Abstract
The potential role played by formate dehydrogenase (FDH) in formate metabolism has been examined by the overexpression of FDH in Arabidopsis thaliana . Three independent transgenic lines were selected and shown to produce elevated amounts of FDH protein with a corresponding elevated FDH activity (2.5-5 fold) over wild-type (WT) plants. Under normal growth conditions, no altered phenotype was observed in these transgenic plants; in growth media supplied with formate, however, significant differences in shoot and root growth, compared to that of WT plants, were observed. WT plants were severely injured if grown in the presence of 16 mmol/L formate, while the transgenic plants were able to grow well. Formate delayed germination of both WT and transgenic seeds at concentrations above 4 mmol/L, but both types of seeds were eventually able to complete more than 95 % germination even at 32 mmol/L formate. Formate markedly inhibited primary root elongation, and its inhibitory action on WT was much stronger than on transgenic plants. Different formate salts affected root elongation similarly, indicating that the formate ion was the major factor inhibiting root growth. Sodium acetate (NaAc), an analogue of formate, also inhibited root elongation, but its action on WT and transgenic plants was the same, indicating that tolerance of transgenic plants to formate toxicity was specific. Transgenic plants showed no significant tolerance to the toxicity of two other one-carbon metabolites, methanol and formaldehyde. A role for FDH in detoxifying formate is proposed.
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