Isolation and characterization of five genotypic mutants of chlorate-resistant cyanobacteria unable to utilize nitrate

Spontaneous mutants of the cyanobacteriumSynechococcus PCC 7002 resistant to chlorate were isolated. Either 40mM or 400mM Na2ClO3 was used as the selective agent. Putative Chlr colonies were picked onto medium containing ammonia as the sole N source, then replicaplated to media containing either NH4+, NO2− as N sources. Of 252 putative mutants, 106 were able to use either NH4Cl or NaNO2 but not NaNO3 as their sole source of nitrogen. All of the mutant isolates had generation times similar to wild-type 7002 when grown on either ammonium (3.8–4.1 h/generation) or nitrite (4.5–4.7 h/generation). None had detectable methyl viologensupported nitrate reductase activity and are thus phenotypically NRase−. The Chlr mutants had photomediated O2 production and dark O2 uptake rates similar to the wild type and responded similarly to selected metabolic inhibitors. They expressed increased levels of phycocyanin (PC) synthesis under normal, nitrogen-replete growth conditions, but rapidly lapsed into a chlorotic state upon a shift to either medium containing nitrate or to N-free medium. Genetic analysis of the Chl4 mutants indicated that each could be rescued by direct transformation with chromosomally derived DNA from the wild-type strain. Frequencies of transformation for the mutants were characteristic for single genetic lesions in this cyanobacterium. On the basis of marker rescue by a cosmid library of wild-type DNA, the NRase− mutants could be grouped into five distinctive genotypic families.