Identification of a 4-coumarate:CoA ligase gene family in the moss, Physcomitrella patens.

Since the early evolution of land plants from primitive green algae, phenylpropanoid compounds have played an important role. In the biosynthesis of phenylpropanoids, 4-coumarate:CoA ligase (4CL; EC 6.2.1.12) has a pivotal role at the divergence point from general phenylpropanoid metabolism to several major branch pathways. Although higher plant 4CLs have been extensively studied, little information is available on the enzymes from bryophytes. In Physcomitrella patens, we have identified a 4CL gene family consisting of four members, taking advantage of the available EST sequences and a draft sequence of the P. patens genome. The encoded proteins of three of the genes display similar substrate utilization profiles with highest catalytic efficiency towards 4-coumarate. Interestingly, the efficiency with cinnamate as substrate is in the same range as with caffeate and ferulate. The deduced proteins of the four genes share sequence identities between 78% and 86%. The intron/exon structures are pair wise similar. Pp4CL2 and Pp4CL3 each consists of four exons and three introns, whereas Pp4CL1 and Pp4CL4 are characterized each by five exons and four introns. Pp4CL1, Pp4CL2 and Pp4CL3 are expressed in both gametophore and protonema tissue of P. patens, unlike Pp4CL4 whose expression could not be demonstrated under the conditions employed. Phylogenetic analysis suggests an early evolutionary divergence of Pp4CL gene family members. Using Streptomyces coelicolor cinnamate:CoA ligase (ScCCL) as an outgroup, the P. patens 4CLs are clearly separated from the spermatophyte proteins, but are intercalated between the angiosperm 4CL class I and class II. A comparison of three P. patens subspecies from diverse geographical locations shows high sequence identities for the four 4CL isoforms.