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1. www.ncbi.nlm.nih.gov › pmc › articlesGenes and Athletic Performance: The 2023 Update - PMC

   www.ncbi.nlm.nih.gov › pmc › articles

   Jun 8, 2023 · For example, the rs671 G/A polymorphism of the aldehyde dehydrogenase 2 (ALDH2) gene was associated with strength in athletes and non-athletes from the Japanese population [66,67,68]. Interestingly, the unfavourable (associated with reduced strength) rs671 A allele is not present in Europeans or South Asians (frequency 0%), but common in Chinese, Japanese, and Vietnamese populations (15–25%).

   • ACTN3: More than Just a Gene for Speed - PMC

     In this regard, one of the most well-studied genes is ACTN3,...

2. www.ncbi.nlm.nih.gov › pmc › articlesGenetics and sports performance: the present and future in ...

   www.ncbi.nlm.nih.gov › pmc › articles

   Oct 13, 2021 · Moreover, it must be kept in mind that, beyond genetic endowment or complex gene–gene and gene–environment interactions, there are other numerous contributors to the “complex trait” of being an athletic champion, such as motivation, socioeconomic factors, or simply opportunity (Ruiz et al. 2010). Hence, the possession of a high TGS for power performance does not guarantee success in ...

   • DOI: 10.1007/s00421-022-04945-z
   • Published: 2022

   • Publication: Eur J Appl Physiol. 2022; 122(8): 1811-1830.

3. www.nature.com › articles › s41598/018/24735-yBiological Insights Into Muscular Strength: Genetic Findings ...

   www.nature.com › articles › s41598/018/24735-y

   Apr 24, 2018 · We estimate that with the 16 grip strength variants they analyzed, the power to detect a causal estimate for CHD in their analysis was only 51% (effect size = 0.84 per SD-increase of maximal grip ...

   • Author: Emmi Tikkanen, Stefan Gustafsson, David Amar, Anna Shcherbina, Daryl Waggott, Euan A. Ashley, Erik I...

   • Publish Year: 2018

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5. www.news-medical.net › news › 20211015Genes play a significant role in how the body responds to ...

   www.news-medical.net › news › 20211015

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   Oct 15, 2021 · In total, the study identified 13 genes, and associated alleles, as being responsible for how well the body reacts to cardiovascular fitness, muscular strength, and anaerobic power exercises.

6. www.ncbi.nlm.nih.gov › pmc › articlesACTN3: More than Just a Gene for Speed - PMC

   www.ncbi.nlm.nih.gov › pmc › articles

   Dec 18, 2017 · In this regard, one of the most well-studied genes is ACTN3, which has been reliably shown to impact speed-power and strength phenotypes. However, emerging research indicates that this polymorphism may also impact other exercise associated variables, including training adaptation, post-exercise recovery, and exercise-associated injuries; this research is summarized in Figure Figure1. 1 .

   • Author: Craig Pickering, John Kiely
   • DOI: 10.3389/fphys.2017.01080

   • Publish Year: 2017
   • Publication: Front Physiol. 2017; 8: 1080.

7. www.nature.com › articles › s41576/021/00400-5The genetics of human performance - Nature Reviews Genetics

   www.nature.com › articles › s41576/021/00400-5

   Sep 14, 2021 · Here, Kim et al. review candidate genes and pathways implicated in human performance by genetic, genomic and multi-omic studies. ... Hence, the genes that influence mechanical strength are likely ...

8. People also ask

   How do genes affect fitness adaptations?

   • For strength training, genes explained around 72%. But for power, genes only explained around 10% of the difference. The rest of these differences can be explained by other variables – such as diet, sleep, recovery time and lifestyle. This shows us what a big impact our genes have on what fitness adaptations we see when we exercise.

   How your genes influence whether a certain type of exercise works for

   theconversation.com/how-your-genes-influence-whether-a-certain-type-of-exercise-works-for-you-new-research-169594

   See all results for this question

   Do genes explain the difference between strength training and aerobic training?

   • For aerobic training, genes explained 44% of the differences in scores that we saw. For strength training, genes explained around 72%. But for power, genes only explained around 10% of the difference. The rest of these differences can be explained by other variables – such as diet, sleep, recovery time and lifestyle.

   How your genes influence whether a certain type of exercise works for

   theconversation.com/how-your-genes-influence-whether-a-certain-type-of-exercise-works-for-you-new-research-169594

   See all results for this question

   Which gene is most important for grip strength?

   • Our gene-based analysis of the discovery sample identified ATP2A1 as the most significant gene for grip strength (P = 3.9 × 10 −31, Fig. 2).

   Biological Insights Into Muscular Strength: Genetic Findings in the UK

   www.nature.com/articles/s41598-018-24735-y

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   Are genetic differences affecting muscle strength?

   • By combining data from 24 separate studies, the researchers discovered that genetic differences are responsible for 72% of the variation in outcomes for people following identical exercises designed to improve muscle strength.

   Genes play a significant role in how the body responds to exercise

   www.news-medical.net/news/20211015/Genes-play-a-significant-role-in-how-the-body-responds-to-exercise-finds-study.aspx

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   Which genes increase endurance capacity?

   • A recent systematic literature review identified 31 mouse genes the knockout or overexpression of which led to increased endurance capacity 32, including nine with human orthologues in which variants have been implicated in endurance traits: ACTN3, ADCY5, ADRB2, BDKRB2, HIF1A, PPARD, PPARGC1A, PPARGC1B and PPP3CA 32.

   The genetics of human performance | Nature Reviews Genetics

   www.nature.com/articles/s41576-021-00400-5

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   Does genetics affect sports performance and exercise adaptation?

   • There is a clear, undoubted impact of genetics on both sporting performance and exercise adaptation. In this regard, one of the most well-studied genes is ACTN3, which has been reliably shown to impact speed-power and strength phenotypes.

   ACTN3: More than Just a Gene for Speed

   www.ncbi.nlm.nih.gov/pmc/articles/PMC5741991/

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9. theconversation.com › how-your-genes-influenceHow your genes influence whether a certain type of exercise ...

   theconversation.com › how-your-genes-influence

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   Oct 28, 2021 · For aerobic training, genes explained 44% of the differences in scores that we saw. For strength training, genes explained around 72%. But for power, genes only explained around 10% of the difference.