Project description:Mass spectrometry (MS) has become the technique of choice for large-scale analysis of histone post-translational modifications (hPTMs) and their combinatorial patterns, especially in untargeted settings where novel discovery-driven hypotheses are being generated. However, MS-based histone analysis requires a distinct sample preparation, acquisition and data analysis workflow when compared to traditional MS-based approaches. To this end, sequential window acquisition of all theoretical fragment ion spectra (SWATH) has great potential, as it allows for untargeted accurate identification and quantification of hPTMs. Here, we present a complete SWATH workflow specifically adapted for the untargeted study of histones (hSWATH). We assess its validity on a technical dataset of a time-lapse deacetylation of a commercial histone extract using HDAC1, which contains a ground truth, i.e. acetylated substrate peptides reduce in intensity. We successfully apply this workflow in a biological setting and subsequently investigate the differential response to HDAC inhibition in different breast cancer cell lines.
Project description:Human iPSCs and NSCs were engineered by AAVS1 and/or C13 safe-harbor TALENs which mediated targeted integration of various reporter genes at single or dual safe-harbor loci. Multiple clones of targeted human iPSCs were used to compare with parental untargeted NCRM5 iPSCs. Polyclonal targeted human NSCs were used to compare with their parental untargeted NCRM1NSCs or H9NSCs. Total RNA obtained from targeted human iPSCs or NSCs compared to untargeted control iPSCs or NSCs.
Project description:As the importance of transcriptional variation and regulation for Plasmodium becomes more apparent, advances for non-falciparum species are hindered by our reliance on natural infections to study parasite biology. Untargeted transcriptomic research is also complicated by low parasite densities and high proportions of human genetic material, highlighting the need for optimized sample processing protocols. In this study, we used a P. knowlesi culture diluted in whole blood as a mock P. vivax natural infection to compare white blood cell, rRNA-, and globin depletion methods and RNA-seq library preparation kits to create an optimized protocol for low-volume sample processing.
Project description:Time course analysis of human colorectal cancer liver metastasis models under Sacituzumab Govitecan (SG) treatment or untargeted control