Gene–Physical Activity Interactions: Overview of Human Studies
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[1] L. Ferrucci,et al. The ACTN3 R577X nonsense allele is under-represented in elite-level strength athletes , 2008, European Journal of Human Genetics.
[2] P. Donnelly,et al. Replicating genotype–phenotype associations , 2007, Nature.
[3] N. A. Doldo,et al. Alpha-actinin-3 (ACTN3) R577X polymorphism influences knee extensor peak power response to strength training in older men and women. , 2007, The journals of gerontology. Series A, Biological sciences and medical sciences.
[4] D. MacArthur,et al. Association analysis of the ACTN3 R577X polymorphism and complex quantitative body composition and performance phenotypes in adolescent Greeks , 2007, European Journal of Human Genetics.
[5] Claude Bouchard,et al. The Human Obesity Gene Map: The 2005 Update , 2006, Obesity.
[6] E. Hoffman,et al. ACTN3 genotype is associated with increases in muscle strength in response to resistance training in women. , 2005, Journal of applied physiology.
[7] C. Bouchard,et al. Test–retest errors and the apparent heterogeneity of training response , 2004, European Journal of Applied Physiology.
[8] Seppo M. Nissilä,et al. Cardiovascular autonomic function correlates with the response to aerobic training in healthy sedentary subjects. , 2003, American journal of physiology. Heart and circulatory physiology.
[9] D. MacArthur,et al. ACTN3 genotype is associated with human elite athletic performance. , 2003, American journal of human genetics.
[10] C. Bouchard,et al. The human gene map for performance and health-related fitness phenotypes: the 2005 update. , 2003 .
[11] C. Bouchard,et al. Physical exercise and blood pressure with reference to the angiotensinogen M235T polymorphism. , 2002, Physiological genomics.
[12] C. Bouchard,et al. Heritability of HR and BP response to exercise training in the HERITAGE Family Study. , 2002, Medicine and science in sports and exercise.
[13] C. Bouchard,et al. Familial Aggregation of Blood Lipid Response to Exercise Training in the Health, Risk Factors, Exercise Training, and Genetics (HERITAGE) Family Study , 2002, Circulation.
[14] C. Bouchard,et al. Individual differences in response to regular physical activity. , 2001, Medicine and science in sports and exercise.
[15] C. Bouchard,et al. Physical activity and health: introduction to the dose-response symposium. , 2001, Medicine and science in sports and exercise.
[16] Claude Bouchard,et al. DOSE-RESPONSE ISSUES CONCERNING PHYSICAL ACTIVITY & HEALTH: A SUMMARY , 2001 .
[17] M. Province,et al. Familial aggregation of submaximal aerobic performance in the HERITAGE Family study. , 2001, Medicine and science in sports and exercise.
[18] D. Pennell,et al. Left Ventricular Hypertrophy With Exercise and ACE Gene Insertion/Deletion Polymorphism: A Randomized Controlled Trial With Losartan , 2001, Circulation.
[19] C. Bouchard,et al. Familial aggregation of stroke volume and cardiac output during submaximal exercise: the HERITAGE Family Study. , 2000, International journal of sports medicine.
[20] T. Rice,et al. AGT M235T and ACE ID polymorphisms and exercise blood pressure in the HERITAGE Family Study. , 2000, American journal of physiology. Heart and circulatory physiology.
[21] I. Borecki,et al. Complex segregation analysis of blood pressure and heart rate measured before and after a 20-week endurance exercise training program: the HERITAGE Family Study. , 2000, American journal of hypertension.
[22] C. Bouchard,et al. Familial aggregation of amount and distribution of subcutaneous fat and their responses to exercise training in the HERITAGE family study. , 2000, Obesity research.
[23] C. Bouchard,et al. Introductory comments for the consensus on physical activity and obesity. , 1999, Medicine and science in sports and exercise.
[24] J. Després,et al. Total body fat and abdominal visceral fat response to exercise training in the HERITAGE Family Study: evidence for major locus but no multifactorial effects. , 1999, Metabolism: clinical and experimental.
[25] C. Bouchard,et al. Familial aggregation of VO(2max) response to exercise training: results from the HERITAGE Family Study. , 1999, Journal of applied physiology.
[26] S. Humphries,et al. Association of angiotensin-converting enzyme gene I/D polymorphism with change in left ventricular mass in response to physical training. , 1997, Circulation.
[27] A. Leon,et al. Physical Activity and Cardiovascular Health: A National Consensus , 1997 .
[28] S. Oparil,et al. Physical activity and cardiovascular health , 1996 .
[29] C. Bouchard,et al. Individual differences in the response to regular exercise. , 1995, International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity.
[30] J. Wilmore,et al. The HERITAGE family study. Aims, design, and measurement protocol. , 1995, Medicine and science in sports and exercise.
[31] C. Bouchard,et al. The response to exercise with constant energy intake in identical twins. , 1994, Obesity research.
[32] W. Kohrt,et al. Effects of gender, age, and fitness level on response of VO2max to training in 60-71 yr olds. , 1991, Journal of applied physiology.
[33] A Tremblay,et al. The response to long-term overfeeding in identical twins. , 1990, The New England journal of medicine.
[34] C. Bouchard,et al. Inheritance of Human Skeletal Muscle and Anaerobic Capacity Adaptation to High-Intensity Intermittent Training* , 1986, International journal of sports medicine.
[35] C. Bouchard,et al. Responses of Maximal Aerobic Power and Capacity to Aerobic Training , 1984, International journal of sports medicine.
[36] C. Bouchard,et al. The human gene map for performance and health-related fitness phenotypes: the 2005 update. , 2006, Medicine and science in sports and exercise.
[37] C. Bouchard,et al. Familial aggregation of exercise heart rate and blood pressure in response to 20 weeks of endurance training: the HERITAGE family study. , 2003, International journal of sports medicine.
[38] C. Bouchard,et al. Physical exercise and blood pressure with reference to the angiotensinogen M 235 T polymorphism , 2002 .
[39] T. Rice,et al. Heart rate and blood pressure changes with endurance training: the HERITAGE Family Study. , 2001, Medicine and science in sports and exercise.
[40] C. Bouchard,et al. AGT M 235 T and ACE ID polymorphisms and exercise blood pressure in the HERITAGE Family Study , 2000 .
[41] M. Province,et al. Adaptation to a standardized training program and changes in fitness in a large, heterogeneous population: the HERITAGE Family Study. , 2000, Medicine and science in sports and exercise.
[42] Julie,et al. Familial aggregation of V̇O2max response to exercise training: results from the HERITAGE Family Study , 1999 .
[43] Physical activity and cardiovascular health. NIH Consensus Development Panel on Physical Activity and Cardiovascular Health. , 1996, JAMA.
[44] C. Bouchard,et al. Genetics of aerobic and anaerobic performances. , 1992, Exercise and sport sciences reviews.