about
A gain-of-function mutation in adenylate cyclase 3 protects mice from diet-induced obesityGut microbioma population: an indicator really sensible to any change in age, diet, metabolic syndrome, and life-style.Obesity and diabetes: from genetics to epigenetics.Contribution of 32 GWAS-identified common variants to severe obesity in European adults referred for bariatric surgeryThe pathogenesis of obesity from a genomic and systems biology perspective.Rs12970134 near MC4R is associated with appetite and beverage intake in overweight and obese children: A family-based association study in Chinese population.Genetic epidemiology: the potential benefits and challenges of using genetic information to improve human health.New insight into adiponectin role in obesity and obesity-related diseases.Current review of genetics of human obesity: from molecular mechanisms to an evolutionary perspective.Evaluation of 41 candidate gene variants for obesity in the EPIC-Potsdam cohort by multi-locus stepwise regression.Influences of gestational obesity on associations between genotypes and gene expression levels in offspring following maternal gastrointestinal bypass surgery for obesity.Associations of genetic risk score with obesity and related traits and the modifying effect of physical activity in a Chinese Han population.An epigenetic map of age-associated autosomal loci in northern European families at high risk for the metabolic syndromeCandy consumption in childhood is not predictive of weight, adiposity measures or cardiovascular risk factors in young adults: the Bogalusa Heart Study.Interactions between Gut Microbiota, Host Genetics and Diet Modulate the Predisposition to Obesity and Metabolic SyndromeA Common Variant of NGEF Is Associated with Abdominal Visceral Fat in Korean MenThe 482Ser of PPARGC1A and 12Pro of PPARG2 Alleles Are Associated with Reduction of Metabolic Risk Factors Even Obesity in a Mexican-Mestizo PopulationHIF3A DNA Methylation Is Associated with Childhood Obesity and ALT.Multiethnic genome-wide association study identifies ethnic-specific associations with body mass index in Hispanics and African AmericansWhole genome sequence analysis of the TALLYHO/Jng mouse.A compendium of human genes regulating feeding behavior and body weight, its functional characterization and identification of GWAS genes involved in brain-specific PPI networkLong-Term High Fat Diet Has a Profound Effect on Body Weight, Hormone Levels, and Estrous Cycle in Mice.Fried food consumption, genetic risk, and body mass index: gene-diet interaction analysis in three US cohort studies.Personalized nutrition and obesity.Associations of LEP, CRH, ICAM-1, and LINE-1 methylation, measured in saliva, with waist circumference, body mass index, and percent body fat in mid-childhood.Genetic Testing for Obesity: Implications and Challenges.[Evolution of overweight and obesity into adulthood, Pelotas, Rio Grande do Sul State, Brazil, 1982-2012].Genetic and epigenetic associations to obesity-related appetite phenotypes among African-American children.Is genetic testing of value in predicting and treating obesity?Adiponectin, Retinoic Acid Receptor Responder 2, and Peroxisome Proliferator-Activated Receptor-γ Coativator-1 Genes and the Risk for ObesityThe gut microbiota and obesity: from correlation to causality.Differential methylation in visceral adipose tissue of obese men discordant for metabolic disturbances.GNB3 overexpression causes obesity and metabolic syndrome.Systems biology of personalized nutrition.Parental programming: how can we improve study design to discern the molecular mechanisms?The Influence of Body Mass Index on Overall Survival Following Surgical Resection of Non-Small Cell Lung Cancer.Association of polymorphisms in 5-HTT (SLC6A4) and MAOA genes with measures of obesity in young adults of Portuguese origin.Association of body mass index-related single nucleotide polymorphisms with psychiatric disease and memory performance in a Japanese population.High cortisol response to adrenocorticotrophic hormone identifies ewes with reduced melanocortin signalling and increased propensity to obesity.Impact of FTO SNPs rs9930506 and rs9939609 in Prostate Cancer Severity in a Cohort of Puerto Rican Men.
P2860
Q27335317-DFF956B1-48E5-493C-A35C-D79927D31713Q30364423-BCF31E00-0B93-4C13-BCE7-04BCC3416CC3Q30367134-CF00A925-FD73-4E1B-93DA-474033438190Q31126427-D0A6E3FF-F28A-4C1E-B5B9-DCEBAC80B5D2Q33653070-1EEEEF76-2EA6-4BFB-920E-62FB8DF4360BQ33693925-D5BF8827-881A-427E-9ACC-76E463630DF0Q33698750-DFBF3877-3779-4953-A9FA-E12E3D9F0735Q33943727-C8B788BF-D33C-4196-B1FF-4C2E6C25CBA9Q34466165-F6B739D7-7227-41DF-98DE-5BC71E99316FQ34851953-C9E35BE2-31C3-45D4-98AC-FDF8EEFFB314Q34988941-2F322C09-72A5-4F52-8220-6F5F7B04E528Q35120190-03AA3A4B-964D-40E7-B891-BF202C1CAE59Q35213260-C34608F2-3986-4E83-9CAC-2B17B2F70A97Q35592838-E24F553B-1A49-493C-9A0F-89833673FBA5Q35753188-FDD4339D-3F79-4F28-A967-C7F57F1A1CC1Q35764725-F719A8AD-F11F-4D37-B715-5DA50F04B188Q35818043-E78444A3-02C3-4EC1-A82C-84B6B26DA37DQ35881871-2347FB85-9370-42DE-821E-46BBB6EC0373Q36050905-0742C1B4-71F1-42A3-8977-D4ED69A5279BQ36190115-C7F54F83-AC24-452D-A189-D326B421ABF5Q36255013-D6D2D5E2-0507-45E6-B4B8-B0EA644D196DQ37029423-60CCE859-4211-4392-9528-BC19A3CF1DDFQ37646915-46BBD959-6056-498C-97D7-AE46FFDA9310Q37671528-0033A503-E259-4B07-BE2D-24639519A056Q37728581-E580A69C-7EEC-45E9-88C2-B3FB5D420196Q39148939-067CAD7C-096B-4D5F-9018-7E90D1649C82Q41117665-CF592209-FDB1-48C1-9515-7F549C40B053Q41206753-4A515CF9-65E9-436A-8EFA-923D993E561BQ41391916-FC9F81EF-DA7C-44A7-A0D2-E93C2B13EB80Q41691899-DA87CA8D-4131-4FA7-BF58-9882E20F2E1BQ44559588-43E2A9A7-8199-4D27-9D82-4CAF5E132706Q44831942-85106739-5FE2-482F-8D09-E2649A724204Q45074822-0E485D68-E8E5-4C86-B7FE-23E7B02E50EFQ46093623-87CD80AC-3DBA-409E-9DB9-9BCB6950B966Q46496814-33B87942-D801-4C00-9C18-8E7DD96E546AQ46880522-B9AB8552-6748-4D19-B2AB-A082D17BF631Q47351284-D21B4759-F1B3-4ADF-83F4-D75364B1FD5AQ47859658-146C8F7B-8E1A-434A-A986-19E6D98087BCQ48485373-C1FB7276-0DD8-4CAF-BC32-7982E9FA4398Q49235319-2449A51C-A2CE-499C-BE5A-54EAC7A4BADF
P2860
description
article
@en
im April 2013 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2013
@uk
ലേഖനം
@ml
name
The genetics of human obesity
@en
The genetics of human obesity
@nl
type
label
The genetics of human obesity
@en
The genetics of human obesity
@nl
prefLabel
The genetics of human obesity
@en
The genetics of human obesity
@nl
P2860
P356
P1476
The genetics of human obesity
@en
P2093
Qianghua Xia
P2860
P304
P356
10.1111/NYAS.12020
P407
P5008
P577
2013-01-29T00:00:00Z