In vivo targeting of de novo DNA methylation by histone modifications in yeast and mouse M Morselli, WA Pastor, B Montanini, K Nee, R Ferrari, K Fu, G Bonora, ... Elife 4, e06205, 2015 | 182 | 2015 |
Glucose inhibits cardiac muscle maturation through nucleotide biosynthesis H Nakano, I Minami, D Braas, H Pappoe, X Wu, A Sagadevan, L Vergnes, ... Elife 6, e29330, 2017 | 181 | 2017 |
Canonical nucleosome organization at promoters forms during genome activation Y Zhang, NL Vastenhouw, J Feng, K Fu, C Wang, Y Ge, A Pauli, ... Genome research 24 (2), 260-266, 2014 | 116 | 2014 |
Loss of MECP2 leads to activation of P53 and neuronal senescence M Ohashi, E Korsakova, D Allen, P Lee, K Fu, BS Vargas, J Cinkornpumin, ... Stem Cell Reports 10 (5), 1453-1463, 2018 | 64 | 2018 |
Topological arrangement of cardiac fibroblasts regulates cellular plasticity J Yu, MM Seldin, K Fu, S Li, L Lam, P Wang, Y Wang, D Huang, ... Circulation research 123 (1), 73-85, 2018 | 58 | 2018 |
Interactions between core histone marks and DNA methyltransferases predict DNA methylation patterns observed in human cells and tissues K Fu, G Bonora, M Pellegrini Epigenetics 15 (3), 272-282, 2020 | 44 | 2020 |
Applying circulating tumor DNA methylation in the diagnosis of lung cancer L Li, K Fu, W Zhou, M Snyder Precision Clinical Medicine 2 (1), 45-56, 2019 | 33 | 2019 |
DiNuP: a systematic approach to identify regions of differential nucleosome positioning K Fu, Q Tang, J Feng, XS Liu, Y Zhang Bioinformatics 28 (15), 1965-1971, 2012 | 25 | 2012 |
A temporal transcriptome and methylome in human embryonic stem cell-derived cardiomyocytes identifies novel regulators of early cardiac development K Fu, H Nakano, M Morselli, T Chen, H Pappoe, A Nakano, M Pellegrini Epigenetics 13 (10-11), 1013-1026, 2018 | 24 | 2018 |
Comparison of reprogramming factor targets reveals both species-specific and conserved mechanisms in early iPSC reprogramming K Fu, C Chronis, A Soufi, G Bonora, M Edwards, ST Smale, KS Zaret, ... BMC genomics 19, 1-13, 2018 | 20 | 2018 |