ACTN3 R577X genotype and performance of elite middle-long distance swimmers in China

Li, Y C; Wang, L Q; Liu, Yi; Liu, J H; Hu, Yawen; Lu, Yifan; Wang, M

doi:10.5114/biolsport.2017.63731

Cited by 12 publications

(14 citation statements)

References 21 publications

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“…The results of the four studies that examined only individual disciplines or sports are as follows: Falahati and Arazi could not link any of the genotypes of the ACE variant to the cardiovascular fitness of Iranian footballers (Falahati and Arazi, 2019 ). Ginszt et al ( 2018 ) and Li et al ( 2017 ) investigated the ACTN3 R577X polymorphism in climbing, bouldering, and swimming and both found an overrepresentation of the RR genotype of the gene variant in their groups of athletes. Kikuchi et al ( 2017 ) also found the MCT1 T1470A rs1049434 polymorphism significantly higher in Japanese elite wrestlers and correlated it with their performance in two anaerobic tests.…”

Section: Resultsmentioning

confidence: 99%

“…In this case, this genotype was detected significantly more frequently in sprint and strength athletes and could be associated with their jumping performance. Li et al referred to both strength and endurance-related phenotypes in swimmers (Li et al, 2017 ). The results of their study showed that both the RR genotype and the RX+XX genotype of the ACTN3 polymorphism are significantly overrepresented in these athletes compared to a control group.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, comparability of the studies is limited due to the different design in the structure, analysis, and evaluation. Some authors restricted their study population to a single type of exercise (Kikuchi et al, 2017 ; Li et al, 2017 ; Ginszt et al, 2018 ; Falahati and Arazi, 2019 ) while others formed heterogeneous cohorts of athletes from several disciplines (Guilherme and Lancha, 2017 ; Yang et al, 2017 ; Zarebska et al, 2017 ; Guilherme et al, 2019 ). Since the characteristics of endurance performance, muscle strength and injury susceptibility vary in children, adolescents, and seniors, these groups were excluded to increase the generalizability of the results by focusing on a normal adult age.…”

Section: Discussionmentioning

confidence: 99%

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Effects of Genetic Variation on Endurance Performance, Muscle Strength, and Injury Susceptibility in Sports: A Systematic Review

et al. 2021

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The aim of this systematic review was to assess the effects of genetic variations and polymorphisms on endurance performance, muscle strength and injury susceptibility in competitive sports. The electronic databases PubMed and Web of Science were searched for eligible studies. The study quality was assessed using the RoBANS tool. Studies were included if they met the following criteria: (1) human study in English or German; (2) published in the period 2015–2019; (3) investigation of an association between genetic variants and endurance performance and/or muscle strength and/or endurance/strength training status as well as ligament, tendon, or muscle injuries; (4) participants aged 18–60 years and national or international competition participation; (5) comparison with a control group. Nineteen studies and one replication study were identified. Results revealed that the IGF-1R 275124 A>C rs1464430 polymorphism was overrepresented in endurance trained athletes. Further, genotypes of PPARGC1A polymorphism correlated with performance in endurance exercise capacity tests in athletes. Moreover, the RR genotype of ACTN3 R577X polymorphism, the C allele of IGF-1R polymorphism and the gene variant FTO T>A rs9939609 and/or their AA genotype were linked to muscle strength. In addition, gene variants of MCT1 (T1470A rs1049434) and ACVR1B (rs2854464) were also positively associated with strength athletes. Among others, the gene variants of the MMP group (rs591058 and rs679620) as well as the polymorphism COL5A1 rs13946 were associated with susceptibility to injuries of competitive athletes. Based on the identified gene variants, individualized training programs for injury prevention and optimization of athletic performance could be created for competitive athletes using gene profiling techniques.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Effects of Genetic Variation on Endurance Performance, Muscle Strength, and Injury Susceptibility in Sports: A Systematic Review

et al. 2021

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“…This indicates an enhanced capacity for fat/carbohydrate oxidation during repeated and moderate-intensity muscle contractions (Table 2). However, in humans, the potential advantage of the X allele or the XX genotype for endurance sports performance is less clear, with some investigations reporting no increased frequency of the XX genotype in endurance athletes (Grealy et al 2013;Guilherme et al 2018;Papadimitriou et al 2018;Ma et al 2013;Lucia et al 2006;Saunders et al 2007;Yang et al 2007) or even an under-representation of this genotype (Ahmetov et al 2010;Kikuchi et al 2016;Li et al 2017) respect to control/untrained populations. Thus, it can be assumed that perhaps lack of α-actinin-3 does not offer a major advantage for endurance performance, at least in athletic populations (Table 1).…”

Section: Performancementioning

confidence: 99%

More than a ‘speed gene’: ACTN3 R577X genotype, trainability, muscle damage, and the risk for injuries

et al. 2018

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A common null polymorphism (rs1815739; R577X) in the gene that codes for α-actinin-3 (ACTN3) has been related to different aspects of exercise performance. Individuals who are homozygous for the X allele are unable to express the α-actinin-3 protein in the muscle as opposed to those with the RX or RR genotype. α-actinin-3 deficiency in the muscle does not result in any disease. However, the different ACTN3 genotypes can modify the functioning of skeletal muscle during exercise through structural, metabolic or signalling changes, as shown in both humans and in the mouse model. Specifically, the ACTN3 RR genotype might favour the ability to generate powerful and forceful muscle contractions. Leading to an overall advantage of the RR genotype for enhanced performance in some speed and power-oriented sports. In addition, RR genotype might also favour the ability to withstand exercise-induced muscle damage, while the beneficial influence of the XX genotype on aerobic exercise performance

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“…In this sense, using genetic models, Papadimitriou et al (Papadimitriou et al, 2016) established that the ACTN3 R allele and ACE D allele dominant model account for 0.92 % and 1.48 % of sprint time variance, respectively, in a large, performance-homogenous cohort of elite Australian, Brazilian, Greek, Jamaican, Italian, Polish, Russian, Lithuanian, Spanish and US sprinters. Although some research have established that the genetic background of ACTN3 R577X and/or ACE I/D polymorphisms play an important role in sporting potential, which might explain why some individuals may be better adapted to specific physical training or performance (Chiu et al, 2019;Coelho et al, 2018;Del Coso et al, 2019;Kikuchi et al, 2015;Li et al, 2017;Massidda et al, 2019;R. Yang et al, 2017;Znazen et al, 2015), readers should note that other studies have reported no association between the ACTN3 R577X and/or ACE I/D polymorphism and athletic performance (Falahati & Arazi, 2019;Koku et al, 2019;Maciejewska-Skrendo, Cięszczyk, Chycki, Sawczuk, & Smółka, 2019;Massidda et al, 2015;Miyamoto, Miyamoto-Mikami, Hirata, Kimura, & Fuku, 2018;Moreno-Pérez, Machar, Sanz-Rivas, & Del Coso, 2020;Papadimitriou et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

Evaluation of ACTN3 R577X and ACE I/D polymorphisms in young Colombian athletes: An exploratory research

Ortiz¹,

Ayala²,

Petro³

et al. 2020

jhse

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There are genetic sequences that might be associated with improved athletic performance, such as the α-actinin-3 (ACTN3) R577X polymorphism and the angiotensin-converting enzyme (ACE) insertion/deletion (I/D), which are related to phenotypes of increased muscle strength and endurance, respectively. This STREGA-based crosssectional study compared the genotype and allele frequencies of the ACTN3 R577X and ACE I/D polymorphisms between Colombian athletes (n = 37) and non-athletic controls (n = 37). Genotyping was performed using polymerase chain reaction (PCR) and subsequent enzymatic restriction (RFLP). The distribution of the ACTN3 R577X genotype of control and athletic groups met Hardy-Weinberg Equilibrium (HWE) (all p > .05); however, in the strength-trained athletes, the distribution of the ACE I/D genotype was not found in HWE. In athletic population, genotype distribution and allele frequencies of the ACTN3 R577X (n = 37) was RR: 35.1% (n = 13), RX: 54.1% (n = 20), XX: 10.8% (n = 4), and R: 0.6216 and X: 0.3784, respectively. For ACE I/D (n = 74) it was found a genotype distribution of DD: 35.1% (n = 13), ID: 24.3% (n = 9), II: 40.5% (n = 15), and allelic frequencies of D: 62.16% and I: 37.84%. Statistical analysis showed an association between the ACE genotypes with strength, endurance and control groups (X 2 = 15.3, gl = 4, p = .004); however, the ACTN3 R577X polymorphism did not have a significant association (X 2 = 3.99, gl = 4, p = .408). Although studies with a more homogeneous and larger sample size are required, the results of this exploratory study contribute to the genotypic characterization of Colombian athletes with the objective of improving the methodologies and its applications to sports medicine.

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ACTN3 R577X genotype and performance of elite middle-long distance swimmers in China

Cited by 12 publications

References 21 publications

Effects of Genetic Variation on Endurance Performance, Muscle Strength, and Injury Susceptibility in Sports: A Systematic Review

Effects of Genetic Variation on Endurance Performance, Muscle Strength, and Injury Susceptibility in Sports: A Systematic Review

More than a ‘speed gene’: ACTN3 R577X genotype, trainability, muscle damage, and the risk for injuries

Evaluation of ACTN3 R577X and ACE I/D polymorphisms in young Colombian athletes: An exploratory research

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