[HTML][HTML] CUBIC: an atlas of genetic architecture promises directed maize improvement
Background Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
[PDF][PDF] CUBIC: an atlas of genetic architecture promises directed maize improvement
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - 2020 - researchgate.net
Background: Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
CUBIC: an atlas of genetic architecture promises directed maize improvement
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - Genome …, 2020 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: sec>< jats: title> Background</jats: title>< jats: p>
Identifying genotype-phenotype links and causative genes from quantitative trait loci (QTL) is …
Identifying genotype-phenotype links and causative genes from quantitative trait loci (QTL) is …
[PDF][PDF] CUBIC: an atlas of genetic architecture promises directed maize improvement
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - 2020 - maizego.org
Background: Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
CUBIC: an atlas of genetic architecture promises directed maize improvement.
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - 2020 - cabidigitallibrary.org
Background: Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
CUBIC: an atlas of genetic architecture promises directed maize improvement.
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - Genome …, 2020 - go.gale.com
Background Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
CUBIC: an atlas of genetic architecture promises directed maize improvement
HAIJUN LIU - 2020 - ars.usda.gov
Plant breeding has always tried to select the plants with the best traits. Traditionally, this has
been done by selecting the plants that looked the best, but with some traits, plants could look …
been done by selecting the plants that looked the best, but with some traits, plants could look …
CUBIC: an atlas of genetic architecture promises directed maize improvement.
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - Genome …, 2020 - europepmc.org
BACKGROUND: Identifying genotype-phenotype links and causative genes from
quantitative trait loci (QTL) is challenging for complex agronomically important traits. To …
quantitative trait loci (QTL) is challenging for complex agronomically important traits. To …
CUBIC: an atlas of genetic architecture promises directed maize improvement
HJ Liu, X Wang, Y Xiao, J Luo, F Qiao, W Yang… - 2020 - search.proquest.com
Background Identifying genotype-phenotype links and causative genes from quantitative
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …
trait loci (QTL) is challenging for complex agronomically important traits. To accelerate maize …