ChIP-chip: considerations for the design, analysis, and application of genome-wide chromatin immunoprecipitation experiments MJ Buck, JD Lieb Genomics 83 (3), 349-360, 2004 | 836 | 2004 |
Suppressed hepatic bile acid signalling despite elevated production of primary and secondary bile acids in NAFLD NA Jiao, SS Baker, A Chapa-Rodriguez, W Liu, CA Nugent, M Tsompana, ... Gut 67 (10), 1881-1891, 2018 | 530 | 2018 |
Chromatin accessibility: a window into the genome M Tsompana, MJ Buck Epigenetics & chromatin 7, 1-16, 2014 | 506 | 2014 |
Key Principles and Clinical Applications of “Next-Generation” DNA Sequencing JM Rizzo, MJ Buck Cancer prevention research 5 (7), 887-900, 2012 | 399 | 2012 |
Gut microbiome may contribute to insulin resistance and systemic inflammation in obese rodents: a meta-analysis N Jiao, SS Baker, CA Nugent, M Tsompana, L Cai, Y Wang, MJ Buck, ... Physiological genomics 50 (4), 244-254, 2018 | 241 | 2018 |
ChIPOTle: a user-friendly tool for the analysis of ChIP-chip data MJ Buck, AB Nobel, JD Lieb Genome biology 6, 1-8, 2005 | 198 | 2005 |
Coordinate expression of the PDK4 gene: a means of regulating fuel selection in a hibernating mammal MJ Buck, TL Squire, MT Andrews Physiological genomics 8 (1), 5-13, 2002 | 195 | 2002 |
Phylogenetic analysis of plant basic helix-loop-helix proteins MJ Buck, WR Atchley Journal of molecular evolution 56, 742-750, 2003 | 172 | 2003 |
Facilitates chromatin transcription complex is an “accelerator” of tumor transformation and potential marker and target of aggressive cancers H Garcia, JC Miecznikowski, A Safina, M Commane, A Ruusulehto, ... Cell reports 4 (1), 159-173, 2013 | 139 | 2013 |
Advanced glycation end products dietary restriction effects on bacterial gut microbiota in peritoneal dialysis patients; a randomized open label controlled trial R Yacoub, M Nugent, W Cai, GN Nadkarni, LD Chaves, S Abyad, ... PloS one 12 (9), e0184789, 2017 | 130 | 2017 |
An accurate and efficient experimental approach for characterization of the complex oral microbiota W Zheng, M Tsompana, A Ruscitto, A Sharma, R Genco, Y Sun, MJ Buck Microbiome 3, 1-11, 2015 | 123 | 2015 |
A chromatin-mediated mechanism for specification of conditional transcription factor targets MJ Buck, JD Lieb Nature genetics 38 (12), 1446-1451, 2006 | 113 | 2006 |
The stress response factors Yap6, Cin5, Phd1, and Skn7 direct targeting of the conserved co-repressor Tup1-Ssn6 in S. cerevisiae SE Hanlon, JM Rizzo, DC Tatomer, JD Lieb, MJ Buck PloS one 6 (4), e19060, 2011 | 110 | 2011 |
Loss of a histone deacetylase dramatically alters the genomic distribution of Spo11p-catalyzed DNA breaks in Saccharomyces cerevisiae PA Mieczkowski, M Dominska, MJ Buck, JD Lieb, TD Petes Proceedings of the National Academy of Sciences 104 (10), 3955-3960, 2007 | 88 | 2007 |
Global analysis of the relationship between the binding of the Bas1p transcription factor and meiosis-specific double-strand DNA breaks in Saccharomyces cerevisiae PA Mieczkowski, M Dominska, MJ Buck, JL Gerton, JD Lieb, TD Petes Molecular and Cellular Biology 26 (3), 1014-1027, 2006 | 82 | 2006 |
A global analysis of the complex landscape of isoforms and regulatory networks of p63 in human cells and tissues I Sethi, RA Romano, C Gluck, K Smalley, B Vojtesek, MJ Buck, S Sinha BMC genomics 16, 1-15, 2015 | 76 | 2015 |
The RNA polymerase II kinase Ctk1 regulates positioning of a 5′ histone methylation boundary along genes T Xiao, Y Shibata, B Rao, RN Laribee, R O'Rourke, MJ Buck, ... Molecular and cellular biology 27 (2), 721-731, 2007 | 74 | 2007 |
EZH2 modifies sunitinib resistance in renal cell carcinoma by kinome reprogramming R Adelaiye-Ogala, J Budka, NP Damayanti, J Arrington, M Ferris, CC Hsu, ... Cancer research 77 (23), 6651-6666, 2017 | 73 | 2017 |
Sunitinib dose escalation overcomes transient resistance in clear cell renal cell carcinoma and is associated with epigenetic modifications R Adelaiye, E Ciamporcero, KM Miles, P Sotomayor, J Bard, M Tsompana, ... Molecular cancer therapeutics 14 (2), 513-522, 2015 | 70 | 2015 |
Transient inhibition of mTOR in human pluripotent stem cells enables robust formation of mouse-human chimeric embryos Z Hu, H Li, H Jiang, Y Ren, X Yu, J Qiu, AB Stablewski, B Zhang, MJ Buck, ... Science Advances 6 (20), eaaz0298, 2020 | 69 | 2020 |