Bruce Posted July 11, 2015 Posted July 11, 2015 Hi everybody I have a question relating to the stability of sugar phosphates, particularly in aqueous solution I recently enquired about purchasing small quantities of sucrose6phosphate, glucose6phosphate & trelahose6phosphate (the latter being particularly resistant to oxidation as it has no reducing function). All of these come as alkaline dipotassium salts. The vendor recommends storage / transport at -20 C. Would this be citing overkill policy? Infact I don't really understand why sugar phosphates cannot sit in a pH buffered solution at room temp for years and never hydrolyse into the separate sugar and phosphate. With out the presence of a biological contamination, such as phosphatases, the what inherent properties of sugar phosphates make them 'unstable' (if there are any) and which specific mechanisms might cause diegredation, and how? Thanks, looking forward to your thoughts Bruce
Elite Engineer Posted July 14, 2015 Posted July 14, 2015 Think of the isomers that sugars generate. (Glucose-6-phoshate ---> fructose-6-phosphate) I would think this makes the molecule somewhat less stable, but not overwhelmingly unstable, just enough to cause a potential tranistion. -20 C is enough to prevent this, I guess. ~EE
BabcockHall Posted August 7, 2015 Posted August 7, 2015 (edited) Many monophosphate esters have a pH rate maximum near 4 for non enzymatic hydrolysis. Hydrolysis at 100 °C is pretty rapid, but obviously much slower at room temperature. At pH 7, it is even slower, but it is still not zero. Also microbial degradation is a problem, unless you are working with sterile solutions. Edited August 7, 2015 by BabcockHall
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