DNA methylation is an essential epigenetic mark. Alterations of normal DNA methylation are a defining feature of cancer. Here, we review experimental and bioinformatic approaches to showcase the breadth and depth of information that this epigenetic mark provides for cancer research. First, we describe classical approaches for interrogating bulk DNA from cell populations as well as more recently developed approaches for single cells and multi-Omics. Second, we focus on the computational analysis from primary data processing to the identification of unique methylation signatures. Additionally, we discuss challenges such as sparse data and cellular heterogeneity.
Holger Heyn, Sergi Sayols, Cátia Moutinho, Enrique Vidal, José V. Sánchez‐Mut, Ólafur Andri Stefánsson, Ernest Nadal, Sebastián Morán, Jórunn E. Eyfjörd, Eva González‐Suárez, Miguel Ángel Pujana, Manel Esteller
Alexander Kel, U. A. Boyarskikh, Philip Stegmaier, Leonid Leskov, Andrey V. Sokolov, Ivan Yevshin, Nikita Mandrik, Daria Stelmashenko, Jeannette Koschmann, Olga Kel‐Margoulis, Mathias Krull, Anna Martínez‐Cardús, Sebastián Morán, Manel Esteller, Fedor Kolpakov, М. Л. Филипенко, Edgar Wingender
Discussion(0)
No comments yet. Be the first to comment.