Project description:Subcutaneous tumors from mock transfected LLC or b8 transfected LLC were established on flanks of C57B/6 FoxP3-Ires GFP mice. Mice were treated with isotype control antibodies or anti-b8 and Tregs (CD4+ GFP+) were sorted, pooled and total RNA isolated for RNAseq.
Project description:We successfully isolated an E. coli strain harboring rpoD mutant B8 with 2% (v/v) butanol tolerance using global transcriptional machinery engineering approach. DNA microarrays were employed to assess the transcriptome profile of n-butanol tolerance strain B8 and control strain E. coli JM109. The goal of this study is therefore to identify E. coli genes that are involved in n-butanol tolerance.
Project description:We used high throughput miRNA sequencing to investigate differences between two mESC lines (D3 and B8 ESCs). Undifferentiated ESCs, cells differentiating in embryoid bodies (day 7), and also cells from embryoid bodies outgrowth (day 21) were analyzed.
Project description:fetal tracheal fibroblasts were treated with anti-B8, anti-TCF-B or IgG control, all pairwise comaprisons were made. N=3 for each group
Project description:Evolutionary engineering strategy was used for selection of ethanol-tolerant Saccharomyces cerevisiae clones under gradually increasing ethanol stress levels. Clones B2 and B8 were selected based on their higher ethanol-tolerance and higher ethanol production levels. Whole genome microarray analysis was used for identifying the gene expression levels of these two evolved clones compared to the reference strain. Two evolved ethanol-tolerant strains B2 and B8, which were selected by evolutionary engineering under gradually increasing ethanol stress, were used for whole genome transcriptomic analysis in comparison with the reference strain. Cells were grown in yeast minimal media until they reach a final OD600 of 1. Following total RNA isolation, gene expression levels were analyzed using One-color microarray-based gene expression analysis (Agilent Technologies). Experiments were done in triplicates.
Project description:Evolutionary engineering strategy was used for selection of ethanol-tolerant Saccharomyces cerevisiae clones under gradually increasing ethanol stress levels. Clones B2 and B8 were selected based on their higher ethanol-tolerance and higher ethanol production levels. Whole genome microarray analysis was used for identifying the gene expression levels of these two evolved clones compared to the reference strain.
