The samples were placed in a 10-mm quartz cuvette at the front entrance of the sphere. Cultures were diluted as necessary to measure in the range where optical
density (OD) was linear with dilution. In this configuration, the measured OD can be assumed proportional to absorption and backscattering. A baseline equal to OD at 800 nm was subtracted to correct for backscatter. Purified, filtered water was used as a blank reference. Absorption (a) was derived from the OD measurements using a(λ) = 2.303 × ODbc(λ)/0.01, where the factor 2.303 serves to convert from a 10-based to a natural logarithm, HDAC inhibitor ODbc(λ) is the baseline-corrected OD at wavelength λ, and 0.01 is the path length of the cuvette in meters. Fluorescence measurements All https://www.selleckchem.com/Caspase.html spectral fluorescence measurements were carried out after placing samples in low light (<10 μmol photons m−2 s−1) for at least 0.5 h. Excitation/emission matrices of fluorescence were recorded for the diluted (see below) HDAC cancer samples in a 10-mm quartz cuvette in a Varian Cary Eclipse (Agilent, Santa Clara, CA, USA) fluorometer. Emission was scanned from 600 to 750 nm at 1-nm intervals and 10-nm band width, while excitation was produced with a Xenon flash lamp in 10-nm bands, at 10-nm intervals from 400 to 650 nm.
It is essential for the proper determination of F v/F m that our F 0 measurements were not disturbed by fluorescence induction in any part of the excitation–emission matrix, particularly in the case of cyanobacteria which are known to undergo state transitions at very low light intensity. The excitation beam was attenuated to 25% using neutral density filter as a precaution. A selection of cultures tested before the start of the experiment showed that increasing the attenuation of the excitation light did not change the observed F v/F m or the spectral diglyceride shape of F 0 emission. Repeated excitation–emission matrix measurements also gave identical results. This empirical evidence, although circumstantial, suggests that neither the intensity nor
the period of illumination prevented the measurement of F 0 or F v/F m. These assumptions are also supported in a theoretical sense, when we consider properties of the excitation light source and sample placement: the Xenon flash lamp produces 2–5 μs half-width pulses at 80 Hz. This flash interval (>12 ms) allows relaxation of PSII between flashes. With a microspherical PAR sensor in the focused excitation beam centred in a 10-nm wide band at 420 nm (the peak wavelength of the lamp), we derived a photon density in the order of 0.01 μmol photons m−2 flash−1 which should not excite above F 0 (see Biggins and Bruce 1989; Babin et al. 1995). Finally, the excitation beam illuminated approximately 6% of the cell suspension at any given time, while the sample was continuously stirred. These considerations support our assumption that no significant build-up of fluorescence above F 0 occurred, and that multiple turnover did not induce transitions to state I.
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