Prof. Albert Jeltsch is a biochemist who received his PhD in Biochemistry 1994 at the Medical University Hannover (Germany). After PostDoc and Assistant Professorship (2003) at Justus-Liebig University in Giessen, he was appointed as Associate Professor of Biochemistry at Jacobs University Bremen in 2003, where he became Full Professor of Biochemistry in 2006. Prof. Jeltsch moved to the University of Stuttgart in 2011, where he is heading the Department of Biochemistry at the Institute of Biochemistry and Technical Biochemistry. For more than 25 years, the group of Prof. Jeltsch is investigating the structure, mechanism and function of bacterial and mammalian DNA methyltransferases. They have long-standing expertise in the field of rational and evolutionary protein design of DNA interacting enzymes and in the design of chimeric methylation enzymes for epigenome editing and gene regulation in eukaryotic cells. In addition, they study the specificity and activity of protein lysine methyltransferases and methyllysine reading domains and the biological role of protein methylation in cells.

Dr Renata Jurkowska is a molecular biologist with general interests in epigenetics, stem cells and lung biology. She obtained her M.Sc. degree in Biotechnology at Warsaw University (Poland) and went on to complete her PhD in Biochemistry and two postdocs in Germany, where she investigated the specificity and molecular mechanism of mammalian DNA methyltransferases and other epigenetic enzymes for 10 years. In 2015, she joined BioMed X Innovation Center (Germany) as a Principal Investigator, where she worked at the interface between academia and industry, leading a biomedical preclinical project in the field of respiratory medicine and epigenetics. In September 2019 she was appointed Senior Lecturer in the School of Biosciences at Cardiff University, UK. Her current research focuses on understanding how epigenetic regulation drives cellular identity in the healthy lung and how dysregulation of epigenetic processes due to environmental insults contributes to the development of lung diseases. Her group uses epigenomics technologies in combination with molecular biology tools to advance the mechanistic understanding of lung diseases, identify epigenetic biomarkers for diagnosis, and devise novel epigenetic therapeutic strategies.

2nd edition, extensively updated with novel findings from the past 6 years

Discusses novel insights into structure and mechanism of DNA methyltransferases

Highlights the newest technologies related to DNA methylation