Physical activity and the association of common FTO gene variants with body mass index and obesity.

paper Cited Public

Authors: Rampersaud, Evadnie; Mitchell, Braxton D; Pollin, Toni I; Fu, Mao; Shen, Haiqing; O'Connell, Jeffery R; Ducharme, Julie L; Hines, Scott; Sack, Paul; Naglieri, Rosalie; Shuldiner, Alan R; Snitker, Soren
Year: 2008
Journal: Archives of internal medicine
PMID: 18779467
DOI: 10.1001/archinte.168.16.1791
PMCID: PMC3635949

Figure 1

Linkage disequilibrium (LD) structure and FTO single-nucleotide polymorphism (SNP) associations with body mass index (BMI). A, For each SNP surrounding rs9939609, we show –log10 (P value) for the additive model in the Old Order Amish (OOA). B, The LD (r 2) of FTO in OOA white subjects. C, The LD (r 2) of FTO in the HapMap (http://www.hapmap.org) genotype of white individuals. The association of rs9939609 with BMI was first reported in European white individuals1 and subsequently in French white individuals2; rs9930506 was the SNP most highly associated with BMI in a Sardinian population3; rs8050136 was associated with type 2 diabetes mellitus (T2DM) in European white subjects.11-13 Zeggini et al13 later found that the association disappeared after adjustment for BMI. In an independent sample of 419 OOA subjects (of whom 124 had T2DM), rs8050136 was associated with T2DM (P = .007), and this association was abolished after adjustment for BMI (P = .53) (data not shown). rs9939609, rs9930506, and rs8050136 all reside in a cluster of SNPs in high LD in HapMap genotypes of white individuals. Black squares indicate r 2>0.80; gray squares, 0.10 ≥r2≤0.80; white squares, r2<0.10. kb Indicates kilobases.

LLM interpretation

This figure consists of a bar chart and two linkage disequilibrium (LD) heatmaps. Panel A is a bar chart showing the $-\log_{10}(P\text{ value})$ for the association of various SNPs with BMI in the Old Order Amish (OOA) population, with the highest values observed for rs9939609 and rs14771796. Panels B and C are triangular LD plots for OOA white subjects and HapMap white individuals, respectively, where the intensity of the gray shading represents the $r^2$ value (black for $r^2 > 0.80$, gray for $0.10 \le r^2 \le 0.80$, and white for $r^2 < 0.10$).

Figure 2

Mean body mass index (BMI), calculated as weight in kilograms divided by height in meters squared, in high and low physical activity groups according to FTO single-nucleotide polymorphism genotypes for rs1861868 (A) and rs1477196 (B). High activity was defined as age-, age2-, and sex-specific residuals greater than 0, and low activity was defined by residuals less than 0. Interaction P values: rs1861868, P = .01; rs1477196, P = .004.

LLM interpretation

This figure consists of four bar charts showing mean BMI across different genotypes for two FTO single-nucleotide polymorphisms: rs1861868 (A) and rs1477196 (B). For both SNPs, a downward trend in mean BMI is observed across genotypes in the left-hand panels (associated with low physical activity), while BMI remains relatively stable across genotypes in the right-hand panels (associated with high physical activity). The y-axis represents Mean BMI and the x-axis represents Genotype; p-values are provided for each group, indicating statistical significance ($P < .001$ and $P = .001$) for the low activity groups and non-significance ($P = .29$ and $P = .38$) for the high activity groups.

Figure 3

Predicted body mass index (BMI), calculated as weight in kilograms divided by height in meters squared, as a function of residualized age- and sex-specific ln-transformed physical activity accelerometer counts according to FTO rs1861868 genotypes. On the left side of the plot (low physical activity), BMI levels are strikingly dissimilar between rs1861868 genotypes. In contrast, on the right side of the plot, similar BMI levels can be seen across genotypes, particularly in subjects with very high levels of physical activity.

LLM interpretation

This line graph shows predicted BMI as a function of residualized physical activity for three FTO rs1861868 genotypes: AA, GA, and GG. The AA genotype (black line) shows a steep negative correlation, with the highest BMI at low activity levels and the lowest BMI at high activity levels. In contrast, the GA (dark grey) and GG (light grey) genotypes exhibit much flatter slopes, with BMI remaining relatively stable across the range of physical activity.

#	Section	Preview
20	COMMENT	association of rs1477196 with obesity (P=6.0×10−9 based on an additive model) has previously been…
21	COMMENT	A primary finding of this study is that of a gene×environment interaction between variants in the…
22	COMMENT	diabetes mellitus, and much higher than the same group’s estimate for rs9939609 in UK type 2…
23	COMMENT	Recent work4,17 has demonstrated that FTO codes for a protein expressed in the hypothalamus, the…
24	COMMENT	Activity levels in the “high-activity” stratum were approximately 900 kcal higher than in the…
25	COMMENT	In conclusion, we have replicated the associations of common SNPs in the FTO gene with increased BMI…

Citation	PMID	DOI	Status
Almasy, L et al., Am J Hum Genet, 1998, Multipoint quantitative-trait linkage analysis in general pedigrees	9545414	10.1086/301844	Cited
Andreasen, CH et al., Diabetes, 2008, Low physical activity accentuates the association of the FTO rs9939609 polymorphism on body fat accumulation	17942823	10.2337/db07-0910	Cited
Barrett, JC et al., Bioinformatics, 2005, Haploview: analysis and visualization of LD and haplotype maps	15297300	10.1093/bioinformatics/bth457	Cited
Dina, C et al., Nat Genet, 2007, Variation in FTO contributes to childhood obesity and severe adult obesity	17496892	10.1038/ng2048	Cited
Fletcher, GF et al., Circulation, 2001, Exercise standards for testing and training: a statement for healthcare professionals from the American Heart Association	11581152	10.1161/hc3901.095960	Cited
Frayling, TM et al., Science, 2007, A common variant in the FTO gene is associated with body mass index and predisposes to childhood and adult obesity	17434869	10.1126/science.1141634	Cited
Gerken, T et al., Science, 2007, The obesity-associated FTO gene encodes a 2-oxoglutarate dependent nucleic acid demethylase	17991826	10.1126/science.1151710	Cited
Heil, DP, Res Q Exerc Sport, 2006, Predicting activity energy expenditure using the Actical activity monitor	16646354	10.1080/02701367.2006.10599333	Cited
Lake, SL et al., Hum Hered, 2003, Estimation and tests of haplotype-environment interaction when linkage phase is ambiguous	12890927	10.1159/000071811	Cited
Mitchell, BD et al., Am Heart J, 2008, The genetic response to short-term interventions affecting cardiovascular function: rationale and design of the Heredity and Phenotype Intervention (HAPI) Heart Study	18440328	10.1016/j.ahj.2008.01.019	Cited
Nature, 2007, Genome-wide association study of 14,000 cases of seven common diseases and 3,000 shared controls	17554300	10.1038/nature05911	Cited
Pérusse, L et al., Obes Res, 2000, Familial aggregation of amount and distribution of subcutaneous fat and their responses to exercise training in the HERITAGE family study	10757200	10.1038/oby.2000.15	Cited
Schaid, DJ et al., Am J Hum Genet, 2002, Score tests for association between traits and haplotypes when linkage phase is ambiguous	11791212	10.1086/338688	Cited
Schoeller, DA et al., Am J Clin Nutr, 1997, How much physical activity is needed to minimize weight gain in previously obese women?	9280172	10.1093/ajcn/66.3.551	Cited
Scott, LJ et al., Science, 2007, A genome-wide association study of type 2 diabetes in Finns detects multiple susceptibility variants	17463248	10.1126/science.1142382	Cited
Scuteri, A et al., PLoS Genet, 2007, Genome-wide association scan shows genetic variants in the FTO gene are associated with obesity-related traits	17658951	10.1371/journal.pgen.0030115	Cited
Westerterp, KR, Int J Obes Relat Metab Disord, 1999, Physical activity assessment with accelerometers	10368002	10.1038/sj.ijo.0800883	Cited
Zeggini, E et al., Science, 2007, Replication of genome-wide association signals in UK samples reveals risk loci for type 2 diabetes	17463249	10.1126/science.1142364	Cited

In this knowledge base

Title	Year	PMID
On the association of common and rare genetic variation influencing body mass index: a combined SNP and CNV analysis.	2014	24884913
The bigger picture of FTO: the first GWAS-identified obesity gene.	2014	24247219
Genetic risk sum score comprised of common polygenic variation is associated with body mass index.	2011	21104096
Physical activity attenuates the influence of FTO variants on obesity risk: a meta-analysis of 218,166 adults and 19,268 children.	2011	22069379
Genetic sensitivity to the environment: the case of the serotonin transporter gene and its implications for studying complex diseases and traits.	2010	20231323

External

Title	Authors	Journal	Year	Link
Discovery and characterization of gene-by-environment and epistatic genetic effects in a vertebrate model.	Welz B et al.	—	2026	→
The geometry of G × E: How scaling and endogenous treatment effects shape interaction direction.	Sadowski M et al.	—	2026	→
A Systematic Review of the Effect of Gene-Lifestyle Interactions on Metabolic-Disease-Related Traits in South Asian Populations.	Bineid MM et al.	—	2025	→
Discovery and characterisation of gene by environment and epistatic genetic effects in a vertebrate model	Welz B et al.	—	2025	—
Nutrigenomics of Obesity: Integrating Genomics, Epigenetics, and Diet-Microbiome Interactions for Precision Nutrition.	Farzand A et al.	—	2025	→
Risk factors affecting polygenic score performance across diverse cohorts.	Hui D et al.	—	2025	→
Comprehensive Genetic Analysis of Associations between Obesity-Related Parameters and Physical Activity: A Scoping Review.	Leońska-Duniec A	—	2024	→
Gene-environment interactions within a precision environmental health framework.	Motsinger-Reif AA et al.	—	2024	→
Lifestyle factors, genetic susceptibility to obesity and their interactions on coronary artery disease risk: A cohort study in the UK Biobank.	Choi J et al.	—	2024	→
Characterization of Behavioral Phenotypes in Heterozygous DAT Rat Based on Pedigree.	Zanfino G et al.	—	2023	→
Differential Association of FTO Gene variants and Haplotypes with the Susceptibility to Polycystic Ovary Syndrome According To Obesity in Women with PCOS.	Almawi WY et al.	—	2023	→
Longitudinal effects of FTO gene polymorphism on body composition, cardiorespiratory fitness, physical activity, inflammatory markers, and cardiovascular risk in children and adolescents. "The UP & DOWN study".	Mier-Mota J et al.	—	2023	→
Minor alleles in the <i>FTO</i> SNPs contributed to the increased risk of obesity among Korean adults: meta-analysis from nationwide big data-based studies.	Kim OY et al.	—	2023	→
FTO and Anthropometrics: The Role of Modifiable Factors.	Evans C et al.	—	2022	→
<i>FTO</i> Common Obesity SNPs Interact with Actionable Environmental Factors: Physical Activity, Sugar-Sweetened Beverages and Wine Consumption.	Chermon D et al.	—	2022	→
Skeletal muscle as a treatment target for older adults with diabetes mellitus: The importance of a multimodal intervention based on functional category.	Omura T et al.	—	2022	→
The sex-specific influence of <i>FTO</i> genotype on exercise intervention for weight loss in adult with obesity.	Wang W et al.	—	2022	→
Unraveling the Complex Interactions between the Fat Mass and Obesity-Associated (FTO) Gene, Lifestyle, and Cancer.	Abdollahi S et al.	—	2022	→
ANNORE: genetic fine-mapping with functional annotation.	Fisher V et al.	—	2021	→
Association of MACROD2 gene variants with obesity and physical activity in a Korean population.	Kim HR et al.	—	2021	→
Changes in VGF and C3aR1 gene expression in human adipose tissue in obesity.	Koc G et al.	—	2021	→
Evidence for shared genetics between physical activity, sedentary behaviour and adiposity-related traits.	Schnurr TM et al.	—	2021	→
Search for Possible Associations of <i>FTO</i> Gene Polymorphic Variants with Metabolic Syndrome, Obesity and Body Mass Index in Schizophrenia Patients.	Boiko AS et al.	—	2021	→
Ancestry specific associations of FTO gene variant and metabolic syndrome: A longitudinal ARIC study.	Hardy DS et al.	—	2020	→
Diet Quality Is Associated with Cardiometabolic Outcomes in Survivors of Childhood Leukemia.	Bérard S et al.	—	2020	→
Genomic resources for dissecting the role of non-protein coding variation in gene-environment interactions.	Levings D et al.	—	2020	→
Long-term exposure to particulate air pollution and brachial artery flow-mediated dilation in the Old Order Amish.	Salimi S et al.	—	2020	→
Protective Association of Single Nucleotide Polymorphisms rs1861868-FTO and rs7975232-VDR and Obesity in Saudi Females.	Al Asoom LI et al.	—	2020	→
Relationship of <i>FTO</i> gene variations with NAFLD risk in Chinese men.	Chen X et al.	—	2020	→
Seasonal affective disorder and seasonal changes in weight and sleep duration are inversely associated with plasma adiponectin levels.	Akram F et al.	—	2020	→
Increased usual physical activity is associated with a blunting of the triglyceride response to a high-fat meal.	Mitchell BD et al.	—	2019	→
Interaction between genes involved in energy intake regulation and diet in obesity.	Crovesy L et al.	—	2019	→
Physical activity and the association between the FTO rs9939609 polymorphism and obesity in Portuguese children aged 3 to 11 years.	Manco L et al.	—	2019	→
Physical Activity Might Reduce the Adverse Impacts of the FTO Gene Variant rs3751812 on the Body Mass Index of Adults in Taiwan.	Liaw YC et al.	—	2019	→
The Combination of Physical Activity and Sedentary Behaviors Modifies the Genetic Predisposition to Obesity.	Celis-Morales CA et al.	—	2019	→
Assessing effect of interaction between the <i>FTO</i> A/T polymorphism (rs9939609) and physical activity on obesity-related traits.	Leońska-Duniec A et al.	—	2018	→
Association between gene polymorphisms and obesity and physical fitness in Korean children.	Kim HJ et al.	—	2018	→
FTO Gene Affects Obesity and Breast Cancer Through Similar Mechanisms: A New Insight into the Molecular Therapeutic Targets.	Akbari ME et al.	—	2018	→
Gene-lifestyle interplay in type 2 diabetes.	Franks PW et al.	—	2018	→
Genetic and environmental (physical fitness and sedentary activity) interaction effects on cardiometabolic risk factors in Mexican American children and adolescents.	Arya R et al.	—	2018	→
Increasing variability of body mass and health correlates in Swiss conscripts, a possible role of relaxed natural selection?	Staub K et al.	—	2018	→
Physical activity modifies the FTO effect on body mass index change in Japanese adolescents.	Shinozaki K et al.	—	2018	→
Assessing gene-environment interaction effects of FTO, MC4R and lifestyle factors on obesity using an extreme phenotype sampling design: Results from the HUNT study.	Bjørnland T et al.	—	2017	→
Association of Fat Mass and Obesity-associated Gene Variant with Lifestyle Factors and Body Fat in Indian Children.	Parthasarthy LS et al.	—	2017	→
Eating behavior disinhibition predicts insulin resistance in the Old Order Amish.	Schwab S et al.	—	2017	→
FTO genotype and weight status among preadolescents: Assessing the mediating effects of obesogenic appetitive traits.	Emond JA et al.	—	2017	→
Holy Smokes-An Interaction!	Mitchell BD	—	2017	→
Lifestyle and precision diabetes medicine: will genomics help optimise the prediction, prevention and treatment of type 2 diabetes through lifestyle therapy?	Franks PW et al.	—	2017	→
Spontaneous Physical Activity Defends Against Obesity.	Kotz CM et al.	—	2017	→
The heritable basis of gene-environment interactions in cardiometabolic traits.	Poveda A et al.	—	2017	→
Association of rs9939609 Polymorphism with Metabolic Parameters and FTO Risk Haplotype Among Tunisian Metabolic Syndrome.	Elouej S et al.	—	2016	→
Changes in Physical Activity Following a Genetic-Based Internet-Delivered Personalized Intervention: Randomized Controlled Trial (Food4Me).	Marsaux CF et al.	—	2016	→
Effects of MC4R, FTO, and NMB gene variants to obesity, physical activity, and eating behavior phenotypes.	Kirac D et al.	—	2016	→
Genetic variants influencing effectiveness of exercise training programmes in obesity - an overview of human studies.	Leońska-Duniec A et al.	—	2016	→
Physical activity and genetic predisposition to obesity in a multiethnic longitudinal study.	Reddon H et al.	—	2016	→
Physical activity attenuates genetic effects on BMI: Results from a study of Chinese adult twins.	Wang B et al.	—	2016	→
Physical activity attenuates the effect of the FTO genotype on obesity traits in European adults: The Food4Me study.	Celis-Morales C et al.	—	2016	→
Putting the Genome in Context: Gene-Environment Interactions in Type 2 Diabetes.	Franks PW et al.	—	2016	→
Review of studies on the fat mass and obesity-associated (FTO) gene interactions with environmental factors affecting on obesity and its impact on lifestyle interventions.	Kalantari N et al.	—	2016	→
The importance of gene-environment interactions in human obesity.	Reddon H et al.	—	2016	→
The Next Step Forward Is to Take a Step Back.	McArdle PF	—	2016	→
Association of FTO Mutations with Risk and Survival of Breast Cancer in a Chinese Population.	Zeng X et al.	—	2015	→
Associations Between Fast-Food Consumption and Body Mass Index: A Cross-Sectional Study in Adult Twins.	Cohen-Cline H et al.	—	2015	→
Behavioral and Environmental Modification of the Genetic Influence on Body Mass Index: A Twin Study.	Horn EE et al.	—	2015	→
Current review of genetics of human obesity: from molecular mechanisms to an evolutionary perspective.	Albuquerque D et al.	—	2015	→
FTO genotype and aging: pleiotropic longitudinal effects on adiposity, brain function, impulsivity and diet.	Chuang YF et al.	—	2015	→
Influence of physical activity on the association between the FTO variant rs9939609 and adiposity in young adults.	Muc M et al.	—	2015	→
Lifetime Socioeconomic Status, Historical Context, and Genetic Inheritance in Shaping Body Mass in Middle and Late Adulthood.	Liu H et al.	—	2015	→
Pediatric obesity. An introduction.	Yanovski JA	—	2015	→
Seasonality shows evidence for polygenic architecture and genetic correlation with schizophrenia and bipolar disorder.	Byrne EM et al.	—	2015	→
The 'Fat Mass and Obesity Related' (FTO) gene: Mechanisms of Impact on Obesity and Energy Balance.	Speakman JR	—	2015	→
The Genome-Wide Influence on Human BMI Depends on Physical Activity, Life Course, and Historical Period.	Guo G et al.	—	2015	→
Associations of genetic risk score with obesity and related traits and the modifying effect of physical activity in a Chinese Han population.	Zhu J et al.	—	2014	→
Chasing Mendel: five questions for personalized medicine.	Joyner MJ et al.	—	2014	→
Fat-mass and obesity-associated gene polymorphisms and weight gain after risperidone treatment in first episode schizophrenia.	Song X et al.	—	2014	→
Introduction to personalized medicine in diabetes mellitus.	Glauber HS et al.	—	2014	→
Moderate to vigorous physical activity interactions with genetic variants and body mass index in a large US ethnically diverse cohort.	Richardson AS et al.	—	2014	→
Modification of genetic influences on adiposity between 36 and 63 years of age by physical activity and smoking in the 1946 British Birth Cohort Study.	Johnson W et al.	—	2014	→
On the association of common and rare genetic variation influencing body mass index: a combined SNP and CNV analysis.	Peterson RE et al.	—	2014	→
Replication of 6 obesity genes in a meta-analysis of genome-wide association studies from diverse ancestries.	Tan LJ et al.	—	2014	→
Rethinking animal models and human obesity.	Joyner MJ	—	2014	→
The bigger picture of FTO: the first GWAS-identified obesity gene.	Loos RJ et al.	—	2014	→
The FTO gene polymorphism (rs9939609) is associated with metabolic syndrome in morbidly obese subjects from southern Italy.	Liguori R et al.	—	2014	→
Association of FTO polymorphisms with obesity and obesity-related outcomes in Portuguese children.	Albuquerque D et al.	—	2013	→
Association study between the polymorphisms of the fat mass- and obesity-associated gene with the risk of intervertebral disc degeneration in the Han Chinese population.	Wu Z et al.	—	2013	→
Clinical and genetic predictors of weight gain in patients diagnosed with breast cancer.	Reddy SM et al.	—	2013	→
Gene-environment and gene-treatment interactions in type 2 diabetes: progress, pitfalls, and prospects.	Franks PW et al.	—	2013	→
Gene × environment interactions in obesity: the state of the evidence.	Ahmad S et al.	—	2013	→
Gene × physical activity interactions in obesity: combined analysis of 111,421 individuals of European ancestry.	Ahmad S et al.	—	2013	→
Impact of obesity-related genes in Spanish population.	Martínez-García F et al.	—	2013	→
Physiology and redundancy.	Joyner MJ	—	2013	→
Polymorphisms in FTO and near TMEM18 associate with type 2 diabetes and predispose to younger age at diagnosis of diabetes.	Kalnina I et al.	—	2013	→
Replication of genetic effects of MC4R polymorphisms on body mass index in a Korean population.	Sull JW et al.	—	2013	→
Rethinking our public health genetics research paradigm.	El-Sayed AM et al.	—	2013	→
Seasonality of mood and behavior in the Old Order Amish.	Raheja UK et al.	—	2013	→
The beneficial effects of early short-term exercise in the offspring of obese mothers are accompanied by alterations in the hypothalamic gene expression of appetite regulators and FTO (fat mass and obesity associated) gene.	Caruso V et al.	—	2013	→
The influence of obesity-related single nucleotide polymorphisms on BMI across the life course: the PAGE study.	Graff M et al.	—	2013	→
The positive association of obesity variants with adulthood adiposity strengthens over an 80-year period: a gene-by-birth year interaction.	Demerath EW et al.	—	2013	→
Variation in the heritability of body mass index based on diverse twin studies: a systematic review.	Min J et al.	—	2013	→
Variations in the obesity genes FTO, TMEM18 and NRXN3 influence the vulnerability of children to weight gain induced by short sleep duration.	Prats-Puig A et al.	—	2013	→
Association between FTO variant and change in body weight and its interaction with dietary factors: the DiOGenes study.	Vimaleswaran KS et al.	—	2012	→
Association of the fat mass and obesity-associated (FTO) gene variant (rs9939609) with dietary intake in the Finnish Diabetes Prevention Study.	Lappalainen T et al.	—	2012	→
Attenuated inheritance of body weight by running in monozygotic twins.	Williams PT	—	2012	→
Attenuating effect of vigorous physical activity on the risk for inherited obesity: a study of 47,691 runners.	Williams PT	—	2012	→
Beyond the fourth wave of genome-wide obesity association studies.	Sandholt CH et al.	—	2012	→
Body size at birth modifies the effect of fat mass and obesity associated (FTO) rs9939609 polymorphism on adiposity in adolescents: the Healthy Lifestyle in Europe by Nutrition in Adolescence (HELENA) study.	Labayen I et al.	—	2012	→
Common genetic variants and central adiposity among Asian-Indians.	Moore SC et al.	—	2012	→
Education modulates the association of the FTO rs9939609 polymorphism with body mass index and obesity risk in the Mediterranean population.	Corella D et al.	—	2012	→
FTO genotype is associated with phenotypic variability of body mass index.	Yang J et al.	—	2012	→
Gene-exercise interactions.	Rankinen T et al.	—	2012	→
Interactions between the FTO rs9939609 polymorphism, body mass index, and lifestyle-related factors on metabolic syndrome risk.	Baik I et al.	—	2012	→
Lack of exercise is a major cause of chronic diseases.	Booth FW et al.	—	2012	→
Living the good life? Mortality and hospital utilization patterns in the Old Order Amish.	Mitchell BD et al.	—	2012	→
Physical activity and sex modulate obesity risk linked to 3111T/C gene variant of the CLOCK gene in an elderly population: the SUN Project.	Galbete C et al.	—	2012	→
Potential clinical translation of juvenile rodent inactivity models to study the onset of childhood obesity.	Roberts MD et al.	—	2012	→
Quantile-specific penetrance of genes affecting lipoproteins, adiposity and height.	Williams PT	—	2012	→
Serum uric acid and adiposity: deciphering causality using a bidirectional Mendelian randomization approach.	Lyngdoh T et al.	—	2012	→
Statistical and biological gene-lifestyle interactions of MC4R and FTO with diet and physical activity on obesity: new effects on alcohol consumption.	Corella D et al.	—	2012	→
Sugar-sweetened beverages and genetic risk of obesity.	Qi Q et al.	—	2012	→
Susceptibility variants for obesity and colorectal cancer risk: the multiethnic cohort and PAGE studies.	Lim U et al.	—	2012	→
Television watching, leisure time physical activity, and the genetic predisposition in relation to body mass index in women and men.	Qi Q et al.	—	2012	→
The complex interplay of genetic and lifestyle risk factors in type 2 diabetes: an overview.	Franks PW	—	2012	→
The impact of intronic single nucleotide polymorphisms and ethnic diversity for studies on the obesity gene FTO.	Jacobsson JA et al.	—	2012	→
A high intake of saturated fatty acids strengthens the association between the fat mass and obesity-associated gene and BMI.	Corella D et al.	—	2011	→
An obesity-related FTO variant and the risk of preeclampsia in a Finnish study population.	Klemetti M et al.	—	2011	→
Association between fat intake, physical activity and mortality depending on genetic variation in FTO.	Sonestedt E et al.	—	2011	→
Association between short sleep duration and obesity among South korean adolescents.	Park S	—	2011	→
Association between the APOA2 promoter polymorphism and body weight in Mediterranean and Asian populations: replication of a gene-saturated fat interaction.	Corella D et al.	—	2011	→
Associations of FTO and MC4R Variants with Obesity Traits in Indians and the Role of Rural/Urban Environment as a Possible Effect Modifier.	Taylor AE et al.	—	2011	→
Developments in obesity genetics in the era of genome-wide association studies.	Day FR et al.	—	2011	→
Do genetic variations alter the effects of exercise training on cardiovascular disease and can we identify the candidate variants now or in the future?	Hagberg JM	—	2011	→
Dose-response relationship between walking and the attenuation of inherited weight.	Williams PT	—	2011	→
Etiology, Treatment and Prevention of Obesity in Childhood and Adolescence: A Decade in Review.	Spruijt-Metz D	—	2011	→
Evidences on three relevant obesogenes: MC4R, FTO and PPARγ. Approaches for personalized nutrition.	Razquin C et al.	—	2011	→
Gene × environment interactions in type 2 diabetes.	Franks PW	—	2011	→
Generating large-scale longitudinal data resources for aging research.	Gallacher J et al.	—	2011	→
Genetic Effects of FTO and MC4R Polymorphisms on Body Mass in Constitutional Types.	Cha S et al.	—	2011	→
Genetic risk sum score comprised of common polygenic variation is associated with body mass index.	Peterson RE et al.	—	2011	→
Habitual sleep/wake patterns in the Old Order Amish: heritability and association with non-genetic factors.	Evans DS et al.	—	2011	→
Increased genetic variance of BMI with a higher prevalence of obesity.	Rokholm B et al.	—	2011	→
Increasing genetic variance of body mass index during the Swedish obesity epidemic.	Rokholm B et al.	—	2011	→
Influence of physical inactivity on associations between single nucleotide polymorphisms and genetic predisposition to childhood obesity.	Xi B et al.	—	2011	→
Interaction of FTO and physical activity level on adiposity in African-American and European-American adults: the ARIC study.	Demerath EW et al.	—	2011	→
Lifestyle interaction with fat mass and obesity-associated (FTO) genotype and risk of obesity in apparently healthy U.S. women.	Ahmad T et al.	—	2011	→
Nutrigenetics and nutrigenomics: viewpoints on the current status and applications in nutrition research and practice.	Fenech M et al.	—	2011	→
Physical activity attenuates the influence of FTO variants on obesity risk: a meta-analysis of 218,166 adults and 19,268 children.	Kilpeläinen TO et al.	—	2011	→
Progress and promise of genome-wide association studies for human complex trait genetics.	Stranger BE et al.	—	2011	→
rs9939609 in the FTO gene is associated with obesity but not with several biochemical parameters in Sardinian obese children.	Zavattari P et al.	—	2011	→
Weight loss and low-intensity exercise for the treatment of metabolic syndrome in obese postmenopausal women.	Joseph LJ et al.	—	2011	→
A 3-year intervention with a Mediterranean diet modified the association between the rs9939609 gene variant in FTO and body weight changes.	Razquin C et al.	—	2010	→
A commonly carried allele of the obesity-related FTO gene is associated with reduced brain volume in the healthy elderly.	Ho AJ et al.	—	2010	→
Advances in exercise, fitness, and performance genomics.	Rankinen T et al.	—	2010	→
Association of FTO variants with BMI and fat mass in the self-contained population of Sorbs in Germany.	Tönjes A et al.	—	2010	→
Association of the common fat mass and obesity associated (FTO) gene polymorphism with obesity in a Japanese population.	Karasawa S et al.	—	2010	→
A unique genetic defect on chromosome 3 is responsible for juvenile obesity in the Berlin Fat Mouse.	Neuschl C et al.	—	2010	→
Effect of FTO, SH2B1, LEP, and LEPR polymorphisms on weight gain associated with antipsychotic treatment.	Perez-Iglesias R et al.	—	2010	→
Effects of common FTO gene variants associated with BMI on dietary intake and physical activity in Koreans.	Lee HJ et al.	—	2010	→
From nature versus nurture, via nature and nurture, to gene x environment interaction in mental disorders.	Wermter AK et al.	—	2010	→
FTO genotype and adiposity in children: physical activity levels influence the effect of the risk genotype in adolescent males.	Scott RA et al.	—	2010	→
FTO genotype and the weight loss benefits of moderate intensity exercise.	Mitchell JA et al.	—	2010	→
FTO genotype is associated with exercise training-induced changes in body composition.	Rankinen T et al.	—	2010	→
Genetic effects on postprandial variations of inflammatory markers in healthy individuals.	Cheng YC et al.	—	2010	→
Genetic sensitivity to the environment: the case of the serotonin transporter gene and its implications for studying complex diseases and traits.	Caspi A et al.	—	2010	→
Genetic susceptibility to obesity and related traits in childhood and adolescence: influence of loci identified by genome-wide association studies.	den Hoed M et al.	—	2010	→
Genomic insights into early-onset obesity.	Choquet H et al.	—	2010	→
Influence of common variants near INSIG2, in FTO, and near MC4R genes on overweight and the metabolic profile in adolescence: the TRAILS (TRacking Adolescents' Individual Lives Survey) Study.	Liem ET et al.	—	2010	→
Life-course analysis of a fat mass and obesity-associated (FTO) gene variant and body mass index in the Northern Finland Birth Cohort 1966 using structural equation modeling.	Kaakinen M et al.	—	2010	→
Life course variations in the associations between FTO and MC4R gene variants and body size.	Hardy R et al.	—	2010	→
Physical activity attenuates the genetic predisposition to obesity in 20,000 men and women from EPIC-Norfolk prospective population study.	Li S et al.	—	2010	→
Progress in the genetics of common obesity and type 2 diabetes.	Vimaleswaran KS et al.	—	2010	→
Survivors of acute lymphoblastic leukemia and body mass changes.	Skoczen S et al.	—	2010	→
The fat-mass and obesity-associated (FTO) gene, physical activity, and risk of incident cardiovascular events in white women.	Ahmad T et al.	—	2010	→
The genetic and environmental influences on childhood obesity: a systematic review of twin and adoption studies.	Silventoinen K et al.	—	2010	→
The genetics of obesity: FTO leads the way.	Fawcett KA et al.	—	2010	→
A new model of care.	Rakel D	—	2009	→
Assessing the effect of interaction between an FTO variant (rs9939609) and physical activity on obesity in 15,925 Swedish and 2,511 Finnish adults.	Jonsson A et al.	—	2009	→
Childhood obesity: are genetic differences involved?	Bouchard C	—	2009	→
Combined effects of MC4R and FTO common genetic variants on obesity in European general populations.	Cauchi S et al.	—	2009	→
Effects of the FTO gene on lifestyle intervention studies in children.	Rendo T et al.	—	2009	→
Fat and carbohydrate intake modify the association between genetic variation in the FTO genotype and obesity.	Sonestedt E et al.	—	2009	→
Gene-environment interactions and obesity--further aspects of genomewide association studies.	Andreasen CH et al.	—	2009	→
Macronutrient-specific effect of FTO rs9939609 in response to a 10-week randomized hypo-energetic diet among obese Europeans.	Grau K et al.	—	2009	→
Modification effects of physical activity and protein intake on heritability of body size and composition.	Silventoinen K et al.	—	2009	→
Physical activity attenuates the body mass index-increasing influence of genetic variation in the FTO gene.	Vimaleswaran KS et al.	—	2009	→
Prognostic significance of FTO genotype in the development of obesity in Japanese: the J-SHIPP study.	Tabara Y et al.	—	2009	→
Recent progress in the genetics of common obesity.	Loos RJ	—	2009	→
The common FTO variant rs9939609 is not associated with BMI in a longitudinal study on a cohort of Swedish men born 1920-1924.	Jacobsson JA et al.	—	2009	→
The common variant in the FTO gene did not modify the effect of lifestyle changes on body weight: the Finnish Diabetes Prevention Study.	Lappalainen TJ et al.	—	2009	→
The FTO gene rs9939609 obesity-risk allele and loss of control over eating.	Tanofsky-Kraff M et al.	—	2009	→
Variants of ESR1, APOE, LPL and IL-6 loci in young healthy subjects: association with lipid status and obesity.	Sertic J et al.	—	2009	→
Assessing gene-treatment interactions at the FTO and INSIG2 loci on obesity-related traits in the Diabetes Prevention Program.	Franks PW et al.	—	2008	→
Obesity genes and gene-environment-behavior interactions: recommendations for a way forward.	Shuldiner AR	—	2008	→
Studying gene-behavior interactions: summary of recommendations.	Bouchard C et al.	—	2008	→