Project description:The study aimed to define transcriptional signatures for detection of active TB (TB) compared to latent TB infection (LTBI) as well as to other diseases (OD) with similar clinical phenotypes in patients with and without HIV in a paediatric cohort from Kenya Transcriptional signatures were identified that distinguished active TB from LTBI, active TB from other diseases, and active TB from both LTBI and other diseases in HIV+/- patients. Children were recruited from 2 hospitals in Coast Province, Kenya (n=157) who were either HIV+ or HIV - with either active TB (culture confirmed), active TB (culture negative), LTBI or OD. Blood was collected into PAX gene tubes (PreAnalytiX). Total RNA integrity was assessed using an Agilent 2100 Bioanalyzer (Agilent, Palo Alto, CA). Labeled cRNA was hybridized to Illumina Human HT-12 Beadchips. Data were analysed in R.
Project description:To investigate the artemisinin resistance mechanism, we conducted a systematical evaluation of histone acetyltransferase expression in 45 cloned P. falciparum parasites and 30 wild-type field isolates. Remarkably, PfMYST, a member of the histone acetyltransferase MYST family, emerged as the sole candidate significantly associated with prolonged ring-survive of parasites. WGS analysis confirmed the genomic consistency among different parasite subclones. CHIP-seq analysis revealed PfMYST’s pivotal role in mediating histone modifications, particularly in H4K5ac and H4K8ac, within the P. falciparum genome. Through single-cell RNA sequence and conditional knockdown approaches, we identified and functionally validated PfMYST-targeted genes contributing to Plasmodium’s adaptive artemisinin resistance.
