Nitrogenase and photosynthetic activities of chemostat cultures of Rhodobacter capsulatus 37b4 grown under different illuminations

Abstract

Nitrogen fixation as well as structural and functional properties of the photosynthetic apparatus were studied with phototrophically grown chemostat cultures of Rhodobacter capsulatus strain 37b4. Illumination was varied between 3,000 and 30,000 lx at a constant dilution rate of D=0.075 h-1. Steady state parameters of growth revealed two forms of limitation, i.e. energy limitation in the range of 3,000 to about 10,000 lx and nitrogen limitation at higher illuminations. Over the entire range of illumination, the specific bacteriochlorophyll content and the amount of total bacteriochlorophyll per photochemical reaction center remained essentially constant. Photophosphorylation activity remained constant up to 20,000 lx but was slightly increased at 30,000 lx. Hydrogen evolution and acetylene reduction activities of cellular nitrogenase were assayed under saturating light conditions with samples taken from cultures growing under steady state conditions. In spite of the apparent constancy of the composition and activity of the photosynthetic apparatus under energy limitation, maximal specific acetylene reduction and hydrogen evolution activities increased by factors of 3 and 8, respectively, when illumination of the culture was raised from 3,000 to about 15,000 lx. Above 15,000 lx, both activities of nitrogenase approached constancy.