Add to ORKGNew alleles are constantly accumulated during intentional crop selection. The molecular understanding of these alleles has stimulated new genomic approaches to mapping quantitative trait loci (QTL) and haplotype multiplicity of the genes concerned. A limited number of quantitative trait nucleotides responsible for QTL variation have been described, but an acceleration in their rate of discovery is expected with the adoption of linkage disequilibrium and candidate gene strategies for QTL fine mapping and cloning. Additional layers of regulatory variation have been studied that could also contribute to the molecular basis of quantitative genetics of crop traits. Despite this progress, the role of marker-assisted selection in plant breeding wi...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
Most characteristics in living organisms show continuous variation, which suggests that they are con...
Molecular markers have revolutionized and modernized our ability to characterize genetic variation a...
New alleles are constantly accumulated during intentional crop selection. The molecular understandin...
Most traits of interest in plant breeding show quantitative inheritance, which complicate the breedi...
The utilization of a number of genomics platforms and analytical methods allow us to fine map and cl...
Molecular markers provide plant breeding with an important and valuable new source of information. L...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
The empirical evidence accumulated to date indicates that the genetic architecture of the different ...
<p>Quantitative variation is a feature of many important traits such as yield, quality and dis...
Quantitative variation is a feature of many important traits such as yield, quality and disease resi...
Genetic mapping of major genes and quantitative traits loci (QTLs) for many important agricultural t...
Recognizing the enormous potential of DNA markers in plant breeding, many agricultural research cent...
Recent progress in genomics and phenomics allows for a more accurate and comprehensive characterizat...
In the last two decades we have witnessed the widespread use of molecular markers to study complex, ...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
Most characteristics in living organisms show continuous variation, which suggests that they are con...
Molecular markers have revolutionized and modernized our ability to characterize genetic variation a...
New alleles are constantly accumulated during intentional crop selection. The molecular understandin...
Most traits of interest in plant breeding show quantitative inheritance, which complicate the breedi...
The utilization of a number of genomics platforms and analytical methods allow us to fine map and cl...
Molecular markers provide plant breeding with an important and valuable new source of information. L...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
The empirical evidence accumulated to date indicates that the genetic architecture of the different ...
<p>Quantitative variation is a feature of many important traits such as yield, quality and dis...
Quantitative variation is a feature of many important traits such as yield, quality and disease resi...
Genetic mapping of major genes and quantitative traits loci (QTLs) for many important agricultural t...
Recognizing the enormous potential of DNA markers in plant breeding, many agricultural research cent...
Recent progress in genomics and phenomics allows for a more accurate and comprehensive characterizat...
In the last two decades we have witnessed the widespread use of molecular markers to study complex, ...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
Most characteristics in living organisms show continuous variation, which suggests that they are con...
Molecular markers have revolutionized and modernized our ability to characterize genetic variation a...