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Gut Microbiota Profiling: Metabolomics Based Approach to Unravel Compounds Affecting Human HealthStructural enzymology of Helicobacter pylori methylthioadenosine nucleosidase in the futalosine pathwayA bicarbonate cofactor modulates 1,4-dihydroxy-2-naphthoyl-coenzyme a synthase in menaquinone biosynthesis of Escherichia coliEffects of intermediates between vitamins K(2) and K(3) on mammalian DNA polymerase inhibition and anti-inflammatory activity.The role of osteocalcin in human glucose metabolism: marker or mediator?Vitamin K: food composition and dietary intakes.Vitamin K: an old vitamin in a new perspective.Genomic Analysis of the Human Gut Microbiome Suggests Novel Enzymes Involved in Quinone Biosynthesis.Vitamin K nutrition, metabolism, and requirements: current concepts and future research.Vitamin K treatment reduces undercarboxylated osteocalcin but does not alter bone turnover, density, or geometry in healthy postmenopausal North American womenMenaquinones, bacteria, and the food supply: the relevance of dairy and fermented food products to vitamin K requirements.Effect of vitamin K on bone mineral density: a meta-analysis of randomized controlled trials.Vitamin deficiencies in humans: can plant science help?The role of menaquinones (vitamin K₂) in human health.Structural and functional insights into human vitamin K epoxide reductase and vitamin K epoxide reductase-like1.Vitamin K series: current status and future prospects.Vitamin K metabolism: current knowledge and future research.The realm of vitamin K dependent proteins: shifting from coagulation toward calcification.Molecular modeling and docking studies of O-succinylbenzoate synthase of M. tuberculosis--a potential target for antituberculosis drug design.Fecal concentrations of bacterially derived vitamin K forms are associated with gut microbiota composition but not plasma or fecal cytokine concentrations in healthy adults.Production and application of menaquinone-7 (vitamin K2): a new perspective.Vitamin K has the potential to protect neurons from methylmercury-induced cell death in vitro.Reduction of quinones by NADH catalyzed by organoiridium complexes.The Role of Vitamin K Status in Cardiovascular Health: Evidence from Observational and Clinical Studies.The roles of vitamins D and K in bone health and osteoporosis prevention.Dietary vitamin K alleviates the reduction in testosterone production induced by lipopolysaccharide administration in rat testis.Phylloquinone (vitamin K1) intakes and food sources in 18-64-year-old Irish adults.Determination of the urinary aglycone metabolites of vitamin K by HPLC with redox-mode electrochemical detection.Conversion of phylloquinone (Vitamin K1) into menaquinone-4 (Vitamin K2) in mice: two possible routes for menaquinone-4 accumulation in cerebra of mice.Assessment of Micronutrient Status in Critically Ill Children: Challenges and Opportunities.A simple and efficient method for the extraction and separation of menaquinone homologs from wet biomass of Flavobacterium.Vitamin K contents in liver tissue of hepatocellular carcinoma patients.Newly identified vitamin K-producing bacteria isolated from the neonatal faecal flora
P2860
Q26738283-D022CCE8-60ED-42D0-BD53-848FDB1BD4ABQ27688888-E0D10869-ECDF-4BB8-B978-40822D6B7B38Q28488862-44C792A3-AEFC-4208-87A1-EEC19BF99581Q34874923-755E8192-D2D8-469E-90B1-822CFC607018Q35636353-5A05A55D-61E2-4E22-8FB5-C4EF82D57400Q35875064-C5033839-62B1-4F17-96AE-06EE664CE05AQ36085986-C90D5CAD-F1B9-4327-AD09-4867A3048EEEQ36559073-E09DCCB8-D940-4512-ABD5-529DBFDCBF1FQ36828726-E96EAD26-F3A4-4983-B866-BE515A3C4A50Q37196015-2E81A2FA-B8A2-40ED-97A4-4480EC8BDFEEQ37616207-DDD96890-EBDC-4FDE-A9B6-185CA91CB429Q37889688-D85DA569-D153-4243-9531-1B99CB42FF2BQ37989072-B947D23E-C8A7-43DB-9505-5BD5B0FE466AQ38099442-395CAF98-7BCA-4920-ADCA-B5886FBBA263Q38103055-EA04AE0F-2C2A-4B5A-90D7-5FF682F67B08Q38138614-B4ECA55A-8C77-4368-9092-56AFA1ED9CB5Q38174571-3E362CC3-2978-419F-8143-F71312B8C678Q38199459-111912A6-E8C4-4461-8CAD-DF910169369DQ38403318-A086D508-A3F9-4AE4-B196-D0E3394D46C1Q38621571-6D2FCD97-A938-4BF4-88E5-FC3BB00F3B3DQ38796686-E8A14F25-8321-4A3E-ACAF-4AFCC5A0EB5BQ39559462-A8D92798-88E0-4153-82F2-EB1E4C80620DQ40917427-5DD85A57-2696-447E-88CC-CCCFBB885781Q41625344-CB6625BA-3C9A-4578-A902-D9B8108A5CB7Q41713175-685856E1-9605-4FCC-91D1-51D486415802Q42727028-365E6FC8-10DD-48BE-B8E5-14DB697134B3Q44961441-8CF106D4-859B-411F-A64E-A53822CD8081Q45275925-3230C377-878C-4E00-8681-1F30CF6546FDQ46847476-C731F048-6124-4EC8-B2A4-D8A68EFFD93AQ47158812-9A951CBF-262B-4256-BB68-1E9760E1F942Q50093715-9B80C0AA-4361-4462-AF64-9DBB6F1FF38BQ55286721-9D740080-ACFC-4A81-A6BE-B9F96AB4415FQ56429388-CA014086-381D-423C-B765-9B8C700A8A89
P2860
description
1995 nî lūn-bûn
@nan
1995 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
The importance of menaquinones in human nutrition.
@ast
The importance of menaquinones in human nutrition.
@en
The importance of menaquinones in human nutrition.
@nl
type
label
The importance of menaquinones in human nutrition.
@ast
The importance of menaquinones in human nutrition.
@en
The importance of menaquinones in human nutrition.
@nl
prefLabel
The importance of menaquinones in human nutrition.
@ast
The importance of menaquinones in human nutrition.
@en
The importance of menaquinones in human nutrition.
@nl
P1476
The importance of menaquinones in human nutrition.
@en
P2093
P304
P356
10.1146/ANNUREV.NU.15.070195.002151
P407
P577
1995-01-01T00:00:00Z