Multiple-flash development of thermoluminescence bands in dark-grown spruce leaves

Spruce leaves greened in darkness were devoid of three of the five thermoluminescence bands found for mature leaves. These bands were developed rapidly by exposure of the dark-grown leaves to continuous light. The development of these bands was studied by illumination with repetitive flashes at varied intervals. Flashes at intervals of 1 s were the most effective in inducing these bands. Those at shorter or longer intervals were less effective. It was deduced from these data that the development of these bands is a multiquantum process which involves at least two photo-events with a dark reaction between them.     

Adsorption of Vibrio parahaemolyticus onto Chitin and Copepods

Vibrio parahaemolyticus was observed to adsorb onto chitin particles and copepods. The efficiency of adsorption was found to be dependent on pH and on the concentration of NaC1 and other ions found in seawater. Highest efficiency was observed in water samples collected from Chesapeake Bay and lowest in water from the open sea. V. parahaemolyticus was found to adborb onto chitin with the highest efficiency of the several bacterial strains tested. Escherichia coli and Pseudomonas fluorescens did not adsorb onto chitin. The adsorption effect is considered to be one of the major factors determining the distribution of this species and affecting the annual cycle of V. parahaemolyticus in the estuarine system.     

Determination of the intravesicular pH of fragmented sarcoplasmic reticulum with 5,5-dimethyl-2,4-oxazolidinedione.

The intravesicular pH (pHi) of fragmented sarcoplasmic reticulum (SR) of the skeletal muscle was determined from the distribution of 5,5-dimethyl-2,4-oxazolidinedione (DMO), a weak organic acid, between the intra- and extravesicular spaces. The pHi's thus obtained were found to be slightly lower (0.02-0.17 pH unit) than the pH's of the external medium (pHe) at pH 6.5-8.5 in the presence of 105 mM KCl and 40 mM Tris-maleate buffer. The higher the pHe, the greater the pH gradient. When pHe was changed, pHi attained equilibrium within about 20 min, the time necessary for the separation of the SR by centrifugation. When 0.25 M sucrose and 5 mM Tris-maleate buffer were used instead of 105 mM KCl and 40 mM buffer, the pH gradient increased to 0.56. It was also demonstrated by direct measurements of pHe with a glass-electrode pH meter that K+ ions added to the external medium exchanged the intravesicular H+ ions. From these results it appears that the pH gradient across the SR membrane was at the Donnan equilibrium. In this state, the Donnan potentials corresponding to pH gradients of 0.17 and 0.56 were -9.3 and -30.6 mV, respectively.     

Oxygen evolution in dark-developed spruce chloroplasts

Chloroplasts isolated from dark-grown seedlings of Picea abiesshowed activities of DCIP and Fecy photoreductions widiout additionof an electron donor to PS-II. In addition to this, when light-inducedoxygen evolution was measured with an oxygen electrode, a significantamount of oxygen was found. These results indicate that thephotoreductions are coupled to the oxygen-evolving reaction.Furthermore, thylakoid membranes were functional in the protonuptake and the 515-nm absorbance change as parameters of theirphysicochemical functions. Electron microscopy showed that thylakoidswere well-developed with prolamellar bodies and partially stackedto from grana. We conclude that oxygen-evolving ability and the physicochemicalfunction of thylakoid membranes develop in chloroplasts of dark-grownspruce seedlings. (Received September 21, 1974; )     

Effects of hydrogen peroxide on the content of major volatile halogenated compounds in the red alga <Emphasis Type="Italic">Asparagopsis taxiformis</Emphasis> (Bonnemaisoniaceae)

The genus Asparagopsis is a prolific source of halogenated metabolites. Due to its commercial applications, it has been intensively cultivated in southern Portugal. In the present study, we assess if the internal levels of the major halogenated metabolites (bromoform and dibromoacetic acid) in Asparagopsis taxiformis can be increased with hydrogen peroxide (H₂O₂) addition. Previous studies with red algae showed that the production/release of bromoform can be enhanced by exogenously supplying H₂O₂. However, no study has assessed if H₂O₂ supply enhances the content of secondary metabolites within the biomass. This detail is important as the objective of the proposed research is to enhance the content of these valuable metabolites in the produced biomass. Both the activity of the haloperoxidase enzyme and the metabolite content were assessed on short-term and long-term incubation periods to H₂O₂. To determine the susceptibility of A. taxiformis photosynthetic performance to the imposed oxidative stress, the in vivo fluorescence of photosystem II was monitored. A. taxiformis was shown to be physiologically vulnerable to H₂O₂, given the observed decrease of the maximum quantum yield of photosynthesis (F _v/F _m). Contrary to what was expected, the presence of H₂O₂ inhibited the activity of the iodoperoxidase enzyme. Nevertheless, the extracted halogenated metabolites were higher over the first hours of exposure to H₂O₂, decreasing after 48 h. These results are probably related to the prosthetic group of the halogenated enzyme in A. taxiformis and the long-term oxidative stress damage of H₂O₂ exposure. Considering the objective of the proposed research, addition of H₂O₂ to the cultures, prior (3 h) to biomass harvesting, increases the metabolite content.