Synthesis of a bifunctional metallothionein/β‐glucuronidase fusion protein in transgenic tobacco plants as a means of reducing leaf cadmium levels

Abstract

Chimeric genes under the control of a CaMV 35S promoter with a doubled enhancer (35S2) that encode a mammalian metallothionein (hMTII), or an Escherichia coli beta-glucuronidase (GUS), or a hMTII/GUS fusion protein were introduced into the genome of tobacco (Nicotiana tabacum cv. PBD6). Transcripts and Cd-binding proteins of expected size were observed in plants expressing either the 35S2-hMTII or the 35S2-hMTII/GUS gene, and in the latter plants a protein with GUS activity that was larger than the native GUS enzyme was observed. Thus, plants expressing the hMTII-GUS gene synthesize a bifunctional protein, with both GUS and Cd-binding activity. In an in vitro assay, seedlings expressing either one of these genes had 60-70% lower Cd concentration in their shoots than controls, and Cd translocation to the shoot system was reduced (approximately 20% of Cd absorbed was translocated), compared with that in controls expressing a 35S2-GUS gene, where approximately 50% of the Cd absorbed was translocated.