A comparison of two strategies to modify the hydroxylation of condensed tannin polymers in Lotus corniculatus L

Analysis of transgenic Lotus lines expressing sense DFR and F3′5′H genes showed enhanced levels of condensed tannin polymers. Polymer hydroxylation was not substantially altered using either of these genetic interventions. A full-length sense Antirrhinum majus dihydroflavonol reductase ( DFR) sequence was introduced into birdsfoot trefoil ( Lotus corniculatus L.) in experiments aimed at modifying condensed tannin content and polymer hydroxylation in a predictable manner. Analysis of transgenic plants indicated lines that showed enhanced tannin content in leaf and stem tissues. In contrast to previous data from root cultures, levels of propelargonidin units were not markedly elevated in lines with enhanced tannin content. RT-PCR analysis of four selected lines indicated a correlation between enhanced tannin content and expression of the introduced DFR transgene. Using a contrasting approach we introduced a flavonoid 3′5′ hydroxylase ( F3′5′ H) sequence derived from Eustoma grandiflorum into Lotus root cultures. Expression of the transgene was associated with increased levels of condensed tannins and in this case there was also no alteration in polymer hydroxylation. These results suggest that additional mechanisms may exist that control the hydroxylation state of condensed tannins in this model species.