Iron, sulfur, and chlorophyll deficiencies: A need for an integrative approach in plant physiology

Green plants deficient in nitrogen, sulfur, or iron develop a similar yellow coloration. In each case, the yellow coloration is accompanied by a lowered chlorophyll concentration. This review attempts to collate some of the biochemical information concerning these three seemingly diverse nutritive deficiencies and bares a need for a more integrative approach to plant physiology. The biochemical and biological roles of nitrogen, sulfur and iron in living systems are examined, with emphasis on sulfur and iron. Mechanistically, iron and/or sulfur are highly reactive components of many enzymes. Indeed, iron and sulfur sometimes form Fe2S2, Fe3S4, or Fe4S4 clusters which are very active electron transfer agents. Recently, iron-sulfur clusters have been reported to serve as sensors of oxidative stress, to couple photosynthesis with several metabolic pathways, to participate in the reduction of sulfite and nitrite, and to participate in regulation of gene expression. Thus, there are several mechanisms by which a deficiency of nitrogen, sulfur, or iron could produce the same low-chlorophyll, yellow phenotype in plants. Unless the interactions and coordination of the various pathways connected to chlorophyll synthesis are elucidated, it is unlikely that we will select the quickest and most direct path to plant improvement.