To clarify the lignocellulolytic process of the lower termite symbiotic protistan system, we constructed a cDNA library from an as yet uncultivated symbiotic protist community of the lower termite Reticulitermes speratus. The library was constructed by the biotinylated CAP trapper method and analyzed by one-pass sequencing. Phylogenetic analysis of actin orthologs confirmed that the resulting library reflected the intact organismal and mRNA composition of the symbiotic system. The contents of the library included abundant numbers of lignocellulolytic genes of the glycosyl hydrolase family orthologs (families 3, 5, 7, 8, 10, 11, 26, 43, 45 and 62). Our results clearly indicated that a multiple family of glycosyl hydrolase enzymes was involved in the protistan cellulose degradation system. The data also suggested that the most extensively expressed enzyme was glycosyl hydrolase family 7, a cellobiohydrolase ortholog. This family of enzymes enables the degradation of crystalline cellulose, the principal component of wood biomass.
A rapid unidirectional method for cloning PCR-amplified cDNA fragments into virtually any fusion protein expression vector is described. The method, termed PRESAT-vector cloning, is based on a T-vector technique that does not require restriction endonuclease digestion of the PCR product. Subsequently, we applied a novel ORF selection method of the ligated plasmid products. This second step involves restriction endonuclease treatment that eliminates the plasmids containing an ORF in the wrong orientation prior to transformation into the bacterial host for further protein expression studies. To achieve this selection, we customized the 5Ј-sequence of the "rear" PCR primer corresponding to the C terminus of the protein to be expressed. The colonies harbored only the ligated products of the desired orientation at >90% efficiency. This method is applied to a GST fusion expression system, and an HTS system for soluble proteins from an expression library was tested.
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