Project description:Thermomyces lanuginosus is a thermophilic fungus whose genome encodes many carbohydrate-active enzymes involved in Avicel degradation. This study examined and compared the transcriptomes of T. lanuginosus during cultivation on Avicesl or glucose. We identified approximately 4485 genes that showed expression differences when T. lanuginosus was cultured on Avicel compared to glucose. Functional annotation of up-regulated genes showed enrichment for proteins predicted to be involved in Avicel degradation, but also many genes encoding proteins of unknown function. Our study represents the first analysis of transcriptomes, with biologic replicates, generated by RNA-seq technology. We conclude that RNA-seq based transcriptome characterization would expedite genetic network analyses and permit the dissection of complex biologic functions.

Project description:Thermomyces lanuginosus is a thermophilic fungus whose genome encodes many carbohydrate-active enzymes involved in Avicel degradation. This study examined and compared the transcriptomes of T. lanuginosus during cultivation on Avicesl or glucose. We identified approximately 4485 genes that showed expression differences when T. lanuginosus was cultured on Avicel compared to glucose. Functional annotation of up-regulated genes showed enrichment for proteins predicted to be involved in Avicel degradation, but also many genes encoding proteins of unknown function. Our study represents the first analysis of transcriptomes, with biologic replicates, generated by RNA-seq technology. We conclude that RNA-seq based transcriptome characterization would expedite genetic network analyses and permit the dissection of complex biologic functions. mRNA profiles of 2-day old Thermomyces lanuginosus were generated by deep sequencing,in duplicate, using Illumina GAIIx.

Project description:Thermomyces lanuginosus SSBP Genome sequencing and assembly

Project description:Thermomyces lanuginosus strain:ATCC200065 Transcriptome or Gene expression

Project description:Thermomyces lanuginosus strain:0065 Raw sequence reads

Project description:A lable-free quantitative proteomics method was employed to study the difference of Thermomyces lanuginosus and Thermobifoda fusca when they grown different carbon sources

Project description:Genome sequencing of Thermomyces lanuginosus SSBP

Project description:Non-cellulolytic thermophilic fungus

Project description:The low cost lipase derived from Thermomyces lanugionous was chosen to conjugate with Fe3O4 nanoparitcles as a magnetic responsive lipase (MRL) biocatalyst. The structure of MRL was observed by atomic force microscopy (AFM). The Fourier transform infrared (FTIR) spectroscopy analysis confirmed the lipase conjugated to Fe3O4 nanoparticles. Optimized conditions for the process of biodiesel production by MRL were investigated by the response surface methodology (RSM) and the Box-Behnken design (BBD). The optimized conditions for biodiesel production by MRL were as follows. The molar ratio of methanol to oil was 4.0, water content was 1.5 % as oil weight, the dosage of MRL to oil was 9.0 % (W/W) under 41?°C for 28?h. Under the optimized conditions, the yield of FAMEs by MRL reached 82.20 %. Further experiments showed that the MRL could be used 10 cycles and the yield of FAMEs decreased slightly by 10.97 %. These results indicated that Fe3O4 nanoparticle carrier could efficiently improve the FAMEs synthesis and enhance the MRL stabilization and reusability in the biodiesel production.

Project description:A new strain of Thermomyces lanuginosus was isolated from the Atlantic Forest biome, and its ?-xylosidases optimization in response to agro-industrial residues was performed. Using statistical approach as a strategy for optimization, the induction of ?-xylosidases activity was evaluated in residual corn straw, and improved so that the optimum condition achieved high ?-xylosidases activities 1003U/mL. According our known, this study is the first to show so high levels of ?-xylosidases activities induction. In addition, the application of an experimental design with this microorganism to induce ?-xylosidases has not been reported until the present work. The optimal conditions for the crude enzyme extract were pH 5.5 and 60°C showing better thermostability at 55°C. The saccharification ability of ?-xylosidase in the presence of hemicellulose obtained from corn straw raw and xylan from beechwood substrates showed a xylo-oligosaccharide to xylose conversion yield of 80 and 50%, respectively, at 50°C. Our data strongly indicated that the ?-xylosidases activities was not subjected to the effects of potential enzyme inhibitors often produced during fermentation process. These data suggest the application of this enzyme studied for saccharification of hemicellulose, an abundant residue in the American continents, thus providing an interesting alternative for future tests for energy production.