Cloning and functional characterization of two cinnamate 4-hydroxylase genes from Pyrus bretschneideri

Cinnamate 4-hydroxylase (C4H) is a key enzyme in the phenylpropanoid pathway in plants and is involved in the biosynthesis of secondary metabolites such as lignin and flavonoids. However, the function of C4H in pear plants (Pyrus bretschneideri) has not yet been fully elucidated. By searching pear genome databases, we identified three C4H genes (PbC4H1, PbC4H2 and PbC4H3) encoding proteins that share higher identity with bonafide C4Hs from several species with typical cytochrome P450 domains, suggesting that all three PbC4Hs are also bonafide C4Hs that have close evolutionary relationships with C4Hs from other land plants. Quantitative real-time PCR (qRT-PCR) results indicated that the three PbC4Hs were specifically expressed in one or more tissues. The expression levels of PbC4H1 and PbC4H3 first increased and then decreased during pear fruit development. Treatment with exogenous hormones (ABA, MeJA, and SA) altered the expression of the three PbC4Hs to varying degrees. The expression levels of the PbC4Hs were first induced and then decreased under ABA treatment, while MeJA treatment significantly increased the expression levels of the PbC4Hs. Following treatment with SA, expression levels of PbC4H1 and PbC4H2 increased, while expression levels of PbC4H3 decreased. Enzymatic analysis of the recombinant proteins expressed in yeast indicated that PbC4H1 and PbC4H3 catalysed the conversion of trans-cinnamic acid to p-coumaric acid. Moreover, the expression of PbC4H1 and PbC4H3 in Arabidopsis resulted in an increase in both the lignin content and the thickness of cell walls for intervascular fibres and xylem cells. Taken together, the results of our study not only revealed the potential role of PbC4H1 and PbC4H3 in lignin biosynthesis but also established a foundation for future investigations of the regulation of lignin synthesis and stone cell development in pear fruit by molecular biological techniques.