Project description:The primary objective of this prospective observational study is to characterize the gut and oral microbiome as well as the whole blood transcriptome in gastrointestinal cancer patients and correlate these findings with cancer type, treatment efficacy and toxicity. Participants will be recruited from existing clinical sites only, no additional clinical sites are needed.
Project description:Purpose: Opium poppy is one of the most important medical plants and remains the only commercial resource of morphinan-based painkillers. However, little is known about its regulation mechanism in benzylisoquinoline alkaloids (BIAs) biosynthesis. Herein, the Transcriptome dataset of Opium poppy was constructed to identify the gene involved in its regulation mechanism in BIAs biosynthesis. Methods: Using Illumina HiSeq X Ten platform, 33 samples of Illumina transcriptome data from different tissues, growth phases and cultivars were constructed. Results: The high-quality transcripts were subsequent quantified with the short reads, and the expression of each unigenes among different samples was calculated by RPKM (the reads per kilobase per million mapped reads). Conclusions: These data provide a foundation of opium poppy transcriptome which may contribute to understand the regulation of BIAs biosynthesis.
Project description:In this work, we collected and analyzed two cohorts of young-adult and aged-adult mice brain mRNAs and determined their levels using second- (illumina) and third-generation (Oxford Nanopore) sequencing technologies. We report a transcriptome-wide study of differential transcript usage during brain aging. In addition, we provide the community with a large resource of whole brain transcriptomes and comprehensive analyses that identify widespread diversity of mRNAs during aging.
Project description:Purpose: Opium poppy is one of the most important medical plants and remains the only commercial resource of morphinan-based painkillers. However, little is known about its regulation mechanism in benzylisoquinoline alkaloids (BIAs) biosynthesis. Herein, the Transcriptome dataset of Opium poppy was constructed to identify the gene involved in its regulation mechanism in BIAs biosynthesis. Methods: Using Illumina HiSeq X Ten platform, 33 samples of Illumina transcriptome data from different tissues, growth phases and cultivars were constructed. Results: The high-quality transcripts were subsequent quantified with the short reads, and the expression of each unigenes among different samples was calculated by RPKM (the reads per kilobase per million mapped reads). Conclusions: These data provide a foundation of opium poppy transcriptome which may contribute to understand the regulation of BIAs biosynthesis.
Project description:Purpose: Opium poppy is one of the most important medical plants and remains the only commercial resource of morphinan-based painkillers. However, little is known about its regulation mechanism in benzylisoquinoline alkaloids (BIAs) biosynthesis. Herein, the Transcriptome dataset of Opium poppy was constructed to identify the gene involved in its regulation mechanism in BIAs biosynthesis. Methods: Using Illumina HiSeq X Ten platform, 33 samples of Illumina transcriptome data from different tissues, growth phases and cultivars were constructed. Results: The high-quality transcripts were subsequent quantified with the short reads, and the expression of each unigenes among different samples was calculated by RPKM (the reads per kilobase per million mapped reads). Conclusions: These data provide a foundation of opium poppy transcriptome which may contribute to understand the regulation of BIAs biosynthesis.