Studies on photosystem I: Characteristics of “310 material” isolated from spinach chloroplasts

Abstract

Exposure of osmotically shocked chloroplasts to dilute pyridine and sonic oscillation results in the extraction of a small molecular-weight factor. Purification of the factor was accomplished using gel filtration chromatography. Due to the spectral nature of the purified species ( λ max at 310 nm) the factor was named “310 material.” Physiologically, the 310 material was found to inhibit a variety of ferredoxin-dependent photoreductions catalyzed by isolated spinach chloroplasts but stimulate both pseudocyclic photophosporylation and the ferredoxin-independent photoreduction of mammalian cytochrome c. The latter reaction was found to involve, at least partially, the formation of a Superoxide radical. Dark-reduction studies have further established that the 310 material is an autooxidizable electron carrier. Chemically, the 310 material is a water-soluble, low molecular-weight phenolic-type compound; possibly a derivative of coumaric acid. No proteinaceous material is observed in physiologically active preparations of 310 material. Based on these findings, it is concluded that the isolated 310 material acts on the reducing side of Photosystem I at or near the site of reduction of ferredoxin and competes with ferredoxin for the reducing power generated by the Photosystem I reaction center. The exact physiological role of the 310 material in the intact photosynthetic system, however, remains unknown. The similarities between the 310 material and a variety of other factors previously isolated from chloroplasts are discussed.