Project description:A conditional and isogenic system for APOBEC3B (A3B) induction in T-REx-293 cells. Cells were engineered to express doxycycline-inducible A3B-eGFP or eGFP constructs and subjected to 10 rounds of A3B-eGFP exposure causing 80-90% cell death. Control pools (eGFP) were subjected to parallel rounds of non-toxic eGFP exposure, and dilutions were done each round to mimic A3B-eGFP induced population fluctuations. DNA was extracted and subjected to SNP analyses using the Human OmniExpress-24v1-0 BeadChip (Illumina, San Diego, CA). Genotyping was performed using the humanomniexpress_24v1-0_a cluster file.

Project description:This experiment is designed to screen miRNAs that are deregulated during chemoresistance-associated metastasis of lung cancer cells. Chemoresistant metastatic in vivo tumor model of A549-luc-Vector cells was established after four rounds of cisplatin (CDDP) treatments compared to corresponding control solvent treatments. Upon examining profiles of miRNA expression differential between tumor-derived cultured cells from the Ctrl-4th and CDDP-4th treatments, most markedly upregulated and downregulated miRNAs in chemoresistant, metastatic A549-luc-CDDP-4th cells were identified. In order to establish a chemoresistant in vivo tumor model, after inoculation of A549-luc-Vector cells, cisplatin (CDDP) or control solvent was intraperitoneally (i.p.) injected six rounds in a two-week period and cells were isolated from corresponding resultant tumors, cultured and re-transplanted into syngeneic mice to receive the next round of treatment. In our experimental model, human lung cancer xenografts developed chemoresistance in the third round of CDDP treatment (CDDP-3rd) and chemoresistance-associated metastases following the fourth round of treatment. Tumor-derived cultured cells from Ctrl-4th and CDDP (cisplatin)-4th treatment were subjected to miRNA array (Agilent-031181 human miRNA (8*60k) V16.0) analysis, with two biological replications for each treatment.

Project description:Spermatogenesis is a recurring differentiation process that results in the production of male gametes within the testes. During this process, spermatogonial stem cells differentiate to form spermatocytes, which undergo two rounds of meiotic division to form haploid spermatids. Throughout spermiogenesis, round spermatids elongate to form mature sperm. To profile maturing cell types, we generated bulk RNA-seq data from whole testis undergoing the first round of spermatogenesis between post-natal day P6 and P35. We also compared these libraries to adult samples.

Project description:DNA sequencing for Round 5 of the pHLA-A2 yeast display library selection for MA2 Fab

Project description:The hBMEC CRISPR/Cas9 library was seeded in eight T225 flasks with 2 × 107 cells each and incubated for 3 days. The hBMECs doubled every 3 days, generating a total of 3.2 × 108 cells, which were divided into four parts, yielding 8 × 107 cells per experimental condition (~1,000× coverage per perturbation in each library). A quarter of the cells were used as the input library and the remaining three quarters for SzM cytotoxicity screens. The cell libraries were treated with purified SzM protein diluted in DMEM (10% FBS) at a final concentration of 50 μg/ml for 48 hr; when ~50% cells were dead, the surviving cells were out grown in fresh DMEM (10% FBS) without SzM protein. These cells were divided into two parts, one part for genomic DNA extraction, and the other for the next round of screening. The same treatment with 50 μg/ml purified SzM protein for 48 hr was used in the 2nd round and the 3rd rounds, using the same protocol outlined above. After the 3rd round, all cells were harvested for genomic DNA extraction.

Project description:Genomic changes in low and highly metastatic A549 cells were analyzed by 500K SNP arrays. A large number of genomic alterations were present in A549 cells but no significant differences were observed between the low or highly metastatic A549 cell lines. We generated a NSCLC line with highly increased propensity to form tumor nodules in murine lungs after intravenous injections. Extravasation and growth at a distant site are important parts of the metastatic process and we regarded these as a surrogate marker for in vivo aggressiveness and potential metastatic capability. A549 lung asdenocarcimona cell line with initially low metastatic potential was used for this purpose; these cells formed multiple small nodules in NOD/SCID mice after first i.v.-injection, round 1 (R1). Removal of tumor nodules from the lungs and subsequent re-injection led to a rapid increase in metastatic capacity. A highly aggressive phenotype which was stable over time was evident after three rounds (R3) of in vivo selection for the A549 cell line.

Project description:Craft Kombucha Microbiota

Project description:The temporal order of DNA replication along chromosomes is reorganized in the context of cell differentiation and disease states and is thought to reflect transcriptional competence of the genome. During differentiation of mouse 3T3-L1 cells into adipocytes, cells undergo one or two rounds of cell division called mitotic clonal expansion (MCE). MCE is an essential step for adipogenesis; however, little is known about the regulation of DNA replication during this period. Here, we performed genome-wide mapping of replication timing (RT) in mouse 3T3-L1 cells before and during MCE and identified a number of chromosomal regions shifting toward either earlier or later replication through two rounds of replication. These RT changes were confirmed in individual cells by single-cell DNA replication sequencing. Coordinate changes between a shift toward earlier replication and transcriptional activation of adipogenesis-associated genes were observed. RT changes occur before full expression of these genes, indicating that RT reorganization may contribute to the mature adipocyte phenotype. To support this, cells undergoing two rounds of DNA replication during MCE have higher potential to differentiate into lipid droplet-accumulating adipocytes, compared with cells undergoing a single round of DNA replication and non-replicating cells.

Project description:The temporal order of DNA replication along chromosomes is reorganized in the context of cell differentiation and disease states and is thought to reflect transcriptional competence of the genome. During differentiation of mouse 3T3-L1 cells into adipocytes, cells undergo one or two rounds of cell division called mitotic clonal expansion (MCE). MCE is an essential step for adipogenesis; however, little is known about the regulation of DNA replication during this period. Here, we performed genome-wide mapping of replication timing (RT) in mouse 3T3-L1 cells before and during MCE and identified a number of chromosomal regions shifting toward either earlier or later replication through two rounds of replication. These RT changes were confirmed in individual cells by single-cell DNA replication sequencing. Coordinate changes between a shift toward earlier replication and transcriptional activation of adipogenesis-associated genes were observed. RT changes occur before full expression of these genes, indicating that RT reorganization may contribute to the mature adipocyte phenotype. To support this, cells undergoing two rounds of DNA replication during MCE have higher potential to differentiate into lipid droplet-accumulating adipocytes, compared with cells undergoing a single round of DNA replication and non-replicating cells.

Project description:In this study we subjected a library of synthetic sRNAs to multiple rounds of ethanol selection and analyzed changes in sRNA variant abundance by high-throughput sequencing.