Results 211 to 220 of about 93,647 (322)

Recent advances in methodologies of epigenomics. [PDF]

Epigenomics
Ohishi H, Au Yeung WK.
europepmc   +1 more source

A hitchhiker's guide to single‐cell epigenomics: Methods and applications for cancer research

International Journal of Cancer, Volume 158, Issue 2, Page 291-304, 15 January 2026.
Abstract Genetic mutations are well known to influence tumorigenesis, tumor progression, treatment response and relapse, but the role of epigenetic variation in cancer progression is still largely unexplored. The lack of epigenetic understanding in cancer evolution is in part due to the limited availability of methods to examine such a heterogeneous ...
Marta Moreno‐Gonzalez, Isabel Sierra, Jop Kind   +2 more
wiley   +1 more source

Epigenomics [PDF]

, 2020
openaire   +2 more sources

Programmable epigenome editing by transient delivery of CRISPR epigenome editor ribonucleoproteins. [PDF]

Nat Commun
Xu D, Besselink S, Ramadoss GN, Dierks PH, Lubin JP, Pattali RK, Brim JI, Christenson AE, Colias PJ, Ornelas IJ, Nguyen CD, Chasins SE, Conklin BR, Nuñez JK.   +13 more
europepmc   +1 more source

Targeted in vivo epigenome editing of H3K27me3 [PDF]

, 2019
Hiroto Fukushima, Hiroyuki Takeda, Ryohei Nakamura   +2 more
openalex   +1 more source

Epigenomics‐guided precision oncology: Chromatin variants in prostate tumor evolution

International Journal of Cancer, Volume 158, Issue 2, Page 314-332, 15 January 2026.
Abstract Prostate cancer is a common malignancy that in 5%–30% leads to treatment‐resistant and highly aggressive disease. Metastasis‐potential and treatment‐resistance is thought to rely on increased plasticity of the cancer cells—a mechanism whereby cancer cells alter their identity to adapt to changing environments or therapeutic pressures to create
Kira Furlano, Tina Keshavarzian, Nadine Biernath, Annika Fendler, Maria de Santis, Joachim Weischenfeldt, Mathieu Lupien   +6 more
wiley   +1 more source

Opposite aging effects among cell subsets revealed in the human transcriptome and epigenome. [PDF]

MicroPubl Biol
Okada D.
europepmc   +1 more source

Chromatin maintenance and dynamics in senescence: a spotlight on SAHF formation and the epigenome of senescent cells [PDF]

, 2014
Armelle Corpet, Manuel Stucki
openalex   +1 more source

Deregulated enhancer‐promoter communication in cancer through altered nuclear architecture

International Journal of Cancer, Volume 158, Issue 2, Page 409-422, 15 January 2026.
Abstract Enhancers are critical regulators of gene expression. Structural variations in cancer genomes can lead to enhancer hijacking, where oncogenes are activated by mistargeted enhancer activity. Novel enhancer‐promoter interactions may also arise through chromosomal rearrangements that create extrachromosomal DNA elements.
Isabelle Seufert, Claire Vargas, Sina Jasmin Wille, Karsten Rippe   +3 more
wiley   +1 more source

Mitochondrial DNA copy number reduction via <i>in vitro TFAM</i> knockout remodels the nuclear epigenome and transcriptome. [PDF]

Epigenomics
Win PW, Nguyen J, Shin EH, Nagano TS, Selimi B, Hong K, Meybodi AM, Yates BP, Burke EV, Carter DE, Newby GA, Newcomb C, Arking DE, Castellani CA.   +13 more
europepmc   +1 more source