Microsatellites: genomic distribution, putative functions and mutational mechanisms: a review YC Li, AB Korol, T Fahima, A Beiles, E Nevo Molecular ecology 11 (12), 2453-2465, 2002 | 1757 | 2002 |
Genetic variation in natural populations: patterns and theory E Nevo Theoretical population biology 13 (1), 121-177, 1978 | 1407 | 1978 |
Microsatellites within genes: structure, function, and evolution YC Li, AB Korol, T Fahima, E Nevo Molecular biology and evolution 21 (6), 991-1007, 2004 | 1401 | 2004 |
The evolutionary significance of genetic diversity: ecological, demographic and life history correlates E Nevo Evolutionary Dynamics of Ggenetic Ddiversity/Springer, 1984 | 981 | 1984 |
High-molecular-mass hyaluronan mediates the cancer resistance of the naked mole rat X Tian, J Azpurua, C Hine, A Vaidya, M Myakishev-Rempel, J Ablaeva, ... Nature 499 (7458), 346-349, 2013 | 908 | 2013 |
Adaptive convergence and divergence of subterranean mammals E Nevo Annual review of ecology and systematics 10, 269-308, 1979 | 833 | 1979 |
Genome evolution of wild barley (Hordeum spontaneum) by BARE-1 retrotransposon dynamics in response to sharp microclimatic divergence R Kalendar, J Tanskanen, S Immonen, E Nevo, AH Schulman Proceedings of the National Academy of Sciences 97 (12), 6603-6607, 2000 | 771 | 2000 |
MULTILOCUS STRUCTURE OF NATURAL POPULATIONS OF HORDEUM SPONTANEUM AHD Brown, MW Feldman, E Nevo Genetics 96 (2), 523-536, 1980 | 754 | 1980 |
Drought-tolerance of wheat improved by rhizosphere bacteria from harsh environments: enhanced biomass production and reduced emissions of stress volatiles S Timmusk, IA Abd El-Daim, L Copolovici, T Tanilas, A Kännaste, ... PloS one 9 (5), e96086, 2014 | 674 | 2014 |
Evolution of genome–phenome diversity under environmental stress E Nevo Proceedings of the National Academy of Sciences 98 (11), 6233-6240, 2001 | 602 | 2001 |
Mosaic evolution of subterranean mammals: regression, progression, and global convergence E Nevo Oxford University Press, 1999 | 567 | 1999 |
Horizontal gene transfer of Fhb7 from fungus underlies Fusarium head blight resistance in wheat H Wang, S Sun, W Ge, L Zhao, B Hou, K Wang, Z Lyu, L Chen, S Xu, ... Science 368 (6493), eaba5435, 2020 | 551 | 2020 |
Triticum dicoccoides: An important genetic resource for increasing zinc and iron concentration in modern cultivated wheat İ Çakmak, A Torun, E Millet, M Feldman, T Fahima, A Korol, E Nevo, ... Soil science and plant nutrition 50 (7), 1047-1054, 2004 | 544 | 2004 |
Drought and salt tolerances in wild relatives for wheat and barley improvement E Nevo, G Chen Plant, cell & environment 33 (4), 670-685, 2010 | 540 | 2010 |
Fluctuating asymmetry: methods, theory, and applications JH Graham, S Raz, H Hel-Or, E Nevo Symmetry 2 (2), 466-540, 2010 | 523 | 2010 |
Domestication evolution, genetics and genomics in wheat JH Peng, D Sun, E Nevo Molecular Breeding 28, 281-301, 2011 | 454 | 2011 |
Retrotransposon BARE-1 and Its Role in Genome Evolution in the Genus Hordeum CM Vicient, A Suoniemi, K Anamthawat-Jónsson, J Tanskanen, ... The Plant Cell 11 (9), 1769-1784, 1999 | 442 | 1999 |
Biochemical diversity and evolution in the genus Mus F Bonhomme, J Catalan, J Britton-Davidian, VM Chapman, K Moriwaki, ... Biochemical genetics 22, 275-303, 1984 | 435 | 1984 |
Domestication quantitative trait loci in Triticum dicoccoides, the progenitor of wheat J Peng, Y Ronin, T Fahima, MS Röder, Y Li, E Nevo, A Korol Proceedings of the National Academy of Sciences 100 (5), 2489-2494, 2003 | 394 | 2003 |
Origin, evolution, population genetics and resources for breeding of wild barley, Hordeum spontaneum, in the Fertile Crescent. E Nevo | 385 | 1992 |