Mechanisms involved in the intestinal absorption of dietary vitamin A and provitamin A carotenoids.
about
Role of retinoids in the prevention and treatment of colorectal cancerMammalian metabolism of β-carotene: gaps in knowledgeCarotenoid metabolism in mammals, including man: formation, occurrence, and function of apocarotenoidsAn LC/MS/MS method for stable isotope dilution studies of β-carotene bioavailability, bioconversion, and vitamin A status in humans.An HPLC-MS/MS method for the separation of α-retinyl esters from retinyl esters.The human enzyme that converts dietary provitamin A carotenoids to vitamin A is a dioxygenase.Skin, reactive oxygen species, and circadian clocks.Functions of Intracellular Retinoid Binding-Proteins.Carotenoids are more bioavailable from papaya than from tomato and carrot in humans: a randomised cross-over study.Expression Profiles of Cellular Retinol-binding Protein, Type II (CRBP II) in Erlang Mountainous Chickens.Identification of SNPs in Cellular Retinol Binding Protein 1 and Cellular Retinol Binding Protein 3 Genes and Their Associations with Laying Performance Traits in Erlang Mountainous Chicken.Serum response to supplemental macular carotenoids in subjects with and without age-related macular degeneration.Nature, source and function of pigments in tardigrades: in vivo raman imaging of carotenoids in Echiniscus blumiCardiac dysfunction in β-carotene-15,15'-dioxygenase-deficient mice is associated with altered retinoid and lipid metabolismCombination of Zinc and All-Trans Retinoic Acid Promotes Protection against Listeria monocytogenes Infection.High Preformed Vitamin A Intake during Pregnancy Prevents Embryonic Accumulation of Intact β-Carotene from the Maternal Circulation in Mice.Biological role of aldo-keto reductases in retinoic Acid biosynthesis and signaling.Potential for use of retinoic acid as an oral vaccine adjuvant.β-Carotene supplementation decreases placental transcription of LDL receptor-related protein 1 in wild-type mice and stimulates placental β-carotene uptake in marginally vitamin A-deficient mice.Actions of β-apo-carotenoids in differentiating cells: differential effects in P19 cells and 3T3-L1 adipocytes.Cellular localization of β-carotene 15,15' oxygenase-1 (BCO1) and β-carotene 9',10' oxygenase-2 (BCO2) in rat liver and intestine.CD36 homolog divergence is responsible for the selectivity of carotenoid species migration to the silk gland of the silkworm Bombyx mori.Enzymology of retinoic acid biosynthesis and degradation.Vitamin A and retinoid signaling: genomic and nongenomic effects.Effects of vitamin A deficiency in the postnatal mouse heart: role of hepatic retinoid stores.Association between vitamin A, retinol and carotenoid intake and pancreatic cancer risk: Evidence from epidemiologic studies.Genetic Variations Associated with Vitamin A Status and Vitamin A Bioavailability.A question of balance: achieving appropriate nutrient levels in biofortified staple crops.Intestinal lipid absorption and lipoprotein formation.Retinoids: a journey from the molecular structures and mechanisms of action to clinical uses in dermatology and adverse effects.Carotenoids in Adipose Tissue Biology and Obesity.Absorption of Carotenoids and Mechanisms Involved in Their Health-Related Properties.New insights and changing paradigms in the regulation of vitamin A metabolism in development.Adjuvant potential of low dose all-trans retinoic acid during oral typhoid vaccination in Zambian men.Vitamin A, endocrine tissues and hormones: interplay and interactions.Carotenoids as possible interphotoreceptor retinoid-binding protein (IRBP) ligands: a surface plasmon resonance (SPR) based study.Potential of golden potatoes to improve vitamin A and vitamin E status in developing countries.Signaling by Retinoic AcidThe Retinol Binding Protein Receptor 2 (Rbpr2) is required for Photoreceptor Outer Segment Morphogenesis and Visual Function in Zebrafish.Scientific Opinion on Dietary Reference Values for vitamin A
P2860
Q26781463-55978DFA-2EFB-4D33-803C-C6C3B80C6AB0Q26851164-A837D8A4-9EEF-4246-A36D-E21206743069Q27001195-D1E3E402-756A-4B5C-92D1-C7AC20771821Q33459601-4D129CB7-ECFE-4848-AC62-842642EDFE0AQ33468423-B73161A7-10A3-40E4-938E-E8A8481D9AEFQ33676794-4867D077-1677-4E87-87BB-A57EDEEF3C51Q33687845-570E2D08-CE92-4AA0-8466-9FD01832FB66Q33862127-1E5BEE8F-1E6B-46FC-B8D4-7D31857F1CC8Q33880323-989DF0B1-79E4-4F44-8008-91BAE836335BQ33885394-F823D643-1248-4423-B051-067764CC3F80Q33945455-0D2B425A-F5B1-4AB8-A527-FE2AC53F33E4Q34315578-CFD19D45-004F-4F07-99C6-3FAB50328524Q34491126-CB7A518E-32A6-4CB9-80C9-D03E1884781AQ34627789-A73C80B7-F1E4-4172-97BE-9FD139FD9339Q35767521-5CA6AA46-E4F1-4E59-B8AB-113AE36D8C97Q35775138-7FEA2308-ADDB-48BE-8FFE-954D65F00E18Q35893754-99E93C73-E63D-40B0-A3CF-A2E13E3D1BCEQ35923846-FEF9E8BC-B93B-434C-B1DA-831828CFF9CFQ36096330-383365D7-6F2D-4E1D-8307-A56DCE2C1A68Q36348743-F87C0C52-6352-426D-9B67-E75CB2A1D25CQ36389078-B9AA37EA-8846-440A-8D0B-E6CAB8EFB1D9Q36658400-41FA1C06-84A7-4ADB-955A-131789FBBD21Q36920543-023F5522-A66D-4BF4-AB08-266135447B34Q36920549-5B425E5B-E15E-45FC-8F2B-775A20DF48BCQ37071914-B6D1E804-B375-476F-A84A-5C505FCA4EBAQ37493016-741C9B43-1D8A-4EF7-9B46-C705E7DE52C7Q37729744-5880DCD7-FFF0-4381-B6F7-9A5F1C8BFEC9Q38153493-FBDC7E2B-3C9B-4594-B3BC-EB66590C6A2BQ38206075-DE5B8AE2-601D-4E86-9F33-CF56717FECAEQ38558092-6A7E5CE7-68D2-4FD1-B6C4-416710FC7358Q38916615-CE3245A8-13FD-4C79-BA60-C2024B20E423Q38916620-62816382-161B-42C4-9217-C0241CFE5532Q39138673-D106A288-0291-4635-A66F-9374210B5002Q39182828-F044C020-F250-40AA-9A3A-75BFC8991134Q39442677-6D89FF78-B19F-4395-A67C-31E8CE4BA21EQ42920816-42619BEA-0E27-4713-806B-A98C8BAA5C64Q44980378-23AA58F0-4EA4-4AFD-845D-056936A110CAQ45318287-19432D94-B60A-4923-B269-F21028C779A8Q47115585-D9103705-0A9C-4792-B030-3B59E4216A3EQ47156796-3894FBD9-CF29-4A71-AB4F-CC3CBB9C4224
P2860
Mechanisms involved in the intestinal absorption of dietary vitamin A and provitamin A carotenoids.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Mechanisms involved in the int ...... and provitamin A carotenoids.
@ast
Mechanisms involved in the int ...... and provitamin A carotenoids.
@en
type
label
Mechanisms involved in the int ...... and provitamin A carotenoids.
@ast
Mechanisms involved in the int ...... and provitamin A carotenoids.
@en
prefLabel
Mechanisms involved in the int ...... and provitamin A carotenoids.
@ast
Mechanisms involved in the int ...... and provitamin A carotenoids.
@en
P2860
P1476
Mechanisms involved in the int ...... and provitamin A carotenoids.
@en
P2093
Earl H Harrison
P2860
P356
10.1016/J.BBALIP.2011.06.002
P407
P577
2011-06-12T00:00:00Z