Molecular biology of metal tolerances of plants

. The review discusses some of the important aspects of the molecular biology of metal tolerances in animals, fungi and plants. First, results of classical ecological and genetical studies are briefly outlined. The evidence for the occurrence and properties of metal‐binding proteins (metallothioneins) and peptides (phytochelatins) in fungi and plants is described. It is concluded that at present there is no firm evidence to suggest that a protein homologous with the metallothioneins of animals and fungi occurs in plants. The discovery of phytochelatins, γ‐glutarnyl peptides, containing only glutamic acid, cysteine and glycine, in plants is described and evidence for their role in heavy metal tolerance is assessed. The difference between sulphur metabolism in animals and plants and its relationship to heavy metal tolerances is discussed in terms of the occurrences of metallothioneins in animals and phytochelalins in plants. Future prospects for research in this area are outlined in terms of identification of plant genes coding for metallothioneins and for the enzymes involved in the synthesis of phytochelatins.