1.
DNA methylation: conducting the orchestra from exposure to phenotype?
by Leenen, Fleur A D
2016
Clinical epigenetics, Vol.8, p.92
2016
2.
Dietary supplementation of omega-3 fatty acids rescues fragile X phenotypes in Fmr1-Ko mice
by Pietropaolo, Susanna
Psychoneuroendocrinology, November 2014, Vol.49, pp.119-129
3.
Transcriptomics and in vivo tests reveal novel mechanisms underlying endocrine disruption in an ecological sentinel, Nucella lapillus
by Pascoal, Sonia
Molecular Ecology, March 2013, Vol.22(6), pp.1589-1608
4.
Leveraging gene-environment interactions and endotypes for asthma gene discovery
by Bønnelykke, Klaus
The Journal of Allergy and Clinical Immunology, March 2016, Vol.137(3), pp.667-679
5.
Measuring epigenetics as the mediator of gene/environment interactions in DOHaD
by Ong, M.-L
Journal of Developmental Origins of Health and Disease, 2015, Vol.6(1), pp.10-16
6.
Gene/environment interactions in craniosynostosis: A brief review.
by Durham, E L
Orthodontics & craniofacial research, June 2017, Vol.20 Suppl 1, pp.8-11
7.
N-Acetyltransferase-2 (NAT2) phenotype is influenced by genotype-environment interaction in Ethiopians
by Aklillu, Eleni
European Journal of Clinical Pharmacology, 2018, Vol.74(7), pp.903-911
8.
Genomics and epigenomics of the human glycome
by Zoldoš, Vlatka
Glycoconjugate Journal, 2013, Vol.30(1), pp.41-50
9.
Qui non proficit, deficit: Experimental models for ‘integrative’ research of affective disorders
by Laporte, Justin L
Journal of Affective Disorders, 2010, Vol.121(1), pp.1-9
10.
Autosomal dominant mannose-binding lectin deficiency is associated with worse neurodevelopmental outcomes after cardiac surgery in infants
by Kim, Daniel Seung
The Journal of Thoracic and Cardiovascular Surgery, March 2018, Vol.155(3), pp.1139-1147.e2
11.
Presence of autism, hyperserotonemia, and severe expressive language impairment in Williams-Beuren syndrome
by Tordjman, Sylvie
Molecular Autism, 2013, Vol.4(1), p.29
12.
Longitudinal studies to detect gene × environment interactions in common disease – Bang for your buck? A commentary on Chaufan's “How much can a large population study on genes, en...
by Robertson, Stephen
Social Science & Medicine, 2008, Vol.67(4), pp.666-672
13.
Genetics and Personalized Medicine in Antidepressant Treatment
by Gvozdic, Katarina
Current Pharmaceutical Design, 2012, Vol.18(36), p.5853-5878
14.
A Nonparametric Test to Detect Quantitative Trait Loci Where the Phenotypic Distribution Differs by Genotypes
by Aschard, Hugues
Genetic Epidemiology, May 2013, Vol.37(4), pp.323-333
15.
Strain specific genotype-environment interactions and evolutionary potential for body mass in brook charr (Salvelinus fontinalis).
by Crespel, Amélie
G3 (Bethesda, Md.), March 2013, Vol.3(3), pp.379-386
16.
Subset-Based Analysis Using Gene-Environment Interactions for Discovery of Genetic Associations across Multiple Studies or Phenotypes.
by Yu, Youfei
Human heredity, 2018, Vol.83(6), pp.283-314
17.
Cardiovascular diseases and genome-wide association studies
by Ndiaye, Ndeye Coumba
Clinica Chimica Acta, 18 September 2011, Vol.412(19-20), pp.1697-1701
18.
Effect of gene environment interactions on lung function and cardiovascular disease in COPD.
by Hackett, Tillie-Louise
International journal of chronic obstructive pulmonary disease, 2011, Vol.6, pp.277-287
19.
Developmental Activation of the AHR Increases Effector CD4 + T Cells and Exacerbates Symptoms in Autoimmune Disease-Prone Gnaq +/ − Mice
by Boule, Lisbeth A
Toxicological Sciences, 2015, Vol. 148(2), pp.555-566
20.
Genome-wide association analysis accounting for environmental factors through propensity-score matching: application to stressful live events in major depressive disorder.
by Power, Robert A
American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics, September 2013, Vol.162B(6), pp.521-529
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