HILIC Analysis:
Affinity Chromatography Analysis:
- Superoxide Dismutase
- Fibrinogen
- Plasminogen
- Bovine gamma-Globulin (2) (APA-894)
- Human gamma-Globulin
- Human IgM
- Human Serum Albumin
- C-Reactive Protein
- Trypsin
- Adenosin Phosphates
- N-(3,5Dinitrobenzoyl)-DL-Phenyl Glycine
- Avidin
- Chymotrypsin
- Lysozyme (1)
- Fibronectin
- Albumin, Egg White
- Bovine Serum Albumin
- Biotin 4-Aminobenzoic Acid
- Glutathione S-Transferase
- Lactate Dehydrogenase
Amino Acid Analysis:
- Effects of Organic Solvent Concentration on HILIC Mode (NH2P-50 4B)
- Analysis of GABA Supplement (NH2P-50 4E)
- Analysis of Theanine in Supplement (NH2P-50 4E)
- Analysis of Theanine (NH2P-50 4E)
- Simultaneous Analysis of Amino Acids with LC/MS (VC-50 2D)
- LC/MS Analysis of Essential Amino Acids (NH2P-40 2D)
- Amino Acids (4) (YS-50)
- Amino Acids (2) (NN-814)
- Amino Acids (3) (P-421S)
- Carcinogenic Tryptophan Pyrolysis Products
- Dansyl Amino Acids
Fast Ion Exchange Analysis:
- Charge Variant Analysis of Cetuximab (2) (SP-FT 4A)
- Charge Variant Analysis of Trastuzumab (SP-FT 4A)
- Charge Variant Analysis of Cetuximab (SP-FT 4A)
- Ultra-rapid Analysis of Standard Proteins (SP-FT 4A)
- Effects of Flow Rate for Protein Analysis (SP-FT 4A)
- Ultra-rapid Analysis of Hemoglobin A, F, S and C (SP-FT 4A)
- Comparison between porous type DEAE-825 and non-porous type DEAE3N-4T
- Recovery of Protein (DEAE3N-4T and DEAE-825)
- Relation of sample load and HETP with ovalbumin
- Effect of pH on Elution Pattern (DEAE-825)
GFC Analysis:
- Analysis of Thymosin α1 (KW-802.5)
- High Molecular Weight Protein Analysis of Hemocyanin (KW405-4F)
- SEC/MALS Analysis of Norovirus VLP (SB-805 HQ)
- Comparison of IgG Separation with Conventional Device and Semi-micro Type Device (LW-403 4D)
- Comparison of Separation of Proteins with Conventional Device and Semi-micro Type Device (LW-403 4D)
- Determination of Particle Size Distribution of Hepatitis B Surface Antigen Virus-like Particle (HBsAg VLP) (KW405-4F)
- Durability Test by Number of Sample Injections (LW-403 4D)
- Comparison of SEC Separation of IgG between LW-403 4D and LW-803
- Comparison of SEC Separation of Standard Proteins between LW-403 4D and LW-803
- Calibration Curve for LW-403 4D (Proteins)
- Comparison of SEC Separation of Monoclonal Antibody
- Analysis of Lipoproteins in Serum (KW-804)
- Monitoring Papain Digestion of Humanized Monoclonal IgG (LW-803)
- Monitoring Papain Digestion of Humanized Monoclonal IgG (LW-803)
- Comparison of Separation of BSA Aggregates
- Calibration Curve for LW-803 (Proteins)
- Comparison of SEC Separation of Polyclonal Antibody
- Calibration Curves for LW-803 (Proteins)
- Comparison of SEC Separation of Standard Proteins
- Dimer and Trimer of BSA
- MALS Compatible Columns for Aqueous SEC (GFC): OHpak LB-800
- Analysis of Whey in Yogurt (KW403 4F + KW402.5 4F)
- Lectin Protein
- Peptide Analysis (SEC)
- Human IgM (2)
- Avidin (2)
- Human Control Serum
- Human serum
- Poly-Lysine
- Glycoprotein Avidin
- α₁ Acid glycoprotein, Orosomucoid
- Comparison of Chromatograms of Protein mixtures
- Standard Proteins (1) (KW-802.5)
- Standard Proteins (2) (KW-802.5 and KW-803)
- Standard Proteins (14) (KW-802.5)
- Standard Proteins (15) (KW-803)
- Standard Proteins (16) (KW-804)
- Standard Proteins (18) (KW-803)
- Standard Proteins (19) (KW-804)
- Standard Proteins (23) (GF-510 HQ)
- Recovery of Proteins (GF-310 HQ and GS-320 HQ)
- Recovery of Proteins (GF-510 HQ and GS-520 HQ)
- Recovery of Proteins (KW-803)
- Proteins in Human Serum (3) (KW-803)
- Dimer and Trimer of BSA
- Crude Albumin (Chicken Egg) (1) (KW-803)
- Crude Lipoxidase
- Crude Catalase
- Crude Hexokinase
- Human Serum (1) (SB-802 HQ)
- Effect of Injection Volume of Serum
- Tryptic Digest of Human IgG
- Sample Load (KW-803)
- Effect of Flow Rate (KW-802.5, KW-803)
Hydrophobic Interaction Analysis:
- Drug Antibody Ratio Analysis of Antibody-Drug Conjugate (ODP2 HP-4B)
- Recovery of Proteins and Enzyme Activity (PH-814)
- Effect of Sample Load on Peak Width(PH-814)
- Effect of Salt Concentration
- Standard Proteins (11) (PH-814)
- Lipoxidase from Soybean (2) (PH-814)
- Trypsin and Trypsinogen
Ion Exchange Analysis:
- Eluent Conditions for IEC-series and AXpak
- Ribonuclease A from Equine Pancreas (CM-825)
- Papain (SP-825)
- Effect of pH on Elution Pattern (SP-825)
- Standard Proteins (5) (QA-825)
- Standard Proteins (6) (ES-502N 7C)
- Standard Proteins (7) (CM-825, SP-825)
- Standard Proteins (8) (ES-502C 7C)
- Crude Albumin (Chicken Egg)
- Human Serum (4) (DEAE-825)
- Proteins in Human Serum (1) (QA-825)
- Proteins in Human Serum (2) (DEAE-825)
- Lipoxidase from Soybean (1) (QA-825, DEAE-825)
- Lipoxidase (1) (SP-825)
- Collagen and BSA
- beta Lactoglobulin Subfractions
- Angiotensin I, II, III
- Lysozyme Chloride (ES-502 7C)
- Cytochrome P450 in Rat Liver Microsome
- Myosin Subfragments (ES-502C 7C)
- Bovine Liver Catalase
- Purified Kallikrein from Pig Pancreas
- Recovery of Proteins and Enzyme Activity (QA-825)
- Recovery of Proteins and Enzyme Activity (DEAE-825)
- Recovery of Proteins and Enzyme Activity (SP-825)
- Recovery of Proteins and Enzyme Activity (CM-825)
- Effect of Sample Load on Resolution (QA-825)
- Effect of Sample Load on Peak Width (DEAE-825)
- Effect of Sample Load on Peak Width (SP-825)
- Effect of Sample Load on Resolution (CM-825)
Multimode Analysis:
- Lignosulfonic Acid Sodium Salt (GS-520 HQ)
- Metal Bonded Proteins in Plasma
- Peptides in Extract from Waste Water Sludge
- Crude Pronase E
- Endorphins
- Chymotrypsin-Hydrolysated Peptides of Ascidian 29K Protein
- Glutathione in Serum
- Features of Multimode Columns (Peptide Analysis)
- Calibration Curves for GS-520
- Standard Proteins (12) (GS-320 7G)
Reversed Phased Analysis:
- Analysis of Lactoferrin Concentrate According to Analytical Methods of Food Additives in Foods (C4P-50 4D)
- Analysis of Lactoferrin Supplement (C4P-50 4D)
- Analysis of Lactoferrin Concentrate According to Analytical Methods of Food Additives in Foods (C4P-50 4D)
- Analysis of Lactoferrin Supplement (C4P-50 4D)
- Comparison of the Features Among Shodex Reverse Phase Chromatography (RPC) Columns
- Repeatability for ODP-50 4E, A Polymer-based Column for Reversed Phase Chromatography, under Alkaline Conditions
- Advantages of ODP2 HP (4) Ability for Use with Low Salt Concentrations
- Advantages of ODP2 HP (5) Alkali Durability
- Advantage of ODP2 HP (2) High Retention of High Polarity Substances
- Advantage of ODP2 HP (3) High Removal Ability of Protein
- Opioid Peptides (1) (By Post-column Reaction Method) (ODP-50 6D)
- Opioid Peptides (2) (By Pre-column Reaction Method) (ODP-50 6D)
- Tryptic Digest of Myoglobin (2) (ODP-50)
- Whey Proteins (RP18-415)
- Analysis of Glutathiones (By Post-column Reaction Method)
- Effect of Sample Load on Theoretical Plate
- Standard Proteins (3) (RP18-415)
- Standard Proteins (4) (C4P-50 4D)
- Tryptic Digest of Myoglobin (1) (RP18-415)
- Comparison of Polymer-based Column with Silica-based Column
- Proteins and Peptides
- Recovery of Peptides
- Basic Peptides
- Effect of Eluent pH (ODP)
- Analysis of Oligopeptides with Acidic and Alkaline Eluent
- Comparison of Sample Retention Using ODP, C8P and C4P Columns
- High Molecular Weight Peptides
- Oligopeptides (1) (ODP-50 6D)
- Oligopeptides (2) (ODP-50 6D)
- Dipeptides
- Angiotensins