Artigos com autorizações de acesso público - Edward BucklerSaiba mais
Não disponíveis em nenhum local: 2
Somatic variations led to the selection of acidic and acidless orange cultivars
L Wang, Y Huang, ZA Liu, J He, X Jiang, F He, Z Lu, S Yang, P Chen, ...
Nature Plants 7 (7), 954-965, 2021
Autorizações: US Department of Agriculture, National Natural Science Foundation of China
Genome-wide analysis of deletions in maize population reveals abundant genetic diversity and functional impact
X Zhang, Y Zhu, KAG Kremling, MC Romay, R Bukowski, Q Sun, S Gao, ...
Theoretical and Applied Genetics, 1-18, 2022
Autorizações: US National Science Foundation, US Department of Agriculture, National …
Disponíveis em algum local: 152
Mixed linear model approach adapted for genome-wide association studies
Z Zhang, E Ersoz, CQ Lai, RJ Todhunter, HK Tiwari, MA Gore, ...
Nature genetics 42 (4), 355-360, 2010
Autorizações: US National Institutes of Health
Diversity and heritability of the maize rhizosphere microbiome under field conditions
JA Peiffer, A Spor, O Koren, Z Jin, SG Tringe, JL Dangl, ES Buckler, ...
Proceedings of the National Academy of Sciences 110 (16), 6548-6553, 2013
Autorizações: Howard Hughes Medical Institute
Iterative usage of fixed and random effect models for powerful and efficient genome-wide association studies
X Liu, M Huang, B Fan, ES Buckler, Z Zhang
PLoS genetics 12 (2), e1005767, 2016
Autorizações: US National Science Foundation, National Natural Science Foundation of China
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
Autorizações: US National Institutes of Health
Large-scale replicated field study of maize rhizosphere identifies heritable microbes
WA Walters, Z Jin, N Youngblut, JG Wallace, J Sutter, W Zhang, ...
Proceedings of the National Academy of Sciences 115 (28), 7368-7373, 2018
Autorizações: US National Science Foundation, US Department of Energy, US Department of …
Pearl millet genome sequence provides a resource to improve agronomic traits in arid environments
RK Varshney, C Shi, M Thudi, C Mariac, J Wallace, P Qi, H Zhang, Y Zhao, ...
Nature biotechnology 35 (10), 969-976, 2017
Autorizações: Bill & Melinda Gates Foundation, CGIAR
Extensive intraspecific gene order and gene structural variations between Mo17 and other maize genomes
S Sun, Y Zhou, J Chen, J Shi, H Zhao, H Zhao, W Song, M Zhang, Y Cui, ...
Nature genetics 50 (9), 1289-1295, 2018
Autorizações: US National Science Foundation, US Department of Agriculture, National …
GAPIT version 2: an enhanced integrated tool for genomic association and prediction
Y Tang, X Liu, J Wang, M Li, Q Wang, F Tian, Z Su, Y Pan, D Liu, AE Lipka, ...
The plant genome 9 (2), plantgenome2015.11.0120, 2016
Autorizações: US National Science Foundation, US Department of Agriculture, National …
Aluminum tolerance in maize is associated with higher MATE1 gene copy number
LG Maron, CT Guimarães, M Kirst, PS Albert, JA Birchler, PJ Bradbury, ...
Proceedings of the National Academy of Sciences 110 (13), 5241-5246, 2013
Autorizações: US National Institutes of Health
Can genomics boost productivity of orphan crops?
RK Varshney, JM Ribaut, ES Buckler, R Tuberosa, JA Rafalski, ...
Nature biotechnology 30 (12), 1172-1176, 2012
Autorizações: Department of Biotechnology, India
Construction of the third-generation Zea mays haplotype map
R Bukowski, X Guo, Y Lu, C Zou, B He, Z Rong, B Wang, D Xu, B Yang, ...
Gigascience 7 (4), gix134, 2018
Autorizações: US National Science Foundation, Bill & Melinda Gates Foundation, US …
Widespread long-range cis-regulatory elements in the maize genome
WA Ricci, Z Lu, L Ji, AP Marand, CL Ethridge, NG Murphy, JM Noshay, ...
Nature plants 5 (12), 1237-1249, 2019
Autorizações: US National Science Foundation, US National Institutes of Health, German …
On the road to breeding 4.0: unraveling the good, the bad, and the boring of crop quantitative genomics
JG Wallace, E Rodgers-Melnick, ES Buckler
Annual review of genetics 52 (1), 421-444, 2018
Autorizações: US Department of Agriculture
Genomic prediction in maize breeding populations with genotyping-by-sequencing
J Crossa, Y Beyene, S Kassa, P Pérez, JM Hickey, C Chen, ...
G3: Genes, genomes, genetics 3 (11), 1903-1926, 2013
Autorizações: US National Institutes of Health
A study of allelic diversity underlying flowering-time adaptation in maize landraces
JA Romero Navarro, M Willcox, J Burgueño, C Romay, K Swarts, ...
Nature genetics 49 (3), 476-480, 2017
Autorizações: US National Science Foundation, US Department of Agriculture
Natural variation in maize aphid resistance is associated with 2, 4-dihydroxy-7-methoxy-1, 4-benzoxazin-3-one glucoside methyltransferase activity
LN Meihls, V Handrick, G Glauser, H Barbier, H Kaur, MM Haribal, ...
The Plant Cell 25 (6), 2341-2355, 2013
Autorizações: Swiss National Science Foundation
Genome-environment associations in sorghum landraces predict adaptive traits
JR Lasky, HD Upadhyaya, P Ramu, S Deshpande, CT Hash, J Bonnette, ...
Science advances 1 (6), e1400218, 2015
Autorizações: CGIAR
A SUPER powerful method for genome wide association study
Q Wang, F Tian, Y Pan, ES Buckler, Z Zhang
PloS one 9 (9), e107684, 2014
Autorizações: National Natural Science Foundation of China
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