Literature DB >> 11340622

Studies of vitamin A metabolism in mouse model systems.

M E Gottesman1, L Quadro, W S Blaner.   

Abstract

Over the past several years, discoveries from mouse genetics have had direct impact on our understanding of vitamin A metabolism. Although the metabolism of vitamin A in the mouse does have some special features (for example very large stores of liver and pulmonary retinyl esters), the ability to construct knockout and transgenic mouse models has yielded an impressive amount of information directly relevant to understanding the general principles of vitamin A transport, storage and degradation. We discuss below the metabolism of vitamin A through a number of genetically engineered mouse strains with alterations in genes that affect this metabolism. The novelty of this experimental approach is evidenced by the fact that the oldest of these strains was first reported only eight years ago.1) Copyright 2001 John Wiley & Sons, Inc.

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Year:  2001        PMID: 11340622     DOI: 10.1002/bies.1059

Source DB:  PubMed          Journal:  Bioessays        ISSN: 0265-9247            Impact factor:   4.345


  20 in total

Review 1.  Role of retinoid signaling in the regulation of spermatogenesis.

Authors:  S S W Chung; D J Wolgemuth
Journal:  Cytogenet Genome Res       Date:  2004       Impact factor: 1.636

Review 2.  Maternal-fetal transfer and metabolism of vitamin A and its precursor β-carotene in the developing tissues.

Authors:  Elizabeth Spiegler; Youn-Kyung Kim; Lesley Wassef; Varsha Shete; Loredana Quadro
Journal:  Biochim Biophys Acta       Date:  2011-05-19

3.  Characterization of a dehydrogenase activity responsible for oxidation of 11-cis-retinol in the retinal pigment epithelium of mice with a disrupted RDH5 gene. A model for the human hereditary disease fundus albipunctatus.

Authors:  G F Jang; J P Van Hooser; V Kuksa; J K McBee; Y G He; J J Janssen; C A Driessen; K Palczewski
Journal:  J Biol Chem       Date:  2001-06-20       Impact factor: 5.157

Review 4.  Positive evidence for vitamin A role in prevention of type 1 diabetes.

Authors:  Somaye Yosaee; Maryam Akbari Fakhrabadi; Farzad Shidfar
Journal:  World J Diabetes       Date:  2016-05-10

5.  The interphotoreceptor retinoid-binding protein (IRBP) of the chicken (Gallus gallus domesticus).

Authors:  Deborah L Stenkamp; John L Calderwood; Ellen E Van Niel; Lawrence M Daniels; Federico Gonzalez-Fernandez
Journal:  Mol Vis       Date:  2005-09-30       Impact factor: 2.367

Review 6.  Hepatic metabolism of retinoids and disease associations.

Authors:  Yohei Shirakami; Seung-Ah Lee; Robin D Clugston; William S Blaner
Journal:  Biochim Biophys Acta       Date:  2011-07-01

7.  Aberrant metabolites in mouse models of congenital blinding diseases: formation and storage of retinyl esters.

Authors:  Akiko Maeda; Tadao Maeda; Yoshikazu Imanishi; Marcin Golczak; Alexander R Moise; Krzysztof Palczewski
Journal:  Biochemistry       Date:  2006-04-04       Impact factor: 3.162

8.  Lecithin-retinol acyltransferase is essential for accumulation of all-trans-retinyl esters in the eye and in the liver.

Authors:  Matthew L Batten; Yoshikazu Imanishi; Tadao Maeda; Daniel C Tu; Alexander R Moise; Darin Bronson; Daniel Possin; Russell N Van Gelder; Wolfgang Baehr; Krzysztof Palczewski
Journal:  J Biol Chem       Date:  2003-12-18       Impact factor: 5.157

9.  Temporal profiling of rat transcriptomes in retinol-replenished vitamin A-deficient testis.

Authors:  Timothy J Doyle; Asa J Oudes; Kwan Hee Kim
Journal:  Syst Biol Reprod Med       Date:  2009-08       Impact factor: 3.061

10.  Impact on allergic immune response after treatment with vitamin A.

Authors:  Victor Matheu; Karin Berggård; Yvelise Barrios; Ysamar Barrios; Maria-Rosa Arnau; Jose M Zubeldia; Maria L Baeza; Ove Back; Shohreh Issazadeh-Navikas
Journal:  Nutr Metab (Lond)       Date:  2009-10-23       Impact factor: 4.169
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