Total zinc intake may modify the glucose-raising effect of a zinc transporter (SLC30A8) variant: a 14-cohort meta-analysis.
about
Zinc transporter 8 (ZnT8) and β cell functionThe complex interplay of genetic and lifestyle risk factors in type 2 diabetes: an overviewDietary Patterns, Genes, and Health: Challenges and Obstacles to be OvercomeGene-Lifestyle Interactions in Complex Diseases: Design and Description of the GLACIER and VIKING StudiesConsumption of meat is associated with higher fasting glucose and insulin concentrations regardless of glucose and insulin genetic risk scores: a meta-analysis of 50,345 Caucasians.Nutrigenetics and nutrigenomics insights into diabetes etiopathogenesis.Higher magnesium intake is associated with lower fasting glucose and insulin, with no evidence of interaction with select genetic loci, in a meta-analysis of 15 CHARGE Consortium StudiesLipoprotein receptor-related protein 1 variants and dietary fatty acids: meta-analysis of European origin and African American studies.Translation of Nutritional Genomics into Nutrition Practice: The Next StepThe influence of rare genetic variation in SLC30A8 on diabetes incidence and β-cell function.Zinc transporters and their role in the pancreatic β-cell.Some dietary factors can modulate the effect of the zinc transporters 8 polymorphism on the risk of metabolic syndromeGene-Diet Interactions in Type 2 Diabetes: The Chicken and Egg DebateGenetics of type 2 diabetes in European populations.Contribution of SLC30A8 variants to the risk of type 2 diabetes in a multi-ethnic population: a case control study.An epidemiological perspective of personalized medicine: the Estonian experience.Quantifying diet for nutrigenomic studies.Increased DNA methylation of the SLC30A8 gene promoter is associated with type 2 diabetes in a Malay populationEffect of zinc supplementation on insulin secretion: interaction between zinc and SLC30A8 genotype in Old Order Amish.The Rotterdam Study: 2016 objectives and design update.Type 2 Diabetes Genetics: Beyond GWAS.The new perspectives on genetic studies of type 2 diabetes and thyroid diseasesHighlights of the 2012 Research Workshop: Using nutrigenomics and metabolomics in clinical nutrition research.Education influences the association between genetic variants and refractive error: a meta-analysis of five Singapore studies.Genetic Variations as Modifying Factors to Dietary Zinc Requirements-A Systematic Review.Zinc-rs13266634 and the arrival of diabetes pharmacogenetics: the "zinc mystique"The Role of Oxidative Stress and Hypoxia in Pancreatic Beta-Cell Dysfunction in Diabetes Mellitus.From mice to humans.Zinc, pancreatic islet cell function and diabetes: new insights into an old story.Nutrigenetics: bridging two worlds to understand type 2 diabetes.Does Zinc Really "Metal" with Diabetes? The Epidemiologic Evidence.Zinc-Associated Variant in SLC30A8 Gene Interacts With Gestational Weight Gain on Postpartum Glycemic Changes: A Longitudinal Study in Women With Prior Gestational Diabetes Mellitus.A prospective study of dietary and supplemental zinc intake and risk of type 2 diabetes depending on genetic variation in SLC30A8.The Rotterdam Study: 2014 objectives and design update.Race/ethnicity-, gender- and age-specific differences in micronutrient intakes of US adults with and without diabetes.Zinc status is associated with inflammation, oxidative stress, lipid, and glucose metabolism.The Rotterdam Study: 2018 update on objectives, design and main results.From Neighborhood to Genome: Three Decades of Nutrition-Related Research from the Atherosclerosis Risk in Communities Study.Intracellular zinc in insulin secretion and action: a determinant of diabetes risk?Genetic risk score of common genetic variants for impaired fasting glucose and newly diagnosed type 2 diabetes influences oxidative stress.
P2860
Q26829276-8854BC5E-D2D0-4379-A82C-3006D8F04092Q26997813-7A312BD9-31E8-4F61-86BE-82739300F66BQ28085623-631211D5-0019-4C60-B182-68D369231E23Q28397345-03A75EEA-5D44-4DF3-A241-D64102F76A42Q30278722-94EFB9FA-6219-4735-B6C6-89BE41E37B43Q30368908-62E2DE4C-5926-4920-89B0-B32AEDAC6C8EQ30414594-882DA779-16DB-4869-9345-E8C7D0BFC03CQ30417215-AFC80773-4954-4560-9F41-17526C520966Q33365157-B922A4C1-1A29-46CF-8AB5-5C02B7C14E9EQ33568942-1C66B7EB-FB62-4C01-95A3-580D93D5EB0DQ33585706-28D5A891-611E-4DC8-83D8-A3DEF6421180Q33687695-3D8667B4-CFC2-4B26-B703-A8364F67BC0CQ33838645-CE4A11EA-0216-47EA-A924-EF0EA6AF1EDAQ34032738-027F8A7E-57FD-4E90-AE28-57D583899123Q35083749-A7A043F1-93B4-4970-9DA8-71484DAEEE7CQ35086233-ACF13554-D81D-4DF7-A621-3F64C662DF6FQ35162905-CD664359-691A-4F58-AAAA-4833F4D2DC87Q35194004-471B995C-6DA0-4977-B289-0941AA5B93D2Q35861895-36C1BCD0-D8FB-4BD1-A4D9-EA1B3A65B0C4Q36084114-DDA9C255-54EB-4228-B956-F2229BA5E9F4Q36464788-808732CF-6C6C-4F01-BBFA-506842650BC0Q36634117-8EDC872B-DBEE-4864-A1A2-C0CBE6B29E8AQ36671075-DE40B283-2F6B-4B96-A4AF-637DA52A4C5EQ37406426-D166D259-2FF2-4755-9277-202BE4FAE6F8Q37673243-9BF25F54-518B-458D-84ED-A82A8F9807BEQ37715567-98F256AF-E055-4463-B9C8-37C49073470CQ37729465-06564882-81EC-4CC0-8EAD-479038835995Q38045180-9EF3D06A-03B6-4BDA-8B32-B4E589795B38Q38071351-8EE97C33-7D17-4ABF-A3AE-9483225F2C4EQ38187946-F95C4D19-506F-493A-B79D-4673DB7701D7Q38963763-B6C30256-0FC4-4296-BE28-605B49DF8B7FQ39418116-566AA181-679D-4408-B017-3A346A18D86CQ43126846-93278413-D0BE-41B6-8DDD-78554C725D0AQ44224234-69F5B0CF-7CE3-4295-BA1A-4221C17D837DQ45093352-034A2E3F-58EA-42AE-970E-B51908C09C01Q46297850-F116BCF3-AC38-49AD-B569-383896D050EFQ47121939-AA8A9031-FFC8-4604-9C84-DC64F4328F4EQ49660556-68A6FA5B-CEB1-455E-A033-34665A6335E7Q52917339-E325BD53-6C0F-4859-9762-D5C7FE023E9AQ54948885-4771954B-4B91-4D8F-823C-30B392F5F689
P2860
Total zinc intake may modify the glucose-raising effect of a zinc transporter (SLC30A8) variant: a 14-cohort meta-analysis.
description
2011 nî lūn-bûn
@nan
2011 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@ast
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@en
Total zinc intake may modify the glucose-raising effect of a zinc transporter
@nl
type
label
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@ast
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@en
Total zinc intake may modify the glucose-raising effect of a zinc transporter
@nl
prefLabel
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@ast
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@en
Total zinc intake may modify the glucose-raising effect of a zinc transporter
@nl
P2093
P2860
P50
P356
P1433
P1476
Total zinc intake may modify t ...... nt: a 14-cohort meta-analysis.
@en
P2093
Amanda J Bennett
Caroline S Fox
Denise K Houston
Frank J A van Rooij
George V Dedoussis
Georgia Saylor
Ingegerd Johansson
Jacqueline C M Witteman
Jennifer A Nettleton
Jennifer S Anderson
P2860
P304
P356
10.2337/DB11-0176
P407
P50
P577
2011-08-01T00:00:00Z