Recruitment of a Foreign Quinone into the A1Site of Photosystem I

T. Wade Johnson, Gaozhong Shen, Boris Zybailov, Derrick Kolling, Ricardo Reategui, Steve Beauparlant, Ilya R. Vassiliev, Donald A. Bryant, A. Daniel Jones, John H. Golbeck, Parag R. Chitnis
2000 Journal of Biological Chemistry  
Genes encoding enzymes of the biosynthetic pathway leading to phylloquinone, the secondary electron acceptor of photosystem (PS) I, were identified in Synechocystis sp. PCC 6803 by comparison with genes encoding enzymes of the menaquinone biosynthetic pathway in Escherichia coli. Targeted inactivation of the menA and menB genes, which code for phytyl transferase and 1,4dihydroxy-2-naphthoate synthase, respectively, prevented the synthesis of phylloquinone, thereby confirming the participation
more » ... the participation of these two gene products in the biosynthetic pathway. The menA and menB mutants grow photoautotrophically under low light conditions (20 E m ؊2 s ؊1 ), with doubling times twice that of the wild type, but they are unable to grow under high light conditions (120 E m ؊2 s ؊1 ). The menA and menB mutants grow photoheterotrophically on media supplemented with glucose under low light conditions, with doubling times similar to that of the wild type, but they are unable to grow under high light conditions unless atrazine is present to inhibit PS II activity. The level of active PS II per cell in the menA and menB mutant strains is identical to that of the wild type, but the level of active PS I is about 50 -60% that of the wild type as assayed by low temperature fluorescence, P700 photoactivity, and electron transfer rates. PS I complexes isolated from the menA and menB mutant strains contain the full complement of polypeptides, show photoreduction of F A and F B at 15 K, and support 82-84% of the wild type rate of electron transfer from cytochrome c 6 to flavodoxin. HPLC analyses show high levels of plastoquinone-9 in PS I complexes from the menA and menB mutants but not from the wild type. We propose that in the absence of phylloquinone, PS I recruits plastoquinone-9 into the A 1 site, where it functions as an efficient cofactor in electron transfer from A 0 to the iron-sulfur clusters.
doi:10.1074/jbc.275.12.8523 pmid:10722690 fatcat:v3gstzad3vftdi532h5pi34nue