Tocopherol (vitamin E) is a plant chloroplast lipid presumed to be involved in the response to oxidative stress. A tocopherol-deficient mutant (vte1) was isolated from Arabidopsis thaliana by using a TLC-based screening approach. Mutant plants lacked all four tocopherol forms and were deficient in tocopherol cyclase activity. Genetic mapping of vte1 and a genomics-based approach led to the identification of the ORF At4g32770 as a candidate gene for tocopherol cyclase. In vte1, At4g32770 contains a splicing site mutation and the corresponding mRNA expression is reduced. Expression of VTE1 in Escherichia coli resulted in the production of a protein with high tocopherol cyclase and tocotrienol cyclase activity. The VTE1 sequence shows no similarities to genes with known function, but is similar to that of SXD1, a gene that was recently isolated based on the availability of the sucrose export defective1 maize mutant (sxd1). Growth of the vte1 mutant, chlorophyll content, and photosynthetic quantum yield were similar to wild type under optimal growth conditions. Therefore, absence of tocopherol has no large impact on photosynthesis or plant viability, suggesting that other antioxidants can compensate for the loss of tocopherol. During photo-oxidative stress, chlorophyll content and photosynthetic quantum yield were slightly reduced in vte1 as compared with wild type indicating a potential role for tocopherol in maintaining an optimal photosynthesis rate under high-light stress.
Chalcone (CHS) and stilbene (STS) synthases are related plant-specific polyketide synthases that are key enzymes in the biosynthesis of flavonoids and of stilbene phytoalexins, respectively. A phylogenetic tree constructed from 34 CHS and four STS sequences revealed that the STS formed no separate cluster but grouped with CHS from the same or related plants. This suggested that STS evolved from CHS several times independently. We attempted to stimulate this by site-directed mutagenesis of an interfamily CHS/STS hybrid, which contained 107 amino acids of a CHS from Sinapis alba (N-terminal) and 287 amino acids of a STS from Arachis hypogaea. The hybrid had no enzyme activity. Three amino acid exchanges in the CHS part (Gln-100 to Glu, Val-103 to Met, Val-105 to Arg) were sufficient to obtain low STS activity, and one additional exchange (Gly-23 to Thr) resulted in 20-25% of the parent STS activity. A kinetic analysis indicated (1) that the hybrids had the same Km for the substrate 4-coumaroyl-CoA but a lower Vmax than the parent STS, and (2) that they had a different substrate preference than the parent STS and CHS. Most of the other mutations and their combinations led to enzymatically inactive protein aggregates, suggesting that the subunit folding and/or the dimerization was disturbed. We propose that STS evolved from CHS by a limited number of amino acid exchanges, and that the advantage gained by this enzyme function favored the selection of plants with improved STS activity.
Stilbene (STS) and chalcone (CHS) synthases are homodimeric, related plant-specific polyketide synthases. Both perform a sequential condensation of three acetate units to a starter residue to form a tetraketide intermediate that is folded to the ring systems specific to the different products. Protein cross-linking and site-directed mutagenesis identified a subunit contact site in position 158, close to the active site (Cys169). This suggested that the active site pockets may be neighboring, possibly alternating in the condensing reactions rather than acting independently. This was investigated by coexpression of active site mutants with differently mutated, inactive proteins. With both STS and CHS, the heterodimers synthesized the end products, indicating that each subunit performed all three condensations. In co-action with a monomeric reductase, CHS also synthesizes 6'-deoxychalcone, but with the chalcone as second product when using plant preparations. The two enzymes expressed as single species in Escherichia coli synthesized both products, and both were also obtained with a CHS heterodimer containing a single active site. The results showed that 6'-deoxychalcone synthesis required no other plant factor and that the formation of two products may be an intrinsic property of the interaction between dimeric CHS and monomeric reductase.
Functionality of the recombinant rat ACP was shown in distantly related and diverse enzyme systems, suggesting that Type I and Type II ACPs have a similar conformation. A procedure was described that might permit the production of rat FAS holo-ACP for structural and further biochemical characterization.
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