Author:
Jones Christopher M.,Innes Sean,Holland Steven,Burch Tyson,Parrish Sydney,Nielsen David R.
Abstract
AbstractQuantification of CO2fixation rates by cyanobacteria is vital to determining their potential as industrial strains in a circular bioeconomy. Currently, however, CO2fixation rates are most often determined through indirect and/or low-resolution methods, resulting in an incomplete picture of both dynamic behaviors and total carbon fixing potential. To address this, we developed a novel, low-cost system forin situoff-gas analysis which supports the automated acquisition of high-resolution and CO2uptake rates from cyanobacterial cultures. Carbon fixation data obtained via this system was independently verified by elemental analysis of cultivated biomass. UsingSynechococcus sp.PCC 7002 andSynechocystis sp.PCC 6803, we demonstrate that phototrophic CO2uptake rates accelerate linearly to a maximum before then decaying monotonically to cessation by stationary phase. Furthermore, consistent with the expected stoichiometry, we found that strong correlations exist between both the rates and total levels of cell growth and carbon fixation. This system simultaneously provides a high-resolution growth curve, accurate carbon fixation rates, as well as the total amount of carbon fixed in a cyanobacterial batch culture, thus illuminating the parameters with which cyanobacterial researchers can exploit use to realize their full potential in industrial applications.
Publisher
Cold Spring Harbor Laboratory