Physiology of folate and vitamin B12 in health and disease.
about
The influence of micronutrients in cell culture: a reflection on viability and genomic stabilityFolic acid in pregnancy and fetal outcomesHigh dietary niacin intake is associated with decreased chromosome translocation frequency in airline pilotsStructural basis for molecular recognition of folic acid by folate receptorsNeural tube defects and folate: case far from closedHomocysteine and cognitive impairment; a case series in a General Practice settingSerine, glycine and one-carbon units: cancer metabolism in full circleInflammation and Nutritional Science for Programs/Policies and Interpretation of Research Evidence (INSPIRE).Evolutionary Analyses and Natural Selection of Betaine-Homocysteine S-Methyltransferase (BHMT) and BHMT2 GenesVitamin B12 among Vegetarians: Status, Assessment and SupplementationGrowth retardation, general hypotonia, and loss of acquired neuromotor skills in the infants of mothers with cobalamin deficiency and the possible role of succinyl-CoA and glycine in the pathogenesis.Folate and homocysteine phenotypes: Comparative findings using research and clinical laboratory data.Mechanistic insights into folate supplementation from Crooked tail and other NTD-prone mutant mice.Activation of transsulfuration pathway by salvianolic acid a treatment: a homocysteine-lowering approach with beneficial effects on redox homeostasis in high-fat diet-induced hyperlipidemic rats.Genetic and epigenetic contributions to human nutrition and health: managing genome-diet interactions.A hybrid stochastic model of folate-mediated one-carbon metabolism: Effect of the common C677T MTHFR variant on de novo thymidylate biosynthesisGenetic and lifestyle variables associated with homocysteine concentrations and the distribution of folate derivatives in healthy premenopausal women.Stable-isotope dilution LC–MS for quantitative biomarker analysis.A novel PCFT gene mutation (p.Cys66LeufsX99) causing hereditary folate malabsorptionMaternal folate deficiency causes inhibition of mTOR signaling, down-regulation of placental amino acid transporters and fetal growth restriction in miceMaternal MTHFR genotype and haplotype predict deficits in early cognitive development in a lead-exposed birth cohort in Mexico CityIntraindividual variation in one-carbon metabolism plasma biomarkers.ADI1, a methionine salvage pathway enzyme, is required for Drosophila fecundity.A prospective study of one-carbon metabolism biomarkers and risk of renal cell carcinoma.Post-transcriptional regulation of the human reduced folate carrier as a novel adaptive mechanism in response to folate excess or deficiency.Altered maternal micronutrients (folic acid, vitamin B(12)) and omega 3 fatty acids through oxidative stress may reduce neurotrophic factors in preterm pregnancy.A pivotal role of vitamin B9 in the maintenance of regulatory T cells in vitro and in vivo.Nuclear enrichment of folate cofactors and methylenetetrahydrofolate dehydrogenase 1 (MTHFD1) protect de novo thymidylate biosynthesis during folate deficiencyDe novo assembly, characterization and functional annotation of pineapple fruit transcriptome through massively parallel sequencingMethylenetetrahydrofolatereductase C677T polymorphism and folate metabolism in human healthThe status of vitamin B12 and folate among Chinese women: a population-based cross-sectional study in northwest China.Dietary and other lifestyle correlates of serum folate concentrations in a healthy adult population in Crete, Greece: a cross-sectional study.Shmt1 and de novo thymidylate biosynthesis underlie folate-responsive neural tube defects in mice.Metabolic control of regulatory T cell development and function.Profiling single nucleotide polymorphisms (SNPs) across intracellular folate metabolic pathway in healthy IndiansAssociation of chromosome damage detected as micronuclei with hematological diseases and micronutrient status.Alcohol consumption, one-carbon metabolites, liver cancer and liver disease mortality.Molecular mechanisms underlying the potentially adverse effects of folateFolate pathway polymorphisms predict deficits in attention and processing speed after childhood leukemia therapy.The application of a chemical determination of N-homocysteinylation levels in developing mouse embryos: implication for folate responsive birth defects.
P2860
Q21284821-B2024619-EE78-4E6C-BF1B-14239BD3B119Q22337184-1F5CC43A-C43A-43D9-97C5-92BB5DA86006Q23916816-A9FE3A76-12D5-44C9-973B-98BFC87B0988Q24307935-77508F4C-7401-41A1-A4D7-F0EF9E8038F2Q24617456-A1D38FA9-D0FF-484A-AE66-F24A9A12628DQ25257672-96D4A62B-94AB-4AA1-BA76-5413609D2853Q26828610-32EC0BEE-80A3-4E0A-98C8-F0751A96200EQ26830867-E556C7B9-F303-4E4C-8C48-D0D58DD5F295Q27301531-392A5E2C-7167-45C7-B1E6-B60F41B343C4Q28075464-1BB628CB-31B7-45BA-A77F-0712B29FBE3DQ33420885-B5AFAC94-D0F9-47E5-9354-C0A08CF7CD9FQ33442336-AC850659-F50B-45D2-BF20-4156708782DAQ33609457-065D6D68-0539-462F-9699-CC558016081FQ33640767-F881E51E-062B-4B43-96D9-027F1917CE78Q33647210-B53E0762-6279-4BDC-BE13-6AAF470593B3Q33678139-CDDC5CAD-DEC9-4A33-A2C2-1CCBA0517BB9Q33732467-3ACAE48E-8968-4BD5-8169-9A35384F32B4Q33747062-40404A1A-B417-4DFC-807A-FCB73E9AE4FDQ33781512-7211F585-D2F0-4ED1-82FC-03CE7164C5A5Q33822467-A5C2C931-C747-46C5-8A02-29A477E4C09DQ33908685-70495A7A-006D-40FD-ACD2-E88EA44D9A7EQ33922519-C670F0EC-B2A3-42F0-93DB-E32D83467D15Q33970005-73910CC0-0013-43F8-9EBF-39D9A62D95A0Q33985276-18F9C7DF-AD65-45DE-A74D-8B87449B4933Q34007405-FA16A4AC-27F0-484D-8EE7-8813A9F44286Q34027049-1C670A09-B4B7-49AC-8198-38B9061FC7F3Q34171642-09A5E394-903C-44D1-AAE6-C3DEC955B463Q34396785-6BE35606-0B02-4F64-AE96-BA0FA41C22BEQ34455117-D04E5655-B44E-4B37-B615-7ED985B36DA1Q34494646-F8337461-78B6-411E-B506-A2376902D1A6Q34497850-B94ACF9D-F358-4FFF-8209-EFB0E3474459Q34521912-109B8001-B474-4196-938D-EB95DD8D78B5Q34674474-215134DE-A15C-4EA2-898D-93685743083AQ34790948-8EC95FB0-65B1-4621-8F73-61B3E7E6FAE8Q35010441-470C2292-DB5F-460F-A447-1643BF332C83Q35022988-E0D91F9D-9270-4060-B6DA-432952347DDCQ35036128-23203A5D-8ADF-41D2-9CA1-D292F0D40275Q35049779-1D861B21-CA3D-4DE9-9F52-435FEB1D00FCQ35098712-564DABF6-47BC-45D2-B0C0-EAB38CA8DC5BQ35220402-90191FDD-3C3E-4A5B-BC79-3BA26A4D0F79
P2860
Physiology of folate and vitamin B12 in health and disease.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Physiology of folate and vitamin B12 in health and disease.
@ast
Physiology of folate and vitamin B12 in health and disease.
@en
Physiology of folate and vitamin B12 in health and disease.
@nl
type
label
Physiology of folate and vitamin B12 in health and disease.
@ast
Physiology of folate and vitamin B12 in health and disease.
@en
Physiology of folate and vitamin B12 in health and disease.
@nl
prefLabel
Physiology of folate and vitamin B12 in health and disease.
@ast
Physiology of folate and vitamin B12 in health and disease.
@en
Physiology of folate and vitamin B12 in health and disease.
@nl
P2860
P921
P1433
P1476
Physiology of folate and vitamin B12 in health and disease.
@en
P2093
Patrick J Stover
P2860
P304
S3-12; discussion S13
P356
10.1111/J.1753-4887.2004.TB00070.X
P433
P577
2004-06-01T00:00:00Z