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Retinoic Acid Analysis: Identification and Quantification using LC-MS/MS, Study Guides, Projects, Research of Health sciences

Information on retinoic acid, a member of the retinoid family derived from vitamin a. It discusses the synthesis, properties, and biological functions of retinoic acid, as well as its uses in visual and skin conditions and cancer therapeutics. The document also introduces creative proteome's sensitive lc-ms/ms assay for retinoic acid quantification in biological samples.

Typology: Study Guides, Projects, Research

2018/2019

Uploaded on 01/25/2019

Jamse1028
Jamse1028 🇺🇸

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Retinoic Acid Analysis Service

Retinoic acid is a member of the over 4,000-strong family of retinoids, which are compounds derived from retinol or vitamin A, or compounds structurally similar to it. Vitamin A itself is derived only from food, and cannot be made in the body of any animal. It is esterified and stored in the liver, the richest source of vitamin A apart from supplements. Retinoic acid is synthesized from retinol via two enzymatic reactions, involving first reversible oxidation of retinol to retinal, and then a second oxidation, this time irreversibly, to retinoic acid. It is a light-sensitive compound, like other retinoids, because of the alternating double bonds between the carbon atoms in its hydrophobic tail, which is attached to a 6-carbon ring. The low molecular weight of the compound also makes it highly fat-soluble, which means it easily diffuses across cell membranes. Retinoids are important biological molecules, which act in cell growth, epithelial cell growth and maturation, apoptosis and immunologic function, and are vital in embryonic life for organ development. It is also key for visual function. Retinoids like retinoic acid help to transform cell types from the proliferative profile to the maturation profile, by inducing differentiation. Retinoic acid is bound in the cell by cellular retinoic acid binding protein (CRABP) and inside the nucleus by two types of receptors, the retinoic acid receptor (RAR) and the retinoid X receptor (RXR). There are various biologically active forms of retinoic acid, and they isomerize under physiological conditions. The different isomers act on different receptors.

All retinoids have a variety of uses in visual and skin conditions, and in cancer therapeutics. A low vitamin A intake is associated with a higher cancer risk. Abnormal RA receptors are also linked to cancer development. Animal studies show that retinoids suppress cancerous changes. Human studies confirm that retinoid administration suppresses cancers of the breast, lung and liver; reverses premalignant changes and induces differentiation of the myeloid cell series in blood. All-trans RA, or tretinoin, is the most abundant natural isoform, and has been found to be an active agent against a wide range of cancers of the lung, brain, kidney, blood cells, lymphatic tissue, uterine cervix and skin. Another form of retinoic acid, called 9-cis retinoin, or isotretinoin, is also used in the treatment of skin lesions of Kaposi’s sarcoma, as well as for cancers of the breast and prostate. We Creative Proteome provides a sensitive LC (liquid chromatography)/MS/MS assay using selected reaction monitoring to quantify RA (retinoic acid), which is applicable to biological samples of limited size (10–20 mg of tissue wet weight), requires no sample