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[ CAS No. 120595-80-4 ] {[proInfo.proName]}

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Chemical Structure| 120595-80-4
Chemical Structure| 120595-80-4
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Product Details of [ 120595-80-4 ]

CAS No. :120595-80-4 MDL No. :MFCD00153898
Formula : C14H16NNaO8 Boiling Point : -
Linear Structure Formula :- InChI Key :-
M.W : 349.27 Pubchem ID :-
Synonyms :
p-Acetamidophenyl β-D-glucuronide sodium salt;p-AAPG sodium salt;Paracetamol Glucuronide;4'-Hydroxyacetanilide Glucuronide;APAP Glucuronide;4-Acetamidophenol Glucuronide;Acetaminophen Glucuronide (sodium salt)
Chemical Name :Sodium (2S,3S,4S,5R,6S)-6-(4-acetamidophenoxy)-3,4,5-trihydroxytetrahydro-2H-pyran-2-carboxylate

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Technical Information

• 1,4-Addition of an Amine to a Conjugated Enone • 1,4-Addition of an Amine to a Conjugated Enone • Acetal Formation • Acyl Group Substitution • Add Hydrogen Cyanide to Aldehydes and Ketones to Produce Alcohols • Alcohol Syntheses from Aldehydes, Ketones and Organometallics • Alcohols are Weakly Basic • Alcohols as Acids • Alcohols Convert Acyl Chlorides into Esters • Alcohols from Haloalkanes by Acetate Substitution-Hydrolysis • Alcohols React with PX3 • Alcoholysis of Anhydrides • Aldehydes and Ketones Form Hemiacetals Reversibly • Aldol Addition • Alkene Hydration • Alkene Hydration • Amide Hydrolysis • Amide Hydrolysis • Amides Can Be Converted into Aldehydes • Amine Synthesis from Nitriles • Amine Synthesis from Nitriles • Amines Convert Acyl Chlorides into Amides • Amines Convert Esters into Amides • Appel Reaction • Azide Reduction by LiAlH4 • Azide Reduction by LiAlH4 • Base-Catalyzed Hydration of α,β -Unsaturated Aldehydes and Ketones • Basicity of Amines • Buchwald-Hartwig C-N Bond and C-O Bond Formation Reactions • Carboxylic Acids React with Alcohols to Form Esters • Chan-Lam Coupling Reaction • Chichibabin Reaction • Chloroalkane Synthesis with SOCI2 • Chromium Reagents for Alcohol Oxidation • Chugaev Reaction • Claisen Condensations Produce β-Dicarbonyl Compounds • Claisen Condensations Produce β-Dicarbonyl Compounds • Complex Metal Hydride Reductions • Convert Esters into Aldehydes Using a Milder Reducing Agent • Convert Haloalkanes into Alcohols by SN2 • Corey-Kim Oxidation • Decarboxylation of 3-Ketoacids Yields Ketones • Decomposition of Lithium Aluminum Hydride by Protic Solvents • Dess-Martin Oxidation • Diazotization Reaction • DIBAL Attack Nitriles to Give Ketones • Enamine Formation • Esters Are Reduced by LiAlH4 to Give Alcohols • Esters Hydrolyze to Carboxylic Acids and Alcohols • Ether Synthesis by Oxymercuration-Demercuration • Ether Synthesis by Oxymercuration-Demercuration • Ethers Synthesis from Alcohols with Strong Acids • Formation of an Amide from an Amine and a Carboxylic Acid • Formation of an Amide from an Amine and a Carboxylic Acid • Friedel-Crafts Alkylations Using Alcohols • Geminal Diols and Acetals Can Be Hydrolyzed to Carbonyl Compounds • Grignard Reagents Transform Esters into Alcohols • Grignard Reagents Transform Esters into Alcohols • Haloalcohol Formation from an Alkene Through Electrophilic Addition • Halogen and Alcohols Add to Alkenes by Electrophilic Attack • Halogen and Alcohols Add to Alkenes by Electrophilic Attack • Hemiaminal Formation from Amines and Aldehydes or Ketones • Hemiaminal Formation from Amines and Aldehydes or Ketones • HIO4 Oxidatively Degrades Vicinal Diols to Give Carbonyl Derivatives • Hofmann Elimination • Hofmann Rearrangement • Hydration of the Carbonyl Group • Hydride Reductions • Hydride Reductions of Aldehydes and Ketones to Alcohols • Hydride Reductions of Aldehydes and Ketones to Alcohols • Hydroboration-Oxidation • Hydroboration-Oxidation • Hydrolysis of Haloalkanes • Hydrolysis of Imines to Aldehydes and Ketones • Imine Formation from Amines and Aldehydes or Ketones • Jones Oxidation • Ketones Undergo Mixed Claisen Reactions to Form β-Dicarbonyl Compounds • Lawesson's Reagent • Leuckart-Wallach Reaction • Mannich Reaction • Martin's Sulfurane Dehydrating Reagent • Methylation of Ammonia • Methylation of Ammonia • Mitsunobu Reaction • Moffatt Oxidation • Nitrosation of Amines • Nomenclature of Ethers • Osmium Tetroxide Reacts with Alkenes to Give Vicinal Diols • Osmium TetroxideReacts with Alkenes to Give Vicinal Diols • Oxidation of Alcohols by DMSO • Oxymercuration-Demercuration • Peptide Bond Formation with DCC • Petasis Reaction • Preparation of Alcohols • Preparation of Alkenes by Dehydration of Alcohols • Preparation of Alkenes by Dehydration of Alcohols • Preparation of Alkoxides with Alkyllithium • Preparation of Amines • Preparation of Ethers • Preparation of LDA • Primary Ether Cleavage with Strong Nucleophilic Acids • Reactions of Alcohols • Reactions of Amines • Reactions of Benzene and Substituted Benzenes • Reactions of Ethers • Reactions with Organometallic Reagents • Reduction of an Amide to an Amine • Reduction of an Amide to an Amine • Reduction of an Ester to an Alcohol • Reduction of Carboxylic Acids by LiAlH4 • Reduction of Carboxylic Acids by Lithium Aluminum Hydride • Reduction of Carboxylic Acids by Lithium Aluminum Hydride • Reductive Amination • Reductive Amination • Ring Opening of an Oxacyclopropane by Lithium Aluminum Hydride • Ring Opening of Azacyclopropanes • Ring Opening of Azacyclopropanes • Ring Opening of Oxacyclobutanes • Ring Opening of Oxacyclopropane • Ritter Reaction • Sharpless Olefin Synthesis • Specialized Acylation Reagents-Carbodiimides and Related Reagents • Specialized Acylation Reagents-Ketenes • Specialized Acylation Reagents-Vilsmeier Reagent • Strecker Synthesis • Swern Oxidation • Synthesis of 2-Amino Nitriles • Synthesis of Alcohols from Tertiary Ethers • Synthesis of an Alkyl Sulfonate • The Nucleophilic Opening of Oxacyclopropanes • Thiazolium Salt Catalysis in Aldehyde Coupling • Thiazolium Salts Catalyze Aldehyde Coupling • Thiazolium Salts Catalyze Aldehyde Coupling • Transesterification • Ugi Reaction • Use 1,3-dithiane to Prepare of α-Hydroxyketones • Vicinal Anti Dihydroxylation of Alkenes • Williamson Ether Syntheses
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