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Proteins, Peptides and Amino acids
Nucleic Acids
Saccharides and Organic Acids
  • Guidelines for Shodex Column Selection: Saccharides and Organic acids
    • Column Selection: by Elution
    • Explanation on Ligand Exchange Mode
    • Column Selection
  • Monosaccharides and Oligosaccharides
    • Elution Volume of Saccharides
    • Separation of Anomers
    • Comparison of Amino Column with Amide Column
    • Comparison of Columns with Different Counter Ions
    • Combination of Columns with Different Counter Ions
    • Elution Volume of Saccharides and Sugar Alcohols
    • Effect of Free BaseRatio of Amino Group on Plate Number
    • Effect of Acetonitrile Concentration on Elution Time (NH2P-50)
    • Effect of Acetonitrile Concentration on Elution Time (SZ5532)
    • Effect of Acetonitrile Concentration on Plate Number
    • Durability against Acidic Solvents
    • Durability against Alkaline Solvents
    • Durability against Eluent Composition Change
    • Effect of Polysaccharide Adsorption
    • Effect of Sample Solvent Composition
    • Effect of Sample Injection Volume
    • Effect of Flow Rate (SC1011)
    • Effect of Temperature (1)
    • Effect of Temperature (2)
    • Calibration Curves for Saccharides (NH2P-50)
    • Calibration Curves for Saccharides (SZ5532)
    • Comparison of NH2P with Silica-based Amino Column (1)
    • Comparison of NH2P with Silica-based Amino Column (2)
    • Monosaccharides (1)
    • Monosaccharides (2)
    • Monosaccharides (3)
    • Monosaccharides and Disaccharides (1)
    • Monosaccharides and Disaccharides (2)
    • Monosaccharides and Disaccharides (3)
    • Mono-, Di- and Trisaccharides (1)
    • Mono-, Di- and Trisaccharides (2)
    • Saccharides in Agricultural Products
    • Saccharides in Wood
    • Palatinose in Food
    • Worcester Sauce
    • Yogurt: Sugar added (SP0810)
    • Yogurt: Sugar added (NH2P-50)
    • Sweet Potato, roasted (NH2P-50)
    • Sweet Potato, roasted (SP0810)
    • Soybean Flour
    • Milk Coffee
    • Jelly
    • Bread
    • Raspberry Jam
    • Candy
    • Lactic acid Beverage and Fermented Milk
    • Orange and Melon
    • Orange Juice
    • Chocolate Cake (NH2P-50)
    • Chocolate Cake (SZ5532)
    • Maltose and Isomaltose
    • Saccharide Analysis Using Semi-micro Column
    • Saccharides in Powdered Milk
    • Glucose Derivatives
    • Extract of Wheat Rod
    • Effect of Organic Solvent in Eluent
    • Saccharides in Food
    • Analysis of Soft Drinks (LC/MS)
    • Monosaccharides Composing Sugar Chain
    • Maltose and Nigerose
    • Sugar Separation in Presence of Na salt (DC-613)
    • Meglumine (NN-414)
    • Heptulose Separation (KS-801)
  • Oligosaccharides
    • Hydrolyzed Dextran (1)
    • Hydrolyzed Dextran (2)
    • Hydrolyzed Dextran (3)
    • Isomalto-oligosaccharides
    • Hydrolyzed Dextran (5)
    • Maltooligosaccharides
    • N-Acetyl-Chitooligosaccharides
    • Chitosan-oligosaccharides (Chitooligosaccharides) (1)
    • Chitosan-oligosaccharides (Chitooligosaccharides) (2)
    • Cyclodextrins
    • Oligosaccharides and Sugar Alcohols
    • Short-Chain Amylose (1)
    • Short-Chain Amylose (2)
    • Hydrolyzed Starch (2)
    • Sweetener
    • Effect of Flow Rate (SC1211)
    • Fructooligosaccharide Syrup
    • Starch Syrup
    • Dietary Fiber
    • Analysis of Flucto-oligo Sugar Components (KS-802+KS-801)
  • Acid Saccharides, Phosphorylated Saccharides
    • Oligogalacturonic Acids
    • Phosphorylated Saccharides (1)
    • Phosphorylated Saccharides (2)
    • Phytic acid
  • Saccharides
    • Separation of N-acetylneuraminic Acid and N-glycolyneuraminic Acid
  • Saccharides, Sugar Alcohols, Aminosugars and Amino Acids.
    • Sugar Alcohols (1) (SC1211)
    • Sugar Alcohols (2) (NH2P-50)
    • Sugar Alcohols (3) (KS-801)
    • Effect of Acetonitrile Concentration
    • Saccharides and Sugar Alcohols (1) (SZ5532)
    • Saccharides and Sugar Alcohols (2) (SP0810)
    • Saccharides and Sugar Alcohols (3) (SP0810)
    • Saccharides and Sugar Alcohols (4) (SC1011)
    • Saccharides and Sugar Alcohols (5) (SZ5532)
    • Saccharides and Sugar Alcohols (6) (NH2P-50)
    • Saccharides and Sugar Alcohols (7) NH2P, LC/MS
    • Amino Sugars
    • Saccharides and Amino Sugars (1)
    • Saccharides and Amino Sugars (2)
    • Saccharides and Amino Acids (1)
    • Saccharides and Amino Acids (2)
    • Mannitol
    • Palatinit (Isomalt)
    • Xilitol in Confectionery
    • Soft Drink Containing Erythritol
    • Apple Juice (NH2P-50)
    • Apple Juice (SC1011)
    • Sake (Japanese Rice Wine)
    • The comparison between NH2P-40 3E and its conventional type (NH2P-50 4E)
  • Saccharides and Organic Acids
    • Elution Volume of Saccharides and Organic Acids
    • Saccharides and Organic Acids (1)
    • Saccharides and Organic Acids (2)
    • Lactic acid and Acrylic acid
    • Calibration Curve for Saccharides and Organic Acids (SH1011)
    • Soft Drink
    • Analysis of Saccharides and Organic Acids (RI and UV Detector)
    • Fermentation By-products (Model Solution)
  • Saccharides and Sweetning agents(Additives for Foods)
    • Preservatives (1) (DS-613)
    • Preservatives (2) (DE-613)
    • Preservatives (4) (DE-413)
    • Acesulfame K
    • Sucralose
    • Food Yellow No.4 (Tartrazine)
    • Effect of Eluent pH on Analysis Result
    • Benzoates
    • Alkylbenzenes (1) (DS-613)
    • Alkylbenzenes (2) (DS-613)
    • Alkylbenzenes (4) (DE-413)
    • Polycyclic Aromatic Hydrocarbons
    • Phenols (2)
    • Chlorobenzenes
    • Iodobenzene Diacetate
    • Anilines
    • Perylene
    • Durability of ODP Column with Alkaline Eluent
    • Phenylenediamines
  • Polysaccharides
    • Calibration Curves for KS-800 Series
    • Calibration Curves for KS-800 Series (Column Combination)
    • Amylose
    • Carboxymethylcellulose (1)
    • Carboxymethylcellulose (2)
    • Hyaluronic Acid (1) (SB-805 HQ)
    • Hyaluronic Acid (2) (SB-806M HQ)
    • Hyaluronic Acid (3) (KS-807 vs SB-806 HQ)
    • Hyaluronic Acid (4) (SB-807 HQ)
    • Corn Starch (1) (Aqueous Eluent)
    • Corn Starch (2) (DMSO/DMF Eluent)
    • Chondroitin Sulfate A (KS-804)
    • Chondroitin Sulfate Na
    • Chondroitin Sulfate (SB-806M HQ)
    • Chitosan
    • Hydroxyethyl cellulose(1) SB-806M HQ
    • Pullulan and Oligosaccharides
    • Pullulan, Saccharides and Ethanol
    • Heparin (1) (SB-804 HQ)
    • Heparin (2) (SB-806M HQ)
    • Glycogen (1) (KS-806)
    • Glycogen (2) (SB-806M HQ)
    • Preparation of CS-Gulcan in Coix Seed
    • Inulin (1) (KS-806)
    • Inulin (2) (SB-806M HQ)
    • Mucin (SB-806M HQ)
    • Pectin (SB-806M HQ)
    • Sodium Alginate (SB-806M HQ)
    • Carrageenan (SB-806M HQ)
    • Keratan Sulfate (SB-806M HQ)
    • Hydrolyzed Starch (1)
  • High-sensitive, High-selective Analysis of Saccharides
    • Cyclodextrin in Plasma
    • Glucose
    • N-Acetylglucosamine and N-Acetylchitobiose
    • p-Nitrophenyl-galactoside, -glucoside and -mannoside
    • p-Nitrophenyl-glucopyranoside and -galactopyranoside
    • Mannose, Mannitol and Sorbitol
    • Pyridylamino Sugar Chain Analysis
  • Organic Acids
    • Effect of Flow Rate (RSpak KC-811)
    • Effect of Injection Volume (RSpak KC-811)
    • Effect of Sample Load (RSpak KC-811)
    • Effect of Column Temperature (RSpak KC-811)
    • Effect of Concentration of Eluent on Elution Volume
    • Effect of Column Temperature on Elution Volume (1)
    • Effect of Column Temperature on Elution Volume (2)
    • Effect of Acetonitrile in Eluent (1)
    • Effect of Acetonitrile in Eluent (2)
    • Effect of Reversed Phase Column on Elution Volume
    • Elution Volume of Aromatic Organic Acids
    • Elution Volume of Organic Acids (RSpak NN-814)
    • Elution Volume of Organic Acids (RSpak DE-413)
    • Comparison of Analysis of Organic Acids with 4 Kinds of Detectors(Standards)
    • Comparison of Analysis of Organic Acids with 4 Kinds of Detectors(Soy sauce)
    • Organic Acid Standards (1)
    • Organic Acid Standards (2)
    • Organic Acid Standards (3)
    • Organic Acid Standards (4) (DE-413)
    • Organic Acid Standards (5) (DE-213)
    • Di-carboxylic Acids
    • Analysis of Organic Acids (Eluent Conteinig Cyclodextrin)
    • Succinic Acid and Fumaric Acid
    • Citric Acid in Phosphoric Acid
    • Organic Acids in Phosphoric Acid
    • Organic Acids in Beer
    • Organic Acids in Soy Source
    • Organic Acids in Vinegar
    • Organic Acids and Vitamin C in Fruit Juice
    • Gluconic Acids
    • Sake (Japanese Rice Wine)
    • Organic Acids in White Wine
    • Oxalic Acid
    • Organic Acids in Liquid for Permanent Wave
    • Camphor and Benzoic Acid
    • Organic Acids in Soybean Paste
    • Organic Acids in Soy Sauce For Noodles
    • Cellooligosaccharides and Furfurals (SH1821)
    • Organic Acids analysis in Black-vinegar (KC-811)
  • Miscelleanous
    • Furfural and Guaiacol
    Drugs, Metabolites and Chiral Compounds
    Vitamins, Hormones and Lipids
    Pesticide Residue, Endocrine Disruptors and Environmental Poll
    Synthetic Polymers
    Anions and Cations
    Column Switching
    Other Applications
    NP & RP (Normal & Reversed Phase)
    SEC (Size Exclusion Chromatography)
    Saccharides & Organic Acids Analysis
    IEX (Ion Exchange Chromatography)
    IC (Ion Chromatography)
    HIC (Hydrophobic Interaction Chromatography)
    Affinity Chromatography
    Chiral Separation
    LC/MS & Rapid Analyses of Medicines
    Exclusive Use
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    Sweet Potato, roasted (NH2P-50)

    When analyzing saccharides in food, it is necessary to remove the substances besides saccharides before the analysis. This procedure is called as sample pre-treatment. Here, the analysis result of saccharides in food using Asahipak NH2P-50 4E is shown together with the sample pre-treatment procedure.

    (Sample pre-treatment for roast sweet potato)
    1) Make paste of the sample using a food-prcessor.
    2) Put 3g of the paste in a beaker and add 30mL of 50%(V/V) ethanol.
    3) Extract the substances from the paste using an ultrasonic vibrator for 30 minutes.
    4) Put the paste and ethanol in a 50mL messflask and add 50%(V/V) ethanol to make up a 50mL solution.
    5) Filtrate the solution with a paper filter(No.5B) to remove the paste.
    6) Take a part of filtrated solution and add the same volume of acetonitrile.
    7) Pass through a 0.45micron membrane filter before injecting into HPLC.


    Sample : Sweet potato, roasted, 20micro-L
    1. Fructose
    2. Glucose
    3. Sucrose
    4. Maltose

    Column       : Shodex Asahipak NH2P-50 4E (4.6mmID*250mm)
Eluent       : CH3CN/H2O=75/25
Flow rate    : 1.0mL/min
Detector     : Shodex RI
Column temp. : Room temp.(25°C)

     
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