Resetting transcription factor control circuitry toward ground-state pluripotency in human Y Takashima, G Guo, R Loos, J Nichols, G Ficz, F Krueger, D Oxley, ... Cell 158 (6), 1254-1269, 2014 | 1029 | 2014 |
The ability of inner-cell-mass cells to self-renew as embryonic stem cells is acquired following epiblast specification T Boroviak, R Loos, P Bertone, A Smith, J Nichols Nature cell biology 16 (6), 513-525, 2014 | 489 | 2014 |
Lineage-specific profiling delineates the emergence and progression of naive pluripotency in mammalian embryogenesis T Boroviak, R Loos, P Lombard, J Okahara, R Behr, E Sasaki, J Nichols, ... Developmental cell 35 (3), 366-382, 2015 | 453 | 2015 |
Citrullination regulates pluripotency and histone H1 binding to chromatin MA Christophorou, G Castelo-Branco, RP Halley-Stott, CS Oliveira, ... Nature 507 (7490), 104-108, 2014 | 437 | 2014 |
Transcriptional diversity during lineage commitment of human blood progenitors L Chen, M Kostadima, JHA Martens, G Canu, SP Garcia, E Turro, ... Science 345 (6204), 1251033, 2014 | 333 | 2014 |
NuRD suppresses pluripotency gene expression to promote transcriptional heterogeneity and lineage commitment N Reynolds, P Latos, A Hynes-Allen, R Loos, D Leaford, ... Cell stem cell 10 (5), 583-594, 2012 | 275 | 2012 |
Nuclear architecture organized by Rif1 underpins the replication-timing program R Foti, S Gnan, D Cornacchia, V Dileep, A Bulut-Karslioglu, S Diehl, ... Molecular cell 61 (2), 260-273, 2016 | 189 | 2016 |
The nucleosome remodeling and deacetylation complex modulates chromatin structure at sites of active transcription to fine-tune gene expression S Bornelöv, N Reynolds, M Xenophontos, S Gharbi, E Johnstone, R Floyd, ... Molecular Cell 71 (1), 56-72. e4, 2018 | 180 | 2018 |
Sall4 controls differentiation of pluripotent cells independently of the Nucleosome Remodelling and Deacetylation (NuRD) complex A Miller, M Ralser, SL Kloet, R Loos, R Nishinakamura, P Bertone, ... Development 143 (17), 3074-3084, 2016 | 74 | 2016 |
Comparison of RNA-seq and microarray platforms for splice event detection using a cross-platform algorithm JP Romero, M Ortiz-Estévez, A Muniategui, S Carrancio, FJ de Miguel, ... BMC genomics 19, 1-14, 2018 | 31 | 2018 |
Small universal accepting hybrid networks of evolutionary processors R Loos, F Manea, V Mitrana Acta Informatica 47 (2), 133-146, 2010 | 26 | 2010 |
Next-generation sequencing: a challenge to meet the increasing demand for training workshops in Australia NS Watson-Haigh, CA Shang, M Haimel, M Kostadima, R Loos, ... Briefings in bioinformatics 14 (5), 563-574, 2013 | 20 | 2013 |
On small, reduced, and fast universal accepting networks of splicing processors R Loos, F Manea, V Mitrana Theoretical computer science 410 (4-5), 406-416, 2009 | 17 | 2009 |
Descriptional complexity of splicing systems R Loos, A Malcher, D Wotschke International Journal of Foundations of Computer Science 19 (04), 813-826, 2008 | 13 | 2008 |
Solving SAT and HPP with accepting splicing systems R Loos, C Martín-Vide, V Mitrana International Conference on Parallel Problem Solving from Nature, 771-777, 2006 | 12 | 2006 |
DECO: decompose heterogeneous population cohorts for patient stratification and discovery of sample biomarkers using omic data profiling FJ Campos-Laborie, A Risueño, M Ortiz-Estévez, B Rosón-Burgo, ... Bioinformatics 35 (19), 3651-3662, 2019 | 11 | 2019 |
Complexity theory for splicing systems R Loos, M Ogihara Theoretical computer science 386 (1-2), 132-150, 2007 | 10 | 2007 |
An alternative definition of splicing R Loos Theoretical computer science 358 (1), 75-87, 2006 | 9 | 2006 |
Small universal accepting networks of evolutionary processors with filtered connections R Loos, F Manea, V Mitrana arXiv preprint arXiv:0907.5130, 2009 | 7 | 2009 |
Comparative analysis of neutrophil and monocyte epigenomes D Rico, JHA Martens, K Downes, E Carrillo-de-Santa-Pau, V Pancaldi, ... BioRxiv, 237784, 2017 | 6 | 2017 |