Various pluripotent stem (PS) cells can be isolated from early developing embryos in mouse. Among these, two kinds of PS cells were isolated from mouse blastocysts: conventional embryonic stem (ES) cells with domed morphology that are maintained with LIF and BMP for self-renewal, and FAB-ES cells with flat morphology that need bFGF, activinA and BIO for self-renewal. Here, we report a novel PS cell line from rat blastocysts, which is distinguishable from conventional ES cells but is morphologically similar to mouse epiblast stem cell (EpiSC) lines. We used microarrays to detail the global program of gene expression of rES and rPS.
The heterogeneity and dynamic equilibrium of rat embryonic stem cells.
Specimen part
View SamplesGene expression of human liver cells at different developmental stages.
No associated publication
Sex, Age, Specimen part
View SamplesThe goal of this study is to reveal the characters and therapeutic targets of CNS leukemia.
No associated publication
Sex, Age, Specimen part, Disease
View SamplesBuilding the gene expression profiles and identifying the differentially expressed genes in specific comparisons.
No associated publication
No sample metadata fields
View SamplesiPSC derived from a patient heterozygous for the SOD1 E100G mutation were genome edited to homozygous wild type using the CRISPR-Cas9 system. Both disease and isogenic corrected iPSC were differentiated into spinal motor neurons that were ISL1+ and CHAT+. Gene expression changes in MN were analyzed by RNA-sequencing.
No associated publication
Sex, Specimen part, Disease, Cell line
View SamplesSkeletal stem and progenitor cells from vertebrate species
No associated publication
No sample metadata fields
View SamplesCharacterization of organ-targeting metastatic cancer cells
No associated publication
Sex, Specimen part, Disease, Cell line
View SamplesThe human MDA MB 231 breast cancer and MDA MB 435 melanoma cell lines were selected for isolates able to pass through narrow 3 micron pores in Transwell tissue culture inserts. In addition, MDA MB 231 breast cancer cells were selected for a population of small sized cells in parallel by flow cytometric sorting. RNA sequencing of the three populations (parental, selected, flow sorted) of MDA MB 231 breast cancer cells, and two populations (parental, selected) of MDA MB 435 melanoma cells, was performed.
No associated publication
Sex, Age, Specimen part, Disease, Cell line, Race
View SamplesPancreatic cancer patient survival is the lowest of all common cancers. Given that pancreatic cancer therapies do little to improve survival, there is a significant need to identify additional potential therapeutic targets and treatment strategies. The ROCK1 locus on chromosome 18 is amplified in 15% of pancreatic patient tumors (Biankin et al. 2012), accompanied by concordant copy number/gene expression changes (Bailey et al. 2016). The ROCK1 and ROCK2 kinases promote actomyosin contractility through phosphorylation of substrates including the myosin regulatory light chain 2 (MLC2), myosin-binding subunit of the MLC phosphatase (MYPT1) and LIM kinases 1&2 (Rath and Olson 2012, Julian and Olson 2014). In addition to direct effects on the organization and dynamics of the actin cytoskeleton that impact cell morphology, ROCK-mediated cell contractility also affects gene transcription (Sanz-Moreno et al. 2011). How ROCK-mediated actomyosin contractility might contribute to pancreatic cancer by altering gene expression has not been established.In this study, mouse pancreatic ductal adenocarcinoma tumour cells were transduced with retrovirus encoding conditionally-activated estrogen-receptor hormone-binding domain (hbER) fusions with ROCK1 (ROCK1:ER) or ROCK2 (ROCK2:ER) kinase domains, or green fluorescent protein (GFP:ER). GFP:ER expressing cells were treated with ethanol vehicle or 1 micromolar 4-hydroxytamoxifen (4HT) to identify any effects of the estrogen analogue, while ROCK1:ER and ROCK2:ER cells were treated with 1 micromolar 4HT to activate the ER fusion proteins. RNA was isolated, and enriched for poly A+ transcripts prior to sequencing.Bailey, P., et al. (2016). Nature 531: 47-52.Biankin, A. V., et al. (2012). Nature 491: 399-405.Julian, L. and M. F. Olson (2014). Small GTPases 5: e29846.Rath, N. and M. F. Olson (2012). EMBO Rep 13: 900-908.Sanz-Moreno, V., et al. (2011). Cancer Cell 20: 229-245.
No associated publication
Sex, Specimen part, Cell line
View SamplesRNA-seq of single embryo
No associated publication
No sample metadata fields
View Samples