Growth and Heavy Metal Binding Properties of Transgenic Chlamydomonas Expressing a Foreign Metallothionein Gene

We have compared the growth rates and cadmium binding capacity of wild-type and transgenic Chlamydomonas reinhardtii cells expressing a foreign class-II metallothionein. We observed that cells expressing metallothionein grew to significantly higher cell densities than wild-type cells in the presence of a toxic cadmium concentration (40 mu M). When grown at a low (5 mu M) cadmium concentration, cells expressing metallothionein bound twofold more cadmium (0.43 mu g Cd/mg Chl) than wild-type. At cadmium concentrations (40 mu M), which induce phytochelatin synthesis in wild-type cells the cadmium binding capacity of both wild-type (79.6 mu g Cd/mg Chl) and transformed cells (86.4 mu g Cd/mg Chl) was similar; however, the transformed cells grew to higher densities than the wild type. These results suggest that under conditions that apparently induce phytochelatin expression, the presence of metallothionein in the cytoplasm reduces heavy metal toxicity. Furthermore, because cells expressing metallothionein grow to higher densities than wild-type cells at a toxic cadmium concentration (40 mu M), the transgenic cells sequester more total cadmium (9% of total Cd) from the medium than the wild type (5.5% of total Cd). These results indicate that the trace-metal binding properties of Chlamydomonas can be enhanced through the expression of trace-metal-specific binding proteins.