Project description:The study proposes the characterization of the intestinal and vaginal microbiota in long-term radiated cervical and endometrial cancer survivors to study the association with long-term radiotherapy side effects.

Project description:RNA sequencing revealed the different transcriptional profiles of long-term cultured and short-term cultured CAR-T cells

Project description:Chimeric antigen receptor (CAR) T cells are known to be potent in recognizing and eliminating tumor cells. They induce marked responses in patients with refractory leukemia and lymphoma, but exhaustion is an inevitable obstacle important barrier for to persistant curative effect. CD19-targeted CAR incorporating the 4-1BB costimulation domain showed a lower tendency toward exhaustion during ex vivo expansion, and downstream differentiation was still observed with a prolonged culture time. We explored the transcriptional changes during the culture process using 4-1BB CD19-targeted CAR-T cells . In contrast to T cells (cultured 5 days in vitro) and short-term cultured (5 days) CAR-T cells, the pathway for regulation of the cytosolic calcium ion concentration was significantly upregulated in the long-term cultured (11 days) group.

Project description:Transcriptome analysis of murine foetal NSCs (E14) after short-term (48 hours) and long-term (13 days) hypoxic (3% oxygen) culture compared to normoxic culture (21% oxygen) We focused on whole-transcriptome analyses using gene chip microarrays to compare expression profiles of NSCs cultured at hypoxic conditions to those of normoxic cells. Therefore, we used NSCs derived from the mesencephalon and the cortex and cultured them for short- and long-term at hypoxia/normoxia.

Project description:long-term fertilization Raw sequence reads

Project description:TPX2 Amplification-Driven Aberrant Mitosis in Long-Term Cultured Human Embryonic Stem Cells

Project description:Purpose: Nephron progenitor cells generate nephrons, the basic units of kidney. We developed methods to culture mouse and human NPCs in their self-renewal state in vitro with full nephrogenic potentials. The RNA-seq here is used to compare the global gene expression of long-term cultured mouse NPCs and their cognate freshly isolated primary NPCs Methods: mRNA profiles were generated by deep sequencing in duplicate from E11.5, E12.5, E13.5, E16.5 and P1 primary NPCs, and from long-term cultured NPCs derived from E11.5, E13.5, E16.5 and P1 (Passage 20 and Passage 80 for each cell line). To generate rpkm values from raw data, single-end 50bp reads were mapped to the UCSC mouse transcriptome (mm9) by STAR9, allowing for up to 10 mismatches (which is the default by STAR). Only the reads aligned uniquely to one genomic location were retained for subsequent analysis. And expression levels of all genes were estimated by Cufflink10 using only the reads with exact matches. Results: The gene expression levels of the "NPC-signature genes" were firstly transformed as logarithm scales. And then the program “prcomp”, a built-in program for principal component analysis in R packages, was employed with default parameters. We evaluated the variance percentage of each principal component, and found the top 3 components accounted for 84.1% of the total variance, where PC1 accounted for 46.42%, PC2 23.87% and PC3 13.81%. Those three PCs are therefore selected as candidate principal components in the further analysis. Another program “scatterplot3d” in the R packages was used to plot the 3D view of PCA, and “ggplot2” was used in 2D view of PCA. The PCA results indicate that cultured NPCs cluster together in PCA analysis while primary NPCs segregate into early (E11.5 to E13.5) and later (E16.5, P1) NPC groups. Interestingly, cultured NPCs are close to early NPCs in both PC1 and PC2 axes, suggesting that cultured NPCs are maintained in state close to early NPCs. The close cluster of P20 and P80 NPCs show the robustness of our culture condition in maintaining stable self-renewal state of NPCs. Conclusions: Our study represents the first analysis comparing the long-term cultured NPC lines we geneated with primary NPCs, with biologic replicates, generated by RNA-seq technology. The optimized data analysis workflows reported here should provide a framework for comparative investigations of expression profiles. Our results show that NGS offers a comprehensive and more accurate quantitative and qualitative evaluation of mRNA content within a cell or tissue. We conclude that RNA-seq based transcriptome characterization would expedite genetic network analyses and permit the dissection of complex biologic functions.

Project description:Here we established two tumor tissue-derived long-term-cultured breast cancer stem cells (BCSC). RNA extraction and microarray analysis total RNA from BCSC treating with G1, G15, or control (Ctrl) for 48 hr were extracted using Trizol Reagent. Important significant differences of cDNA genes were identified. (The G1-treated group was designed as \\"12\\", the control group was \\"11\\" (raw data: 11 and 12; processed data: BCSC-G1). Similarly, the G15-treated study group was defined as \\"14\\", the control group was \\"13\\" (raw data: 13 and 14; processed data: BCSC-G15).

Project description:Long-term culture of alveolospheres

Project description:Long Term Fertilizer Experiment Raw sequence reads