Abstract: Methods and compositions for controlling termite populations by leveraging newly discovered mechanisms for symbiont- and host mediated anti-fungal defenses in the termite hind-gut. Such methods may include administering a composition to a termite, the composition formulated to promote protist dysbiosis in the gut of the termite, or silencing specific host or symbiont genes by RNA interference, and exposing the termite to a pathogen, where the composition increases the susceptibility of the termite to the pathogen. Compositions are also provided for the treatment of fungal infections, the composition comprising a medically effective amount of recombinant glycosyl hydrolase family 7 cellulase, as well as methods for utilizing the same.

Abstract: Methods and compositions for controlling termite populations by leveraging newly discovered mechanisms for symbiont- and host mediated anti-fungal defenses in the termite hind-gut. Such methods may include administering a composition to a termite, the composition formulated to promote protist dysbiosis in the gut of the termite, or silencing specific host or symbiont genes by RNA interference, and exposing the termite to a pathogen, where the composition increases the susceptibility of the termite to the pathogen. Compositions are also provided for the treatment of fungal infections, the composition comprising a medically effective amount of recombinant glycosyl hydrolase family 7 cellulase, as well as methods for utilizing the same.

Abstract: The disclosure provides isolated nucleic acid molecules derived from the gut of the termite R flavipes, recombinant nucleic acid molecules comprising a vector and an isolated heterologous nucleic acid molecule operably inserted therein, whereby, when transformed into an appropriate host cell system, the heterologous nucleic acid sequence is expressed as a polypeptide having an activity similar to that when expressed in the gut of the termite R. flavipes. The recombinant nucleic acid molecules can comprise more than one heterologous nucleic acid molecule such that more than one polypeptide may be expressed by the host system. The expressed polypeptides may be substantially purified, or used in a substantially unpurified form, to be admixed with a lignocellulose source to be converted to a fermentable product such as a sugar or a mixture of sugars.

Abstract: The disclosure provides isolated nucleic acid molecules derived from the gut of the termite R flavipes, recombinant nucleic acid molecules comprising a vector and an isolated heterologous nucleic acid molecule operably inserted therein, whereby, when transformed into an appropriate host cell system, the heterologous nucleic acid sequence is expressed as a polypeptide having an activity similar to that when expressed in the gut of the termite R. flavipes. The recombinant nucleic acid molecules can comprise more than one heterologous nucleic acid molecule such that more than one polypeptide may be expressed by the host system. The expressed polypeptides may be substantially purified, or used in a substantially unpurified form, to be admixed with a lignocellulose source to be converted to a fermentable product such as a sugar or a mixture of sugars.

Abstract: Methods, matrix compositions and kits for increasing the mortality of termites (R. flavipes) and interfering with termite development using RNA interference techniques to target cellulase, lignocellulase, hexamerin, broad, farnesoic acid methyl transferase, cytochrome P450 and vitellogenin activity are provided.

Abstract: A method, composition and system for controlling termites wherein single carbohydrate-based compounds are used as both cellulase inhibitors and feeding stimulants. Di-saccharides, cellobioimidazole (CBI), fluoro-methyl cellobiose (FMCB), and mono-saccharides, fluoro-methyl glucose (FMG) and analogs thereof inhibit termite cellulose digestion, which leads to starvation or stimulates termite feeding to cause mortality. CBI, FMCB and FMG were tested against enzyme fractions that represented endogenous (foregut/salivary gland/midgut) and symbiotic (hindgut) termite cellulases in vitro and in vivo. Feeding stimulation by di-saccharides results in greater cellulase inhibitor intake throughout midrange concentrations (1 mM-10 mM), which is associated with significant termite mortality. In contrast, the monosaccharide inhibitor, FMG did not stimulate feeding, but did inhibit feeding at concentrations above 1 mM, causing mortality.