Coniferyl alcohol oxidase activity was determined in cell walls from hypocotyls of the following species belonging to the family Asteraceae: Calendula officinalis, Callistephus sinensis, Cosmos bipinnanthus, Helianthus annuus, Helianthus debilis and Zinnia elegans. In all the cases studied, coniferyl alcohol oxidase activity was partially located ionically-bound to cell walls and resided in a basic peroxidase, the activity of which was stimulated by H 2 O 2 . This enzymatic activity was insensitive to freezing and was inactivated by high H 2 O 2 concentrations, as tested both in vitro and in situ by using purified cell wall fractions. The peroxidase with coniferyl alcohol oxidase activity was purified from Z. elegans hypocotyls until apparent homogeneity, as checked by SDS-PAGE. It showed a visible spectrum typical of a haem-containing high-spin ferric secretory (class III) plant peroxidase. Coniferyl alcohol oxidase activity of this basic peroxidase constitutes about 0.25% of the activity shown in the presence of H 2 O 2 . The significance of the coniferyl alcohol oxidase activity in vivo was studied in Z. elegans hypocotyls by means of histochemical tests, which revealed that it was located in the H 2 O 2 -producing lignifying xylem cells. The results obtained from the histochemical probes suggest that the coniferyl alcohol oxidase activity of this basic peroxidase is physiologically irrelevant in tissues that accumulate H 2 O 2 , as is the case of the lignifying xylem, where the peroxidase activity of the enzyme favorably competes with the oxidase activity of the enzyme.
The most distinctive variation in the monomer composition of lignins in vascular land plants is that between the two main groups of seed plants. Thus, whereas gymnosperm (softwood) lignins are typically composed of guaiacyl (G) units, angiosperm (hardwood) lignins are largely composed of similar levels of G and syringyl (S) units. However, there are some studies that suggest that certain angiosperm peroxidases are unable to oxidize sinapyl alcohol, and a coniferyl alcohol shuttle has been proposed for oxidizing S units during the biosynthesis of lignins. With this in mind, a screening of the presence of S peroxidases in angiosperms (including woody species and forages) was performed. Contrarily to what might be expected, the intercellular washing fluids from lignifying tissues of 25 woody, herbaceous, and shrub species, belonging to both monocots and dicotyledons, all showed both S peroxidase activities and basic peroxidase isoenzymes analogous, with regard the isoelectric point, to the Zinnia elegans basic peroxidase isoenzyme, the only S peroxidase that has been fully characterized. These results led to the protein database in the search for homologies between angiosperm peroxidases and a true eudicot S peroxidase, the Z. elegans peroxidase. The findings showed that certain structural motifs of S peroxidases are conserved within the first 15 million years of angiosperm history, because they are found in peroxidases from the two major lineages of flowering plants, eumagnoliids and eudicotyledons, of note being the presence of these peroxidases in Amborella and Nymphaeales, which represent the first stages of angiosperm evolution. These phylogenetic studies also suggest that guaiacyl peroxidases apparently constitute the most "evolved state" of the plant peroxidase family evolution.
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