Genome-wide comparative diversity uncovers multiple targets of selection for improvement in hexaploid wheat landraces and cultivars CR Cavanagh, S Chao, S Wang, BE Huang, S Stephen, S Kiani, K Forrest, ... Proceedings of the national academy of sciences 110 (20), 8057-8062, 2013 | 1081 | 2013 |
Comparative population genomics of maize domestication and improvement MB Hufford, X Xu, J Van Heerwaarden, T Pyhäjärvi, JM Chia, ... Nature genetics 44 (7), 808-811, 2012 | 893 | 2012 |
Crop genomics: advances and applications PL Morrell, ES Buckler, J Ross-Ibarra Nature Reviews Genetics 13 (2), 85-96, 2012 | 560 | 2012 |
Plant domestication, a unique opportunity to identify the genetic basis of adaptation J Ross-Ibarra, PL Morrell, BS Gaut Proceedings of the National Academy of Sciences 104 (suppl_1), 8641-8648, 2007 | 533 | 2007 |
Genetic evidence for a second domestication of barley (Hordeum vulgare) east of the Fertile Crescent PL Morrell, MT Clegg Proceedings of the national academy of sciences 104 (9), 3289-3294, 2007 | 441 | 2007 |
Is self‐fertilization an evolutionary dead end? Revisiting an old hypothesis with genetic theories and a macroevolutionary approach N Takebayashi, PL Morrell American Journal of Botany 88 (7), 1143-1150, 2001 | 420 | 2001 |
Barley whole exome capture: a tool for genomic research in the genus Hordeum and beyond M Mascher, TA Richmond, DJ Gerhardt, A Himmelbach, L Clissold, ... The Plant Journal 76 (3), 494-505, 2013 | 302 | 2013 |
Genetic diversity and structure in semiwild and domesticated chiles (Capsicum annuum; Solanaceae) from Mexico A Aguilar‐Meléndez, PL Morrell, ML Roose, SC Kim American Journal of Botany 96 (6), 1190-1202, 2009 | 283 | 2009 |
Low levels of linkage disequilibrium in wild barley (Hordeum vulgare ssp. spontaneum) despite high rates of self-fertilization PL Morrell, DM Toleno, KE Lundy, MT Clegg Proceedings of the National Academy of Sciences 102 (7), 2442-2447, 2005 | 245 | 2005 |
Exome sequencing highlights the role of wild-relative introgression in shaping the adaptive landscape of the wheat genome F He, R Pasam, F Shi, S Kant, G Keeble-Gagnere, P Kay, K Forrest, A Fritz, ... Nature genetics 51 (5), 896-904, 2019 | 238 | 2019 |
Genome comparisons reveal a dominant mechanism of chromosome number reduction in grasses and accelerated genome evolution in Triticeae MC Luo, KR Deal, ED Akhunov, AR Akhunova, OD Anderson, ... Proceedings of the National Academy of Sciences 106 (37), 15780-15785, 2009 | 234 | 2009 |
Tracing the geographic origins of major avocado cultivars H Chen, PL Morrell, VETM Ashworth, M De la Cruz, MT Clegg Journal of Heredity 100 (1), 56-65, 2009 | 232 | 2009 |
Nucleotide diversity maps reveal variation in diversity among wheat genomes and chromosomes ED Akhunov, AR Akhunova, OD Anderson, JA Anderson, N Blake, ... BMC genomics 11, 1-22, 2010 | 231 | 2010 |
Genetic costs of domestication and improvement BT Moyers, PL Morrell, JK McKay Journal of Heredity 109 (2), 103-116, 2018 | 185 | 2018 |
MULTILOCUS INTERACTIONS RESTRICT GENE INTROGRESSION IN INTERSPECIFIC POPULATIONS OF POLYPLOID GOSSYPIUM (COTTON) C Jiang, PW Chee, X Draye, PL Morrell, CW Smith, AH Paterson Evolution 54 (3), 798-814, 2000 | 181 | 2000 |
Barley landraces are characterized by geographically heterogeneous genomic origins AM Poets, Z Fang, MT Clegg, PL Morrell Genome biology 16, 1-11, 2015 | 149 | 2015 |
Genomics and the contrasting dynamics of annual and perennial domestication BS Gaut, CM Díez, PL Morrell Trends in genetics 31 (12), 709-719, 2015 | 139 | 2015 |
Distinct geographic patterns of genetic diversity are maintained in wild barley (Hordeum vulgare ssp. spontaneum) despite migration PL Morrell, KE Lundy, MT Clegg Proceedings of the National Academy of Sciences 100 (19), 10812-10817, 2003 | 123 | 2003 |
Crop‐to‐weed introgression has impacted allelic composition of johnsongrass populations with and without recent exposure to cultivated sorghum PL Morrell, TD Williams‐Coplin, AL Lattu, JE Bowers, JM Chandler, ... Molecular ecology 14 (7), 2143-2154, 2005 | 120 | 2005 |
Toward integration of comparative genetic, physical, diversity, and cytomolecular maps for grasses and grains, using the sorghum genome as a foundation X Draye, YR Lin, X Qian, JE Bowers, GB Burow, PL Morrell, DG Peterson, ... Plant Physiology 125 (3), 1325-1341, 2001 | 113 | 2001 |