Bioeng 7: 113-137) was applied to study pea chloroplasts in different structural states. The structural changes of chloroplasts were induced by variation of osmotic pressure, concentration of magnesium-ions or photoinhibition. Both large CPL and psi-type circular dichroism (psi, polymerization and salt induced) signals appeared in the presence of granal macrostructure and were sensitive to structural changes of the grana. The relation was studied between the amount of CPL expressed as an emission anisotropy factor

Qualidade pós-colheita da alface hidropônica em ambiente protegido sob malhas termorefletoras e negra

Considerando que a duração da exposição, a qualidade e intensidade de luz afetam as características de qualidade das hortaliças folhosas, conduziu-se um experimento, em ambiente protegido, com o objetivo de avaliar a qualidade pós-colheita da alface hidropônica, sob os efeitos das malhas de sombreamento, com diferentes percentagens de atenuação da radiação solar. O delineamento experimental foi o de blocos casualizados, no esquema fatorial 2 x 5, com três repetições, sendo os tratamentos constituídos por quatro malhas termorefletoras (40; 50; 60 e 70% de sombreamento) e uma testemunha, com malha negra 50%. Em cada parcela, representada por um sistema hidropônico individual, foi cultivada a alface (cv. Olinda, Crespa), sendo avaliada sua qualidade por ocasião da colheita e após quatro dias de armazenamento refrigerado (7,6 ± 1ºC e 27 ± 5 % UR). Observou-se que o excesso de sombreamento, ocasionado pelas malhas termorefletoras 60 e 70% e malha negra 50%, comprometeram a aparência da alface. As plantas submetidas ao sombreamento com a malha termorefletora 40% apresentaram menor perda de massa, ao final de quatro dias de armazenamento. Os graus de sombreamento ocasionados pelas malhas termorefletoras e pela malha negra não influenciaram nos teores de ácido cítrico, sólidos solúveis, vitamina C e clorofila total da alface