Together with environment and experience (that is to say, diet and training), the biological and genetic make-up of an athlete plays a major role in exercise physiology. Sports genomics has shown, indeed, that some DNA single nucleotide polymorphisms (SNPs) can be associated with athlete performance and level (such as elite/world-class athletic status), having an impact on physical activity behavior, endurance, strength, power, speed, flexibility, energetic expenditure, neuromuscular coordination, metabolic and cardio-respiratory fitness, among others, as well as with psychological traits. Athletic phenotype is complex and depends on the combination of different traits and characteristics: as such, it requires a "complex science," like that...
Numerous reports of genetic associations with performance- and injury-related phenotypes have been p...
The genetic component of athletic performance approximates 50%, depending on which specific element ...
The application of global “omics” technologies to exercise has introduced new opportunities to map t...
Together with environment and experience (that is to say, diet and training), the biological and gen...
Human athletic performance is a complex phenotype influenced by environmental and genetic factors, w...
The primary use of the traditional candidate gene approach over the past decades in sports genetics ...
Sequencing of the human genome and further developments in “omics” technologies have opened up new p...
Sportomics is the application of metabolomics in sports to investigate the metabolic effects of phys...
Genes control biological processes such as muscle, cartilage and bone formation, muscle energy produ...
Functional variants in exonic regions have been associated with development of cardiovascular diseas...
All biological processes associated with high sports performance, including energy metabolism, are i...
Sport genomics is a comparatively new scientific discipline concentrating on the organization and fu...
Sportomics is the application of metabolomics in sports to investigate the metabolic effects of phys...
Genomics, transcriptomics and metabolomics are increasingly generating key insights for the developm...
Proteomics and metabolomics research offers a quantitative measurement of metabolic profiles associa...
Numerous reports of genetic associations with performance- and injury-related phenotypes have been p...
The genetic component of athletic performance approximates 50%, depending on which specific element ...
The application of global “omics” technologies to exercise has introduced new opportunities to map t...
Together with environment and experience (that is to say, diet and training), the biological and gen...
Human athletic performance is a complex phenotype influenced by environmental and genetic factors, w...
The primary use of the traditional candidate gene approach over the past decades in sports genetics ...
Sequencing of the human genome and further developments in “omics” technologies have opened up new p...
Sportomics is the application of metabolomics in sports to investigate the metabolic effects of phys...
Genes control biological processes such as muscle, cartilage and bone formation, muscle energy produ...
Functional variants in exonic regions have been associated with development of cardiovascular diseas...
All biological processes associated with high sports performance, including energy metabolism, are i...
Sport genomics is a comparatively new scientific discipline concentrating on the organization and fu...
Sportomics is the application of metabolomics in sports to investigate the metabolic effects of phys...
Genomics, transcriptomics and metabolomics are increasingly generating key insights for the developm...
Proteomics and metabolomics research offers a quantitative measurement of metabolic profiles associa...
Numerous reports of genetic associations with performance- and injury-related phenotypes have been p...
The genetic component of athletic performance approximates 50%, depending on which specific element ...
The application of global “omics” technologies to exercise has introduced new opportunities to map t...