No Evidence of a Common DNA Variant Profile Specific to World Class Endurance Athletes
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Nir Eynon | Guan Wang | Dmitry G. Alexeev | Elena S. Kostryukova | Kathryn N. North | Haruka Murakami | Tuomo Rankinen | Rainer Rauramaa | Sujoy Ghosh | Alejandro Lucia | Motohiko Miyachi | Pawel Cieszczyk | Yannis Pitsiladis | Claude Bouchard | Vadim M. Govorun | Noriyuki Fuku | Bernd Wolfarth | Mark A. Sarzynski | Ildus I. Ahmetov | Marcel R. Boulay | Maxim L. Filipenko | Fleur C. Garton | Edward V. Generozov | Peter J. Houweling | Takashi Kawahara | Nickolay A. Kulemin | Andrey K. Larin | Agnieszka Maciejewska-Karłowska | Carlos A. Muniesa | Elena A. Ospanova | Sandosh Padmanabhan | Alexander V. Pavlenko | Olga N. Pyankova | Catalina Santiago | Marek Sawczuk | Robert A. Scott | Vladimir V. Uyba | Thomas Yvert | Louis Perusse | C. Bouchard | R. Rauramaa | T. Rankinen | L. Pérusse | S. Padmanabhan | R. Scott | M. Sarzynski | A. Lucia | M. Boulay | K. North | V. Govorun | Y. Pitsiladis | M. Filipenko | Sujoy Ghosh | H. Murakami | M. Miyachi | Guan Wang | N. Fuku | D. Alexeev | B. Wolfarth | A. Pavlenko | E. Kostryukova | E. Generozov | A. Larin | V. Uyba | C. Santiago | I. Ahmetov | F. Garton | N. Eynon | T. Yvert | P. Cięszczyk | E. A. Ospanova | C. Muniesa | M. Sawczuk | T. Kawahara | P. Houweling | A. Maciejewska-Karłowska | N. A. Kulemin | O. Pyankova | R. Scott | N. Kulemin | R. Scott
[1] Juan C. Vivar,et al. Integrative pathway analysis of a genome-wide association study of (V)O(2max) response to exercise training. , 2013, Journal of applied physiology.
[2] M. Kaczmarczyk,et al. Association of rs699 (M235T) Polymorphism in the AGT Gene With Power but Not Endurance Athlete Status , 2013, Journal of strength and conditioning research.
[3] R. Scott,et al. Genomics of elite sporting performance: what little we know and necessary advances , 2013, British Journal of Sports Medicine.
[4] Y. Pitsiladis,et al. Polymorphisms in the control region of mitochondrial DNA associated with elite Japanese athlete status , 2012, Scandinavian journal of medicine & science in sports.
[5] Tanya M. Teslovich,et al. The Metabochip, a Custom Genotyping Array for Genetic Studies of Metabolic, Cardiovascular, and Anthropometric Traits , 2012, PLoS genetics.
[6] C. Bouchard,et al. Heritability of submaximal exercise heart rate response to exercise training is accounted for by nine SNPs. , 2012, Journal of applied physiology.
[7] C. Bouchard,et al. Fine mapping of a QTL on chromosome 13 for submaximal exercise capacity training response: the HERITAGE Family Study , 2011, European Journal of Applied Physiology.
[8] A. Lucia,et al. Can we predict top‐level sports performance in power vs endurance events? A genetic approach , 2011, Scandinavian journal of medicine & science in sports.
[9] A. Liekens,et al. BioGraph: unsupervised biomedical knowledge discovery via automated hypothesis generation , 2011, Genome Biology.
[10] Claude Bouchard,et al. Genomic predictors of the maximal O₂ uptake response to standardized exercise training programs. , 2011, Journal of applied physiology.
[11] Garrett I. Ash,et al. No association between ACE gene variation and endurance athlete status in Ethiopians. , 2011, Medicine and science in sports and exercise.
[12] K. Tachibana,et al. Identification of a novel human UDP-GalNAc transferase with unique catalytic activity and expression profile. , 2010, Biochemical and biophysical research communications.
[13] C. Bouchard,et al. Genes and Response to Training , 2010 .
[14] B. Wolfarth. Genes and Endurance Performance , 2010 .
[15] Michael Boehnke,et al. LocusZoom: regional visualization of genome-wide association scan results , 2010, Bioinform..
[16] R. Scott,et al. Mitochondrial haplogroups associated with elite Japanese athlete status , 2010, British Journal of Sports Medicine.
[17] Claude Bouchard,et al. Using molecular classification to predict gains in maximal aerobic capacity following endurance exercise training in humans. , 2010, Journal of applied physiology.
[18] Y. Meckel,et al. Is there an interaction between PPARD T294C and PPARGC1A Gly482Ser polymorphisms and human endurance performance? , 2009, Experimental physiology.
[19] S. Stannard,et al. Low Reproducibility Of Lactate Markers During Incremental Cycle Exercise: 1507 , 2009 .
[20] C. Bouchard,et al. Functional identification of the promoter of SLC4A5, a gene associated with cardiovascular and metabolic phenotypes in the HERITAGE Family Study , 2009, European Journal of Human Genetics.
[21] C. Bouchard,et al. The human gene map for performance and health-related fitness phenotypes: the 2006-2007 update. , 2009, Medicine and science in sports and exercise.
[22] C. Bouchard,et al. KIF5B gene sequence variation and response of cardiac stroke volume to regular exercise. , 2009, Physiological genomics.
[23] D. Popov,et al. The ACTN3 R577X polymorphism in Russian endurance athletes , 2008, British Journal of Sports Medicine.
[24] R. Rauramaa,et al. Endothelial nitric oxide synthase gene polymorphism and elite endurance athlete status: the Genathlete study. , 2001, Scandinavian journal of medicine & science in sports.
[25] C. Bouchard,et al. Association between a beta2-adrenergic receptor polymorphism and elite endurance performance. , 2007, Metabolism: clinical and experimental.
[26] C. Bouchard,et al. Genome-wide linkage scan for submaximal exercise heart rate in the HERITAGE family study. , 2007, American journal of physiology. Heart and circulatory physiology.
[27] T. Spector,et al. Genome-Wide Linkage Scan for Athlete Status in 700 British Female DZ Twin Pairs , 2007, Twin Research and Human Genetics.
[28] Sudha Seshadri,et al. Framingham Heart Study 100K project: genome-wide associations for cardiovascular disease outcomes , 2007, BMC Medical Genetics.
[29] Manuel A. R. Ferreira,et al. PLINK: a tool set for whole-genome association and population-based linkage analyses. , 2007, American journal of human genetics.
[30] G. Abecasis,et al. A note on exact tests of Hardy-Weinberg equilibrium. , 2005, American journal of human genetics.
[31] R. Scott,et al. Demographic characteristics of elite Ethiopian endurance runners. , 2003, Medicine and science in sports and exercise.
[32] D. MacArthur,et al. ACTN3 genotype is associated with human elite athletic performance. , 2003, American journal of human genetics.
[33] C. Bouchard,et al. The human gene map for performance and health-related fitness phenotypes: the 2005 update. , 2003 .
[34] C. Bouchard,et al. Age, sex, race, initial fitness, and response to training: the HERITAGE Family Study. , 2001, Journal of applied physiology.
[35] C. Bouchard,et al. A polymorphism in the alpha2a-adrenoceptor gene and endurance athlete status. , 2000, Medicine and science in sports and exercise.
[36] C. Bouchard,et al. No association between the angiotensin-converting enzyme ID polymorphism and elite endurance athlete status. , 2000, Journal of applied physiology.
[37] C. Bouchard,et al. Familial aggregation of VO(2max) response to exercise training: results from the HERITAGE Family Study. , 1999, Journal of applied physiology.
[38] D. Rao,et al. A mitochondrial DNA D-loop polymorphism and obesity in three cohorts of women , 1999, International Journal of Obesity.
[39] J H Wilmore,et al. Familial resemblance for VO2max in the sedentary state: the HERITAGE family study. , 1998, Medicine and science in sports and exercise.
[40] J. Wilmore,et al. Muscle-specific creatine kinase gene polymorphism and VO2max in the HERITAGE Family Study. , 1997, Medicine and science in sports and exercise.
[41] C. Bouchard,et al. The response to exercise with constant energy intake in identical twins. , 1994, Obesity research.
[42] C. Bouchard,et al. Heredity and muscle adaptation to endurance training. , 1986, Medicine and science in sports and exercise.
[43] C. Bouchard,et al. More on red blood cell genetic variation in Olympic athletes. , 1986, Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport.
[44] C. Bouchard,et al. Sensitivity of maximal aerobic power to training is genotype-dependent. , 1984, Medicine and science in sports and exercise.
[45] Y. Chagnon,et al. Red blood cell genetic variation in Olympic endurance athletes , 1984 .
[46] C. Bouchard,et al. Familial similarity in aerobic power. , 1982, Human biology.
[47] Sung Gyoo Park. Medicine and Science in Sports and Exercise , 1981 .
[48] Henry J. Montoye,et al. Genetic and anthropological studies of Olympic athletes , 1974 .
[49] L GEDDA,et al. Sports and genetics. A study on twins (351 pairs). , 1960, Acta geneticae medicae et gemellologiae.