A chalcone synthase (CHS)-like gene, SbCHS8, with high expressed sequence tag abundance in a pathogen-induced cDNA library, was identified previously in sorghum (Sorghum bicolor). Genomic Southern analysis revealed that SbCHS8 represents a single-copy gene. SbCHS8 expression was induced in sorghum mesocotyls following inoculation with Cochliobolus heterotrophus and Colletotrichum sublineolum, corresponding to nonhost and host defense responses, respectively. However, the induction was delayed by approximately 24 h when compared to the expression of at least one of the other SbCHS genes. In addition, SbCHS8 expression was not induced by light and did not occur in a tissue-specific manner. SbCHS8, together with SbCHS2, was overexpressed in transgenic Arabidopsis (Arabidopsis thaliana) tt4 (transparent testa) mutants defective in CHS activities. SbCHS2 rescued the ability of these mutants to accumulate flavonoids in seed coats and seedlings. In contrast, SbCHS8 failed to complement the mutation, suggesting that the encoded enzyme does not function as a CHS. To elucidate their biochemical functions, recombinant proteins were assayed with different phenylpropanoid-Coenzyme A esters. Flavanones and stilbenes were detected in the reaction products of SbCHS2 and SbCHS8, respectively. Taken together, our data demonstrated that SbCHS2 encodes a typical CHS that synthesizes naringenin chalcone, which is necessary for the formation of different flavonoid metabolites. On the other hand, SbCHS8, now retermed SbSTS1, encodes an enzyme with stilbene synthase activity, suggesting that sorghum accumulates stilbene-derived defense metabolites in addition to the well-characterized 3-deoxyanthocyanidin phytoalexins.
Arabidopsis contains only one functional dihydroflavonol 4-reductase (DFR) gene, but several DFR-like genes encoding proteins with the conserved NAD(P)H binding domain. At4g35420, named DRL1 (Dihydroflavonol 4-reductase-like1), is a closely related homolog of the rice anther-specific gene OsDFR2 reported previously. Two T-DNA mutants (drl1-1 and drl1-2) were found to have impaired pollen formation and seed production. Histological analysis revealed defective microspore development after tetrad release in both mutants. Microspore walls were found to rupture, releasing the protoplasts which eventually degenerated. The DRL1 promoter is anther-specific in closed flower buds. Promoter-GUS analysis in transgenic Arabidopsis revealed expression in tapetum, tetrads, and developing microspores, but not in mature anthers. Enhanced yellow fluorescent protein (EYFP)-localization analysis demonstrated that DRL1 is a soluble cytosolic protein that may also be localized in the nucleus. Restoration of male fertility and seed formation was only achieved by a native promoter-DRL1 construct, but not by a 35S-DRL1 construct, demonstrating the importance of spatial and temporal specificities of DRL1 expression. DRL1 may be involved in a novel metabolic pathway essential for pollen wall development. DRL1 homologs were identified as anther- and floral-specific expressed sequence tags from different species, suggesting that DRL1 may have a conserved functional role in male fertility in flowering plants.
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