Project description:Aberrant DNA methylation is common in cancer. To associate DNA methylation with gene function, we performed RNAseq upon tumor tissue and matched normal tissues of two ccRCC (clear cell renal cell carcinoma) patients. To quantify 5mC and 5hmC level in each CG site at genome-wide level, we performed BS-seq and TAB-seq upon tumor tissue and matched normal tissues of two ccRCC (clear cell renal cell carcinoma) patients, respectively. mRNA profiles of tumor and matched normal tissues from two ccRCC patients were generated by deep sequencing, using Hiseq 2000. Single-nucleotide-resolution, whole-genome, 5mC and 5hmC profiles of tumor and matched normal tissues from two ccRCC (clear cell renal cell carcinoma) patients were generated by deep sequencing, using Hiseq 2000.

Project description:To determine the circRNA expression profile in CCRCC and matched non-tumor tissues, we uesed circRNA microArray analysis form Arraystar to examine the expression of circRNAs in CCRCC and matched non-tumor tissues.

Project description:We cultured MCF10a-Snail-ER cells and induced EMT initiation with tamoxifen. A matched sequencing of their PolyA RNA was performed, using Illumina and direct RNA Oxford Nanopore sequencing technologies. Both generated datasets supported the development of hybrid bioinformatics tools.

Project description:To identify a therapeutic candidate target molecule for ccRCC, we analyzed the microRNA (miRNA) expression signatures in ccRCC clinical specimens. 9 matched pair (normal tissue and ccRCC tissue) plus 7 ccRCC tissue were analyzed for miRNA-microarray

Project description:We sequenced DNA from a bulk of Col x Ler F2 hybrid plants (WT and recq4) using Nanopore long-read sequencing and identified crossover sites with COmapper. For nanopore sequencing of gDNA from 1,000 pooled seedlings, 10-day-old seedlings were ground in liquid nitrogen using a mortar and pestle. The ground tissue was resuspended in four volumes of CTAB buffer (1% [w/v] CTAB, 50 mM Tris-HCl pH 8.0, 0.7 M NaCl, 10 mM EDTA) and incubated at 65°C for 30 min. Following chloroform extraction, isopropanol precipitation and removal of RNAs as above, the gDNA pellet was resuspended in 150 μl TE (10 mM Tris-HCl pH 8.0, 0.1 mM EDTA) buffer and gDNA was quantified using a Qubit dsDNA Broad Range assay kit (Thermo Fisher, Q32853). Nine micrograms of gDNA from pollen or seedlings was used to construct a nanopore long-read sequencing library using a Ligation Sequencing Kit V14 (Nanopore, SQK-LSK114). The libraries were sequenced using a PromethION platform (BGI, Hong Kong).

Project description:Genomic DNA from 39 recq4 Col x Ler F2 individuals was extracted using the CTAB method. Equal amounts of DNA from these 39 plants were pooled and nine micrograms of gDNA from each pool was used to generate Nanopore sequencing libraries with the Ligation Sequencing Kit V14 (Nanopore, SQK-LSK114). The libraries were sequenced independently using PromethION (BGI, Hong Kong).

Project description:Clear cell renal cell carcinoma (ccRCC) arising in the setting of von Hippel–Lindau (VHL) disease is a rare type of kidney cancer and features VHL germline mutation. This type of ccRCC is rarely characterised at the single-cell level. In this work, whole-exome sequencing and single-cell RNA sequencing (scRNA-seq) were conducted on one ccRCC sample with VHL disease. Integrating scRNA-seq and whole-exome sequencing data by the Seurat package, we determined the relationship between single-cell transcriptome features and gene mutations. Immunohistochemistry and immunofluorescence were performed on one VHL germline mutation ccRCC and six non-VHL germline mutation ccRCC samples. We revealed the gene expression characteristics of ccRCC with VHL germline mutation. The frameshift mutations in OBP2A and BCR1, and the elevated expression of COX7A1 were most specific characteristics of ccRCC tumor cells with VHL mutation. And the extensive infiltration of exhausted T cells was the characteristic of tumor microenvironment. In addition, we discovered the relationship between genetic mutations and immune checkpoints. This work highlights the single-cell transcriptome and DNA-level information of this rare ccRCC and will provide more genetic insights and references into this rare disease.

Project description:We sequenced DNA from the leaves of ten Col x Ler F1 hybrid plants (WT and recq4) using Nanopore long-read sequencing and identified crossover sites with COmapper. These data were used as a negative control for COmapper, as no crossover sites were expected to be detected. For nanopore sequencing of gDNA from leaves, leaves from 10 5-week-old plants were ground in liquid nitrogen using a mortar and pestle. The ground tissue was resuspended in four volumes of CTAB buffer (1% [w/v] CTAB, 50 mM Tris-HCl pH 8.0, 0.7 M NaCl, 10 mM EDTA) and incubated at 65°C for 30 min. Following chloroform extraction, isopropanol precipitation and removal of RNAs as above, the gDNA pellet was resuspended in 150 μl TE (10 mM Tris-HCl pH 8.0, 0.1 mM EDTA) buffer and gDNA was quantified using a Qubit dsDNA Broad Range assay kit (Thermo Fisher, Q32853). Nine micrograms of gDNA from pollen or seedlings was used to construct a nanopore long-read sequencing library using a Ligation Sequencing Kit V14 (Nanopore, SQK-LSK114). The libraries were sequenced using a PromethION platform (BGI, Hong Kong).

Project description:Here we performed 3’ transcriptome single cell sequencing on 7 ccRCC patients’ tumor and matched 5 adjacent normal samples. We identified two different functional subgroups in ccRCC tumor epithelial cells and two different gene transcriptional programs that were associated with survival across a TCGA cohort. We found important transcriptional factor regulons that played roles in ccRCC progression. We identified macrophage and T cell clusters whose higher infiltration in tumor was associated with overall survival. We also discovered some potentially targetable inhibitory interactions among tumor epithelial cells, the infiltrating T cell and myeloid compartments. Collectively, our data provided cell clusters and gene sets for predict clinical outcome and potential targets for ccRCC therapy.

Project description:Genomic DNA from 55 wild type Col x Ler F2 individuals was extracted using the CTAB method. Equal amounts of DNA from these 55 plants were pooled into two groups (pool 1 = 4 plants; pool 2 = 51 plants), and nine micrograms of gDNA from each pool was used to generate Nanopore sequencing libraries with the Ligation Sequencing Kit V14 (Nanopore, SQK-LSK114). The libraries were sequenced independently using PromethION (BGI, Hong Kong).