Project description:Results of high-throughput sequencing

Project description:Interventions: Case vs control:No Primary outcome(s): High-throughput sequencing Study Design: Case-Control study

Project description:High throughput sequencing results of West Lake samples

Project description:High-throughput sequencing results of Liangzhu cultural site

Project description:High - throughput sequencing results of different goats intestinal microbes

Project description:High-throughput sequencing results in mice with corneal allograft

Project description:Interventions: left hemicolectomy:None;right hemicolectomy:None;sigmoid resection:None;radical rectal cancer:None;low rectal resection with prophylactic ileostomy:None Primary outcome(s): Fecal high-throughput sequencing;Fecal Metabolomics;immunomics Study Design: Factorial

Project description:Results of high-throughput sequencing of soil samples with different treatments

Project description:Interventions: Positive lymph nodes around gastric cancer:None;Negative lymph nodes around gastric cancer:None;Positive lymph nodes around colorectal cancer:None;Negative lymph nodes around colorectal cancer:None Primary outcome(s): Lymph nodes pathology diagnosis;Lymph nodes high-throughput sequencing;Metabonomics of lymph nodes;Immunomics of lymph nodes Study Design: Sequential

Project description:Purpose: High-throughput RNA sequencing has accelerated discovery of the complex regulatory roles of small RNAs, such those derived from tRNAs. Also recent advances in high-throughput RNA sequencing has revealed the complex RNA modification landscape and the complex role these nucleosides modifactions have in cell signalling, stem cell biology, development and cancer. The goal of this study is to establish how m5C-tRNA methylation and tRNA-derived small RNAs can affect stem cell fucntion in cancer. Methods: four replicates of tRNAs and RNA buisulphite sequencing of wild-type (WT) and NSun2 -/- mouse skin squamous tumours were generated by deep sequencing, using Illumina HiSeq platform. Results: Our analyses reveal that inhibition of post-transcriptional cytosine-5 methylation locks stem cells in this distinct translational inhibition programme that results in tumour progression but that also sentizes cancer cells to genotoxic stress. Transfer RNA (tRNA) sequencing and RNA Bisulphite sequencing of wild-type (WT) and NSun2 -/- mouse skin squamous tumours