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Laidlaw, H.K.C., Mace, E.S., Williams, S.B., Sakrewski, K., Mudge, A.M., Prentis, P.J., Jordan, D.R. and Godwin, I.D. (2010) Allelic variation of the β-, γ- and δ-kafirin genes in diverse Sorghum genotypes. Theoretical and Applied Genetics, 121 7: 1227-1237. doi:10.1007/s00122-010-1383-9 95   7 Cited 10 times in Scopus10 0
Singh, D., Mace, E. S., Godwin, I. D., Mathur, P. N., Okpul, T., Taylor, M., Hunter, D., Kambuou, R., Ramanatha Rao, V. and Jackson, G. (2008) Assessment and rationalization of genetic diversity of Papua New Guinea taro (Colocasia esculenta) using SSR DNA fingerprinting. Genetic Resources and Crop Evolution, 55 6: 811-822. doi:10.1007/s10722-007-9286-6 134   6 Cited 8 times in Scopus8 0
Ziems, L. A., Hickey, L. T., Hunt, C. H., Mace, E. S., Platz, G. J., Franckowiak, J. D. and Jordan, D. R. (2014) Association mapping of resistance to Puccinia hordei in Australian barley breeding germplasm. Theoretical and Applied Genetics, 127 5: 1199-1212. doi:10.1007/s00122-014-2291-1 69   1 Cited 0 times in Scopus0 1
Okpul, T., Mace, E. S., Godwin, I. D., Singh, D. and Wagih, M. E. (2005) Evaluation of Variability Among Breeding Lines and Cultivars of Taro (Colocasia Esculenta) in Papua New Guinea Using ISSR Fingerprinting and Agro-Morphological Characterization. Plant Genetic Resources Newsletter, 143: 8-16. 227  
Jordan, D. R., Mace, E. S., Cruickshank, A. W., Hunt, C. H. and Henzell, R. G. (2011) Exploring and exploiting genetic variation from unadapted sorghum germplasm in a breeding program. Crop Science, 51 4: 1444-1457. doi:10.2135/cropsci2010.06.0326 104   11 Cited 9 times in Scopus9 0
Mace, E. S. and Jordan, D. R. (2011) Integrating sorghum whole genome sequence information with a compendium of sorghum QTL studies reveals uneven distribution of QTL and of gene-rich regions with significant implications for crop improvement. Theoretical and Applied Genetics, 123 1: 169-191. doi:10.1007/s00122-011-1575-y 91   35 Cited 37 times in Scopus37 0
Mace E. S. and Jordan D. R. (2010) Location of major effect genes in sorghum (Sorghum bicolor (L.) Moench). Theoretical and Applied Genetics, 121 7: 1339-1356. doi:10.1007/s00122-010-1392-8 73   23 Cited 26 times in Scopus26 0
Jordan, D. R., Klein, R. R., Sakrewski, K. G., Henzell, R. G., Klein, P. E. and Mace, E. S. (2011) Mapping and characterization of Rf(5): A new gene conditioning pollen fertility restoration in A(1) and A(2) cytoplasm in sorghum (Sorghum bicolor (L.) Moench). Theoretical and Applied Genetics, 123 3: 383-396. doi:10.1007/s00122-011-1591-y 89   6 Cited 5 times in Scopus5 0
Alam, M. M., Mace, E. S., van Oosterom, E. J., Cruickshank, A., Hunt, C. H., Hammer G.L. and Jordan, D. R. (2014) QTL analysis in multiple sorghum populations facilitates the dissection of the genetic and physiological control of tillering. Theoretical and Applied Genetics, 127 10: 2253-2266. doi:10.1007/s00122-014-2377-9 22   0 Cited 0 times in Scopus0 1
Mace, E.S., Singh, V., Van Oosterom, E.J., Hammer, G.L., Hunt, C.H. and Jordan, D.R. (2012) QTL for nodal root angle in sorghum (Sorghum bicolor L. Moench) co-locate with QTL for traits associated with drought adaptation. Theoretical and Applied Genetics, 124 1: 97-109. doi:10.1007/s00122-011-1690-9 80   23 Cited 26 times in Scopus26 0
Wang X., Mace E.S., Platz G.J., Hunt C.H., Hickey L.T., Franckowiak J.D. and Jordan D.R. (2015) Spot form of net blotch resistance in barley is under complex genetic control. Theoretical and Applied Genetics, 128 3: 489-499. doi:10.1007/s00122-014-2447-z 10   0 Cited 0 times in Scopus0 0
Mace, E. S., Hunt, C. H. and Jordan, D. R. (2013) Supermodels: sorghum and maize provide mutual insight into the genetics of flowering time. Theoretical and Applied Genetics, 126 5: 1377-1395. doi:10.1007/s00122-013-2059-z 52   14 Cited 16 times in Scopus16 1