Characterization of Nuclear Mutants of Maize Which Lack the Cytochrome f/b -563 Complex

Abstract

Two high fluorescent, nuclear recessive mutants of maize (Zea mays L.), designated hcf-2 and hcf-6, are described which are missing the chloroplast cytochrome f/b-563 complex. Thylakoids from the mutants show a block in whole chain electron transport activity (H(2)O to methyl viologen), while retaining activities associated with photosystem II (H(2)O to phenylenediamine) and photosystem I (diaminodurene to methyl viologen). Chemically induced, optical difference spectra indicate a loss of cytochromes f and b-563. Cytochrome b-559 is present in both high and low potential forms. EPR analyses of thylakoid membranes of hcf-6 reveals the lack of a signal (g = 1.90) associated with the Rieske Fe-S center. Additionally, hcf-6 is lacking EPR signals at g = 6 (attributable to the high spin ferric heme of cytochrome b-563) and g = 2.5 (unidentified). The mutant retains signals at g = 2.9 (cytochrome b-559) and at g = 4.3 and 9 (both signals probably arising from a storage form of ferric iron).Thylakoid polypeptides are examined using polyacrylamide gel electrophoresis. hcf-2 and hcf-6 have identical profiles, showing losses of polypeptides with apparent molecular masses of 33 (cytochrome f), 23 (cytochrome b-563), and 17.5 kilodaltons. The protein associated with the Rieske Fe-S center could not be determined from the gel profiles. Additionally, both mutants show an increase in a band with a molecular mass of 31 kilodaltons.