| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Richard H. Finnell | Q48454483 |
| P2093 | author name string | H Zhu | |
| S Kartiko | |||
| P2860 | cites work | Maternal supplemental and dietary zinc intake and the occurrence of neural tube defects in California | Q41690814 |
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| Evolving methods in genetic epidemiology. III. Gene-environment interaction in epidemiologic research | Q41635617 | ||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 409-423 | |
| P577 | publication date | 2009-05-01 | |
| P1433 | published in | Clinical Genetics | Q5133760 |
| P1476 | title | Importance of gene-environment interactions in the etiology of selected birth defects | |
| P478 | volume | 75 |
| Q26748789 | A Biobank for Long-term and Sustainable Research in the Field of Congenital Heart Disease in Germany |
| Q35739399 | A Cross-sectional Comparison of Cleft Lip Severity in 3 Regional Populations |
| Q37020623 | Advances in the Study of Heart Development and Disease Using Zebrafish. |
| Q26155268 | An overview of the effects of organic compounds on women's reproductive health and birth outcomes |
| Q42362384 | Analyses of trends in prevalence of congenital heart defects and folic acid supplementation |
| Q38434061 | Anorectal malformation: the etiological factors |
| Q35906847 | Application of a novel hybrid study design to explore gene-environment interactions in orofacial clefts |
| Q38149683 | Application of high-throughput sequencing for studying genomic variations in congenital heart disease |
| Q44313587 | Assessment of heritable genetic effects using new genetic tools and sentinels in an era of personalized medicine |
| Q39194811 | Association between MTHFR polymorphisms and orofacial clefts risk: a meta-analysis |
| Q36511130 | Association of folate metabolism genes MTHFR and MTRR with multiple complex congenital malformation risk in Chinese population of Shanxi |
| Q36718193 | C5a receptor signaling prevents folate deficiency-induced neural tube defects in mice |
| Q24601804 | Cleft lip and palate: understanding genetic and environmental influences |
| Q52483751 | Clinical and risk factor analysis of cloacal defects in the National Birth Defects Prevention Study. |
| Q38899973 | Congenital heart diseases and their association with the variant distribution features on susceptibility genes |
| Q36060851 | Copy-Number Variation of the Glucose Transporter Gene SLC2A3 and Congenital Heart Defects in the 22q11.2 Deletion Syndrome |
| Q47156515 | Determinants of orofacial clefting I: Effects of 5-Aza-2'-deoxycytidine on cellular processes and gene expression during development of the first branchial arch |
| Q39126176 | Determinants of orofacial clefting II: Effects of 5-Aza-2'-deoxycytidine on gene methylation during development of the first branchial arch |
| Q60852037 | Developmental processes regulate craniofacial variation in disease and evolution |
| Q37180882 | Developmental profiles of the murine palatal methylome |
| Q38203855 | Epidemiology of multiple congenital anomalies in Europe: a EUROCAT population-based registry study |
| Q46302040 | Epigenetic mechanisms underlying maternal diabetes-associated risk of congenital heart disease. |
| Q37181010 | Epigenetic regulation of Sox4 during palate development |
| Q36716183 | Evidence of gene-environment interaction for the RUNX2 gene and environmental tobacco smoke in controlling the risk of cleft lip with/without cleft palate |
| Q38075509 | Folate, homocysteine and the cardiac neural crest |
| Q34309022 | Gene-environment interactions, folate metabolism and the embryonic nervous system |
| Q26775087 | Genetics of Congenital Heart Defects: The NKX2-5 Gene, a Key Player |
| Q26862793 | Genetics of congenital heart disease: the glass half empty |
| Q35078632 | Genome-wide association study of maternal and inherited effects on left-sided cardiac malformations |
| Q36494895 | Hard to swallow: Developmental biological insights into pediatric dysphagia |
| Q42552648 | Identifying Human Teratogens: An Update |
| Q27028231 | Modeling anterior development in mice: diet as modulator of risk for neural tube defects |
| Q89517772 | NAD deficiency due to environmental factors or gene-environment interactions causes congenital malformations and miscarriage in mice |
| Q37980506 | Perinatal folate supply: relevance in health outcome parameters |
| Q39372916 | Prevalence and trends of selected congenital malformations in New York State, 1983 to 2007. |
| Q37425652 | Probing human cardiovascular congenital disease using transgenic mouse models |
| Q50803041 | Revisiting the concepts of risk and protective factors for understanding the etiology and development of substance use and substance use disorders: implications for prevention. |
| Q92284678 | The interaction of maternal diabetes with mutations that affect folate metabolism and how they affect the development of neural tube defects in mice |
| Q35896486 | The mechanism of TGF-β signaling during palate development |
| Q38134419 | The role of folic acid fortification in neural tube defects: a review |
| Q44806713 | The role of the folic acid to the prevention of orofacial cleft: an epidemiological study. |
| Q38700217 | Using frogs faces to dissect the mechanisms underlying human orofacial defects |
| Q51846603 | Using genomics for birth defects epidemiology: can epigenetics cut the GxE Gordian knot? |
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