Relationship between the Absorption and Emission Spectra and the "Red Drop" in the Action Spectra of Fluorescence In Vivo

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Relationship between the Absorption and Emission Spectra and the "Red Drop" in the Action Spectra of Fluorescence In Vivo

L. Szalay, E. Rabinowitch, N. R. Murty and Govindjee

ABSTRACT

The Stepanov equation, relating the intensity of emission, f_e(), at a given frequency, and that of absorption,k(), at the same frequency, is applied,in its modified form (see equation 3 in text) to suspensionsof Chlorella, Porphyridium, and Anacystis and to chlorophyllsolutions. This application can reveal whether the yield offluorescence, ${Phi}$ (), is constant, orchanges with frequency. In Chlorella (green alga) a sharp dropof ${Phi}$ () is indicated towards the lowerfrequencies (longer waves), beginning around = 1.48 x 10⁴cm^-1 (680 mµ); the ${Phi}$ () function calculated from the Stepanov equationis in fair agreement with the directly determined action spectrumfor the excitation of chlorophyll fluorescence in this organism.In Porphyridium (red alga) and Anacystis (blue-green alga) applicationof the Stepanov equation supports the conclusions, derived fromdirect measurements, of a much earlier "red drop" of the fluorescenceexcitation spectra. Direct measurements suggest that the dropin Porphyridium may begin at about 1.53 x 10⁴cm^-1 (654 mµ);in Anacystis, it may begin already above 1.57 x 10⁴cm^-1 (<637mµ).These results confirm the relation, postulated earlier by Duysensand others, between the action spectra of photosynthesis andof chlorophyll a fluorescence in algal cells. The relation ofthese findings to spectroscopic evidence, suggesting the existenceof two main chlorophyll a components in vivo, in green as wellas in red and blue-green algae, is discussed.