Genetic variation at CHRNA5-CHRNA3-CHRNB4 interacts with smoking status to influence body mass index
暂无分享,去创建一个
Shah Ebrahim | Debbie A Lawlor | Vincent Mooser | Peter H Whincup | Richard W Morris | Sandosh Padmanabhan | George Davey Smith | Marcus Munafò | Graham Watt | Paul C. D. Johnson | Peter Vollenweider | Susan M Ring | Naveed Sattar | Barbara J Jefferis | Lavinia Paternoster | D. Lawlor | S. Ring | T. Frayling | R. Freathy | A. Hattersley | A. Hingorani | M. Munafo | M. Preisig | P. Whincup | N. Sattar | G. Watt | V. Mooser | S. Ebrahim | P. Vollenweider | G. Waeber | S. Padmanabhan | T. Sørensen | G. Davey Smith | R. Morris | B. Jefferis | C. Holst | Paul C D Johnson | F. Tozzi | L. Paternoster | M. Upton | Gerard Waeber | Aroon D Hingorani | Andrew T Hattersley | Timothy M Frayling | Rachel M Freathy | Gbenga R Kazeem | Anita Hill | Claus Holst | Sofia I I Kring | Martin Preisig | Mark N Upton | Thorkild I A Sørensen | Federica Tozzi | G. Kazeem | S. Kring | A. Hill | T. Sørensen
[1] Niveen M. E. Abu-Rmeileh,et al. Contribution of Midparental BMI and Other Determinants of Obesity in Adult Offspring , 2008, Obesity.
[2] K. Livak,et al. Allelic discrimination using fluorogenic probes and the 5' nuclease assay. , 1999, Genetic analysis : biomolecular engineering.
[3] O. Pedersen,et al. Long‐term influences of body‐weight changes, independent of the attained weight, on risk of impaired glucose tolerance and Type 2 diabetes , 2005, Diabetic medicine : a journal of the British Diabetic Association.
[4] Ming D. Li,et al. Genome-wide meta-analyses identify multiple loci associated with smoking behavior , 2010, Nature Genetics.
[5] Inês Barroso,et al. Meta-analysis and imputation refines the association of 15q25 with smoking quantity , 2010, Nature Genetics.
[6] T. Hansen,et al. Genotype-Phenotype Associations in Obesity Dependent on Definition of the Obesity Phenotype , 2008, Obesity Facts.
[7] Tatiana Foroud,et al. Variants in nicotinic receptors and risk for nicotine dependence. , 2008, The American journal of psychiatry.
[8] Vincent Mooser,et al. The CoLaus study: a population-based study to investigate the epidemiology and genetic determinants of cardiovascular risk factors and metabolic syndrome , 2008, BMC cardiovascular disorders.
[9] P. Donnelly,et al. A new multipoint method for genome-wide association studies by imputation of genotypes , 2007, Nature Genetics.
[10] M. Pembrey,et al. ALSPAC--the Avon Longitudinal Study of Parents and Children. I. Study methodology. , 2001, Paediatric and perinatal epidemiology.
[11] Scott F. Saccone,et al. The CHRNA5-CHRNA3-CHRNB4 nicotinic receptor subunit gene cluster affects risk for nicotine dependence in African-Americans and in European-Americans. , 2009, Cancer research.
[12] M Walker,et al. British regional heart study. , 1984, Nursing mirror.
[13] C. Feyerabend,et al. A rapid gas‐liquid chromatographic method for the determination of cotinine and nicotine in biological fluids , 1990, The Journal of pharmacy and pharmacology.
[14] Jonathan A C Sterne,et al. METAN: Stata module for fixed and random effects meta-analysis , 2007 .
[15] William Wheeler,et al. Genome-Wide and Candidate Gene Association Study of Cigarette Smoking Behaviors , 2009, PloS one.
[16] M. Cabanac,et al. Evidence that transient nicotine lowers the body weight set point , 2002, Physiology & Behavior.
[17] P. Whincup,et al. The British Regional Heart Study 1975-2004. , 2004, International journal of epidemiology.
[18] P. Muglia,et al. α-5/α-3 nicotinic receptor subunit alleles increase risk for heavy smoking , 2008, Molecular Psychiatry.
[19] Richard Doll,et al. Mortality in relation to smoking: 22 years' observations on female British doctors. , 1980, British medical journal.
[20] C. Gieger,et al. Sequence variants at CHRNB 3 – CHRNA 6 and CYP 2 A 6 affect smoking behavior , 2010 .
[21] D. Lawlor,et al. Geographical variation in cardiovascular disease, risk factors, and their control in older women: British Women's Heart and Health Study , 2003, Journal of epidemiology and community health.
[22] P. Schnohr,et al. Independent effects of weight change and attained body weight on prevalence of arterial hypertension in obese and non-obese men. , 1989, BMJ.
[23] C. Gieger,et al. Sequence variants at CHRNB3–CHRNA6 and CYP2A6 affect smoking behavior , 2010, Nature Genetics.
[24] A. Stewart,et al. Characterizing concerns about post-cessation weight gain: results from a national survey of women smokers. , 2001, Nicotine & tobacco research : official journal of the Society for Research on Nicotine and Tobacco.
[25] Ming D. Li,et al. Nicotine, body weight and potential implications in the treatment of obesity. , 2003, Current topics in medicinal chemistry.
[26] R. Abramson,et al. Detection of specific polymerase chain reaction product by utilizing the 5'----3' exonuclease activity of Thermus aquaticus DNA polymerase. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[27] Patrick Y Lee,et al. The smoking gun: many conditions associated with tobacco exposure may be attributable to paradoxical compensatory autonomic responses to nicotine. , 2005, Medical hypotheses.
[28] J. Hughes. Motivating and helping smokers to stop smoking , 2003, Journal of general internal medicine.
[29] D. Talmage,et al. Nicotinic receptor-mediated effects on appetite and food intake. , 2002, Journal of neurobiology.
[30] Ming D. Li,et al. Association and interaction analysis of variants in CHRNA5/CHRNA3/CHRNB4 gene cluster with nicotine dependence in African and European Americans , 2009, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.
[31] Scott F. Saccone,et al. Novel genes identified in a high-density genome wide association study for nicotine dependence. , 2007, Human molecular genetics.
[32] Tariq Ahmad,et al. Meta-analysis and imputation refines the association of 15q25 with smoking quantity , 2010, Nature Genetics.
[33] H. Wit. Faculty Opinions recommendation of Alpha-5/alpha-3 nicotinic receptor subunit alleles increase risk for heavy smoking. , 2008 .
[34] Lefkos Middleton,et al. The PsyCoLaus study: methodology and characteristics of the sample of a population-based survey on psychiatric disorders and their association with genetic and cardiovascular risk factors , 2009, BMC psychiatry.
[35] M. Munafo,et al. Smoking status and body mass index: a longitudinal study. , 2009, Nicotine & tobacco research : official journal of the Society for Research on Nicotine and Tobacco.
[36] D. Lawlor,et al. Clustered Environments and Randomized Genes: A Fundamental Distinction between Conventional and Genetic Epidemiology , 2007, PLoS medicine.
[37] B. Shields,et al. The Exeter Family Study of Childhood Health (EFSOCH): study protocol and methodology. , 2006, Paediatric and perinatal epidemiology.
[38] D. Lawlor,et al. Association of birth weight with adult lung function: findings from the British Women’s Heart and Health Study and a meta-analysis , 2005, Thorax.
[39] G. Watt,et al. The Midspan studies. , 2005, International journal of epidemiology.
[40] Daniel F. Gudbjartsson,et al. A variant associated with nicotine dependence, lung cancer and peripheral arterial disease , 2008, Nature.
[41] Ming D. Li,et al. Associations of Variants in CHRNA5/A3/B4 Gene Cluster with Smoking Behaviors in a Korean Population , 2010, PloS one.
[42] George Davey Smith,et al. Mendelian Randomization for Strengthening Causal Inference in Observational Studies , 2010, Perspectives on psychological science : a journal of the Association for Psychological Science.
[43] D. Altman,et al. Measuring inconsistency in meta-analyses , 2003, BMJ : British Medical Journal.
[44] B. Spring,et al. Influences of gender and weight gain on short-term relapse to smoking in a cessation trial. , 2001, Journal of consulting and clinical psychology.