The circadian gene Period2 plays an important role in tumor suppression and DNA damage response in vivo L Fu, H Pelicano, J Liu, P Huang, CC Lee cell 111 (1), 41-50, 2002 | 1553 | 2002 |
The circadian clock: pacemaker and tumour suppressor L Fu, CC Lee Nature Reviews Cancer 3 (5), 350-361, 2003 | 913 | 2003 |
The molecular clock mediates leptin-regulated bone formation L Fu, MS Patel, A Bradley, EF Wagner, G Karsenty Cell 122 (5), 803-815, 2005 | 654 | 2005 |
Circadian homeostasis of liver metabolism suppresses hepatocarcinogenesis NM Kettner, H Voicu, MJ Finegold, C Coarfa, A Sreekumar, N Putluri, ... Cancer cell 30 (6), 909-924, 2016 | 431 | 2016 |
Disrupting circadian homeostasis of sympathetic signaling promotes tumor development in mice S Lee, LA Donehower, AJ Herron, DD Moore, L Fu PloS one 5 (6), e10995, 2010 | 309 | 2010 |
The circadian clock in cancer development and therapy L Fu, NM Kettner Progress in molecular biology and translational science 119, 221-282, 2013 | 262 | 2013 |
Circadian dysfunction induces leptin resistance in mice NM Kettner, SA Mayo, J Hua, C Lee, DD Moore, L Fu Cell metabolism 22 (3), 448-459, 2015 | 249 | 2015 |
Carcinogenicity of night shift work EM Ward, D Germolec, M Kogevinas, D McCormick, R Vermeulen, ... The Lancet Oncology 20 (8), 1058-1059, 2019 | 239 | 2019 |
Translational regulation of human p53 gene expression. L Fu, MD Minden, S Benchimol The EMBO journal 15 (16), 4392-4401, 1996 | 194 | 1996 |
Participation of the human p53 3′ UTR in translational repression and activation following γ‐irradiation L Fu, S Benchimol The EMBO journal, 1997 | 152 | 1997 |
Circadian dysregulation disrupts bile acid homeostasis K Ma, R Xiao, HT Tseng, L Shan, L Fu, DD Moore PloS one 4 (8), e6843, 2009 | 144 | 2009 |
Loss of Bmal1 leads to uncoupling and impaired glucose-stimulated insulin secretion in β-cells J Lee, MS Kim, R Li, VY Liu, L Fu, DD Moore, K Ma, VK Yechoor Islets 3 (6), 381-388, 2011 | 137 | 2011 |
Circadian gene variants in cancer NM Kettner, CA Katchy, L Fu Annals of medicine 46 (4), 208-220, 2014 | 133 | 2014 |
Influence of environmental light and melatonin upon mammary tumour induction T Hamilton British Journal of Surgery 56 (10), 764-766, 1969 | 120 | 1969 |
Incompatibility of the circadian protein BMAL1 and HNF4α in hepatocellular carcinoma B Fekry, A Ribas-Latre, C Baumgartner, JR Deans, C Kwok, P Patel, L Fu, ... Nature communications 9 (1), 4349, 2018 | 97 | 2018 |
SRC-2 is an essential coactivator for orchestrating metabolism and circadian rhythm E Stashi, RB Lanz, J Mao, G Michailidis, B Zhu, NM Kettner, N Putluri, ... Cell reports 6 (4), 633-645, 2014 | 72 | 2014 |
A translation repressor element resides in the 3′ untranslated region of human p53 mRNA L Fu, WL Ma, S Benchimol Oncogene 18 (47), 6419-6424, 1999 | 60 | 1999 |
Translational Potentiation of Messenger RNA with Secondary Structure in Xenopus L Fu, R Ye, LW Browder, RN Johnston Science 251 (4995), 807-810, 1991 | 59 | 1991 |
The circadian modulation of leptin-controlled bone formation L Fu, MS Patel, G Karsenty Progress in brain research 153, 177-188, 2006 | 28 | 2006 |
Genetic and environmental models of circadian disruption link SRC-2 function to hepatic pathology T Fleet, E Stashi, B Zhu, K Rajapakshe, KL Marcelo, NM Kettner, ... Journal of biological rhythms 31 (5), 443-460, 2016 | 22 | 2016 |