Isolation and phylogenetic analysis of new predicted polyprenol reductase from mangrove plant (Kandelia obovata Sheue, H. Y. Liu & J. Yong)

Major polyisoprenoid alcohols of mangrove plants were dolichols. Polyprenol reductase, therefore, may be active in mangrove plant leaves to catalyze the reduction of polyprenol to dolichol. Genomic sequence and homology-based PCRs method of mangrove plant Kandelia obovata have resulted in the cloning of predicted polyprenol reductase. The partial gene termed KoPPRD1 (1 192 bp, coding for 382 amino acids). The deduced amino acid sequence of KoPPRD1 showed significant similarity to known plant polyprenol reductase with the highest homology to Ricinus communis polyprenol reductase 2 (62 %). This result showed that the fragment gene of KoPPRD1 might encode polyprenol reductase gene. To clarify the relationship of KoPPRD1 to other polyprenol reductase genes, the phylogenetic analysis was constructed using ClustalW ver. 2.0 followed by drawing with TreeView based on a neighbor-joining method. Phylogenetic tree shows that KoPPRD1 join with R. communis polyprenol reductase 2, Ipomea nil polyprenol reductase 2, and Populus euphratica polyprenol reductase 2 branches, suggesting that KoPPRD1 gene is a new member of plant polyprenol reductase.Major polyisoprenoid alcohols of mangrove plants were dolichols. Polyprenol reductase, therefore, may be active in mangrove plant leaves to catalyze the reduction of polyprenol to dolichol. Genomic sequence and homology-based PCRs method of mangrove plant Kandelia obovata have resulted in the cloning of predicted polyprenol reductase. The partial gene termed KoPPRD1 (1 192 bp, coding for 382 amino acids). The deduced amino acid sequence of KoPPRD1 showed significant similarity to known plant polyprenol reductase with the highest homology to Ricinus communis polyprenol reductase 2 (62 %). This result showed that the fragment gene of KoPPRD1 might encode polyprenol reductase gene. To clarify the relationship of KoPPRD1 to other polyprenol reductase genes, the phylogenetic analysis was constructed using ClustalW ver. 2.0 followed by drawing with TreeView based on a neighbor-joining method. Phylogenetic tree shows that KoPPRD1 join with R. communis polyprenol reductase 2, Ipomea nil polyprenol reductase 2, an...