Hikmet Budak
Hikmet Budak
Montana BioAg. Inc.
Verified email at unl.edu - Homepage
Cited by
Cited by
Guidelines for the use and interpretation of assays for monitoring autophagy
DJ Klionsky, K Abdelmohsen, A Abe, MJ Abedin, H Abeliovich, ...
autophagy 12 (1), 1-222, 2016
Genome sequencing and analysis of the model grass Brachypodium distachyon
International Brachypodium Initiative
Nature 463 (7282), 763, 2010
A chromosome-based draft sequence of the hexaploid bread wheat (Triticum aestivum) genome
International Wheat Genome Sequencing Consortium
Science 345 (6194), 2014
Shifting the limits in wheat research and breeding using a fully annotated reference genome
R Appels, K Eversole, N Stein, C Feuillet, B Keller, J Rogers, CJ Pozniak, ...
Science 361 (6403), 2018
Ancient hybridizations among the ancestral genomes of bread wheat
T Marcussen, SR Sandve, L Heier, M Spannagl, M Pfeifer, KS Jakobsen, ...
science 345 (6194), 2014
Wild emmer genome architecture and diversity elucidate wheat evolution and domestication
R Avni, M Nave, O Barad, K Baruch, SO Twardziok, H Gundlach, I Hale, ...
Science 357 (6346), 93-97, 2017
Molecular characterization of Buffalograss germplasm using sequence-related amplified polymorphism markers
H Budak, RC Shearman, I Parmaksiz, RE Gaussoin, TP Riordan, ...
Theoretical and Applied Genetics 108 (2), 328-334, 2004
Comparative analysis of seeded and vegetative biotype buffalograsses based on phylogenetic relationship using ISSRs, SSRs, RAPDs, and SRAPs
H Budak, RC Shearman, I Parmaksiz, I Dweikat
Theoretical and Applied Genetics 109 (2), 280-288, 2004
miRNA expression patterns of Triticum dicoccoides in response to shock drought stress
M Kantar, SJ Lucas, H Budak
Planta 233 (3), 471-484, 2011
Megabase level sequencing reveals contrasted organization and evolution patterns of the wheat gene and transposable element spaces
F Choulet, T Wicker, C Rustenholz, E Paux, J Salse, P Leroy, S Schlub, ...
The Plant Cell 22 (6), 1686-1701, 2010
The transcriptional landscape of polyploid wheat
R. H. Ramírez-González, P. Borrill, D. Lang, S. A. Harrington, J. Brinton, L ...
Science 361 (6403), eaar6089, 2018
Brachypodium as a model for the grasses: today and the future
J Brkljacic, E Grotewold, R Scholl, T Mockler, DF Garvin, P Vain, T Brutnell, ...
Plant Physiology 157 (1), 3-13, 2011
Multiple QTL‐effects of wheat Gpc‐B1 locus on grain protein and micronutrient concentrations
A Distelfeld, I Cakmak, Z Peleg, L Ozturk, AM Yazici, H Budak, Y Saranga, ...
Physiologia Plantarum 129 (3), 635-643, 2007
Genome interplay in the grain transcriptome of hexaploid bread wheat
HTR Pfeifer M, Kugler KG, Sandve SR, Zhan B, Rudi H, ...
Science 345 (6194), 1250091, 2014
Regulation of barley miRNAs upon dehydration stress correlated with target gene expression
M Kantar, T Unver, H Budak
Functional & integrative genomics 10 (4), 493-507, 2010
Quantitative trait loci conferring grain mineral nutrient concentrations in durum wheat× wild emmer wheat RIL population
Z Peleg, I Cakmak, L Ozturk, A Yazici, Y Jun, H Budak, AB Korol, ...
Theoretical and applied genetics 119 (2), 353-369, 2009
Frequent gene movement and pseudogene evolution is common to the large and complex genomes of wheat, barley, and their relatives
T Wicker, KFX Mayer, H Gundlach, M Martis, B Steuernagel, U Scholz, ...
The Plant Cell 23 (5), 1706-1718, 2011
Durum wheat genome highlights past domestication signatures and future improvement targets
M Maccaferri, NS Harris, SO Twardziok, RK Pasam, H Gundlach, ...
Nature genetics 51 (5), 885-895, 2019
Plant miRNAs: biogenesis, organization and origins
H Budak, BA Akpinar
Functional & integrative genomics 15 (5), 523-531, 2015
Identification of QTLs and environmental interactions associated with agronomic traits on chromosome 3A of wheat
BT Campbell, PS Baenziger, KS Gill, KM Eskridge, H Budak, M Erayman, ...
Crop Science 43 (4), 1493-1505, 2003
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