Analysis of epigenetic alterations to chromatin during development

Development is the process whereby a multipotent cell gives rise, through series of divisions, to progeny with successively restricted potentials. During T cell development, the process begins with a multipotent hematopoietic stem cell (HSC) in the bone marrow, moves to the thymus where early T cell

Background: DNA denaturation, required for fluorescent in situ hybridization (FISH) experiments, is likely to induce chromatin alterations. Only few attempts have been made to quantify the extent of these perturbations. We propose a quality-control approach based on image analysis to monitor the eff

## Abstract Embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) can self‐renew indefinitely and contribute to all tissue types of the adult organism. Stem cell‐based therapeutic approaches hold enormous promise for the cure of regenerative diseases. Over the last few years, sever

## Abstract The __SMARCA4__/__BRG1__ gene product is a component of the SWI‐SNF chromatin‐remodeling complex and regulates gene expression by disrupting histone‐DNA contacts in an ATP‐dependent manner. Inactivating mutations of the __SMARCA4__ gene, on chromosome arm 19p, are present in several hum

## Abstract Mammals, like all multicellular organisms, develop from a single cell—the totipotent zygote. During preimplantation development and subsequent development in utero, over 200 distinct cell types are established and integrated into the organ systems and tissues of the developing organism.