| The pineapple genome and the evolution of CAM photosynthesis R Ming, R VanBuren, CM Wai, H Tang, MC Schatz, JE Bowers, E Lyons, ... Nature genetics 47 (12), 1435-1442, 2015 | 514 | 2015 |
| De novo assembly, annotation, and comparative analysis of 26 diverse maize genomes MB Hufford, AS Seetharam, MR Woodhouse, KM Chougule, S Ou, J Liu, ... bioRxiv, 2021.01. 14.426684, 2013 | 306* | 2013 |
| Following tetraploidy in maize, a short deletion mechanism removed genes preferentially from one of the two homeologs MR Woodhouse, JC Schnable, BS Pedersen, E Lyons, D Lisch, ... PLoS Biol 8 (6), e1000409, 2010 | 306 | 2010 |
| MaizeGDB 2018: the maize multi-genome genetics and genomics database JL Portwood, MR Woodhouse, EK Cannon, JM Gardiner, LC Harper, ... Nucleic acids research 47 (D1), D1146-D1154, 2019 | 262 | 2019 |
| Profiling of accessible chromatin regions across multiple plant species and cell types reveals common gene regulatory principles and new control modules KA Maher, M Bajic, K Kajala, M Reynoso, G Pauluzzi, DA West, ... The Plant Cell 30 (1), 15-36, 2018 | 232 | 2018 |
| Fractionation mutagenesis and similar consequences of mechanisms removing dispensable or less-expressed DNA in plants M Freeling, MR Woodhouse, S Subramaniam, G Turco, D Lisch, ... Current opinion in plant biology 15 (2), 131-139, 2012 | 226 | 2012 |
| Origin, inheritance, and gene regulatory consequences of genome dominance in polyploids MR Woodhouse, F Cheng, JC Pires, D Lisch, M Freeling, X Wang Proceedings of the National Academy of Sciences 111 (14), 5283-5288, 2014 | 202 | 2014 |
| The maize W22 genome provides a foundation for functional genomics and transposon biology NM Springer, SN Anderson, CM Andorf, KR Ahern, F Bai, O Barad, ... Nature genetics 50 (9), 1282-1288, 2018 | 195 | 2018 |
| Altered patterns of fractionation and exon deletions in Brassica rapa support a two-step model of paleohexaploidy H Tang, MR Woodhouse, F Cheng, JC Schnable, BS Pedersen, G Conant, ... Genetics 190 (4), 1563-1574, 2012 | 183 | 2012 |
| Technological advances in maize breeding: past, present and future C Andorf, WD Beavis, M Hufford, S Smith, WP Suza, K Wang, ... Theoretical and Applied Genetics 132 (3), 817-849, 2019 | 139 | 2019 |
| Initiation, establishment, and maintenance of heritable MuDR transposon silencing in maize are mediated by distinct factors MR Woodhouse, M Freeling, D Lisch PLoS biology 4 (10), e339, 2006 | 121 | 2006 |
| A pan-genomic approach to genome databases using maize as a model system MR Woodhouse, EK Cannon, JL Portwood, LC Harper, JM Gardiner, ... BMC Plant Biology 21 (1), 1-10, 2021 | 113 | 2021 |
| Evolutionary flexibility in flooding response circuitry in angiosperms MA Reynoso, K Kajala, M Bajic, DA West, G Pauluzzi, AI Yao, K Hatch, ... Science 365 (6459), 1291-1295, 2019 | 113 | 2019 |
| Epigenetic regulation of subgenome dominance following whole genome triplication in Brassica rapa F Cheng, C Sun, J Wu, J Schnable, MR Woodhouse, J Liang, C Cai, ... New Phytologist 211 (1), 288-299, 2016 | 108 | 2016 |
| Gapless assembly of maize chromosomes using long-read technologies J Liu, AS Seetharam, K Chougule, S Ou, KW Swentowsky, JI Gent, ... Genome biology 21 (1), 1-17, 2020 | 99 | 2020 |
| The zygotic transition is initiated in unicellular plant zygotes with asymmetric activation of parental genomes SN Anderson, CS Johnson, J Chesnut, DS Jones, I Khanday, ... Developmental Cell 43 (3), 349-358. e4, 2017 | 89 | 2017 |
| GrainGenes: centralized small grain resources and digital platform for geneticists and breeders VC Blake, MR Woodhouse, GR Lazo, SG Odell, CP Wight, NA Tinker, ... Database 2019, 2019 | 82 | 2019 |
| The mop1 (mediator of paramutation1) mutant progressively reactivates one of the two genes encoded by the MuDR transposon in maize MR Woodhouse, M Freeling, D Lisch Genetics 172 (1), 579-592, 2006 | 77 | 2006 |
| AgBioData consortium recommendations for sustainable genomics and genetics databases for agriculture L Harper, J Campbell, EKS Cannon, S Jung, M Poelchau, R Walls, ... Database 2018, 2018 | 75 | 2018 |
| Transposed genes in Arabidopsis are often associated with flanking repeats MR Woodhouse, B Pedersen, M Freeling PLoS Genet 6 (5), e1000949, 2010 | 70 | 2010 |
