Applying genotyping (TILLING) and phenotyping analyses to elucidate gene function in a chemically induced sorghum mutant population Z Xin, M Li Wang, NA Barkley, G Burow, C Franks, G Pederson, J Burke BMC plant biology 8, 1-14, 2008 | 358 | 2008 |
pH Regulation of Sterigmatocystin and Aflatoxin Biosynthesis in Aspergillus spp. NP Keller, C Nesbitt, B Sarr, TD Phillips, GB Burow Phytopathology 87 (6), 643-648, 1997 | 274 | 1997 |
Seed Lipoxygenase Products Modulate Aspergillus Mycotoxin Biosynthesis GB Burow, TC Nesbitt, J Dunlap, NP Keller Molecular Plant-Microbe Interactions 10 (3), 380-387, 1997 | 234 | 1997 |
Physiology and proteomics of the water‐deficit stress response in three contrasting peanut genotypes KR Kottapalli, R Rakwal, J Shibato, G Burow, D Tissue, J Burke, ... Plant, cell & environment 32 (4), 380-407, 2009 | 170 | 2009 |
Soil microbial communities and function in alternative systems to continuous cotton V Acosta-Martínez, G Burow, TM Zobeck, VG Allen Soil Science Society of America Journal 74 (4), 1181-1192, 2010 | 149 | 2010 |
A peanut seed lipoxygenase responsive to Aspergillus colonization GB Burow, HW Gardner, NP Keller Plant Molecular Biology 42, 689-701, 2000 | 124 | 2000 |
A sorghum mutant resource as an efficient platform for gene discovery in grasses Y Jiao, J Burke, R Chopra, G Burow, J Chen, B Wang, C Hayes, ... The Plant Cell 28 (7), 1551-1562, 2016 | 120 | 2016 |
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 | 114 | 2001 |
A safe inexpensive method to isolate high quality plant and fungal DNA in an open laboratory environment C Niu, H Kebede, DL Auld, JE Woodward, G Burow, RJ Wright African Journal of Biotechnology 7 (16), 2008 | 112 | 2008 |
Genetic dissection of early-season cold tolerance in sorghum (Sorghum bicolor (L.) Moench) G Burow, JJ Burke, Z Xin, CD Franks Molecular Breeding 28, 391-402, 2011 | 100 | 2011 |
Genetics and mechanism of resistance to Meloidogyne arenaria in peanut germplasm K Choi, MD Burow, G Church, G Burow, AH Paterson, CE Simpson, ... Journal of Nematology 31 (3), 283, 1999 | 93 | 1999 |
Genome-wide association analysis of seedling traits in diverse Sorghum germplasm under thermal stress R Chopra, G Burow, JJ Burke, N Gladman, Z Xin BMC plant biology 17, 1-15, 2017 | 91 | 2017 |
Comparisons of De Novo Transcriptome Assemblers in Diploid and Polyploid Species Using Peanut (Arachis spp.) RNA-Seq Data R Chopra, G Burow, A Farmer, J Mudge, CE Simpson, MD Burow PloS one 9 (12), e115055, 2014 | 82 | 2014 |
A comparison of US and Chinese sorghum germplasm for early season cold tolerance CD Franks, GB Burow, JJ Burke Crop science 46 (3), 1371-1376, 2006 | 82 | 2006 |
An induced sorghum mutant population suitable for bioenergy research Z Xin, ML Wang, G Burow, J Burke BioEnergy Research 2, 10-16, 2009 | 77 | 2009 |
Molecular characterization of the US peanut mini core collection using microsatellite markers KR Kottapalli, MD Burow, G Burow, J Burke, N Puppala Crop Science 47 (4), 1718-1727, 2007 | 74 | 2007 |
TRANSMEDCON 2021: Oral G Chopra Asian Journal of Transfusion Science 16 (Suppl 1), S1-S11, 2022 | 73 | 2022 |
Leaf dhurrin content is a quantitative measure of the level of pre‐and postflowering drought tolerance in sorghum JJ Burke, J Chen, G Burow, Y Mechref, D Rosenow, P Payton, Z Xin, ... Crop Science 53 (3), 1056-1065, 2013 | 70 | 2013 |
Genome‐wide association study of developing leaves' heat tolerance during vegetative growth stages in a sorghum association panel J Chen, R Chopra, C Hayes, G Morris, S Marla, J Burke, Z Xin, G Burow The plant genome 10 (2), plantgenome2016.09.0091, 2017 | 67 | 2017 |
Natural variation in synthesis and catabolism genes influences dhurrin content in sorghum CM Hayes, GB Burow, PJ Brown, C Thurber, Z Xin, JJ Burke The Plant Genome 8 (2), plantgenome2014.09.0048, 2015 | 59 | 2015 |