Abstract
2-Methyl-3-buten-2-ol (MBO) is a five-carbon alcohol produced and emitted in large quantities by many species of pine native to western North America. MBO is structurally and biosynthetically related to isoprene and can have an important impact on regional atmospheric chemistry. The gene for MBO synthase was identified from Pinus sabiniana, and the protein encoded was functionally characterized. MBO synthase is a bifunctional enzyme that produces both MBO and isoprene in a ratio of ~90:1. Divalent cations are required for activity, whereas monovalent cations are not. MBO production is enhanced by K(+), whereas isoprene production is inhibited by K(+) such that, at physiologically relevant [K(+)], little or no isoprene emission should be detected from MBO-emitting trees. The K(m) of MBO synthase for dimethylallyl diphosphate (20 mm) is comparable with that observed for angiosperm isoprene synthases and 3 orders of magnitude higher than that observed for monoterpene and sesquiterpene synthases. Phylogenetic analysis showed that MBO synthase falls into the TPS-d1 group (gymnosperm monoterpene synthases) and is most closely related to linalool synthase from Picea abies. Structural modeling showed that up to three phenylalanine residues restrict the size of the active site and may be responsible for making this a hemiterpene synthase rather than a monoterpene synthase. One of these residues is homologous to a Phe residue found in the active site of isoprene synthases. The remaining two Phe residues do not have homologs in isoprene synthases but occupy the same space as a second Phe residue that closes off the isoprene synthase active site.
Highlights
Hemiterpenes are the smallest members of the isoprenoid family
Gymnosperm terpene synthases belong to the TPS-d subfamily [17, 18], which is further subdivided into the d1, d2, and d3 groups
Discovery and Functional Confirmation of the MBO Synthase Gene—Using degenerate PCR primers designed to match conserved regions of conifer monoterpene synthase genes, we amplified a series of sequence fragments from cDNA derived from the needles of P. sabiniana
Summary
Hemiterpenes are the smallest members of the isoprenoid family. Two are important in biosphere-atmosphere interactions, isoprene (2-methyl-1,3-butadiene) and an isomer of methylbutenol (2-methyl-3-buten-2-ol (MBO)). Isoprene is. MBO is similar to isoprene and is given off by many species of pine trees in western North America [2,3,4]. Two families of isoprene synthase sequences are known from angiosperms (several from Populus species (9 –12) and one from kudzu [9]). Both groups of isoprene synthases closely resemble angiosperm monoterpene synthases in sequence and structure [9, 13]. The plant terpene synthase (TPS) gene family consists of several different subfamilies [14, 15]. The sequence and structure of hemiterpene synthases found in gymnosperms and the other major taxonomic groups, which do not have TPS-b genes, are unknown
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