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Imject™ EDC mcKLH Spin Kit
The Thermo Scientific Imject EDC mcKLH Spin Kit contains packages of purified keyhole limpet hemocyanin carrier protein that enable simpleRead more
Catalog number 77671
Price (USD)
680.00
Each
Price (USD)
680.00
Each
The Thermo Scientific Imject EDC mcKLH Spin Kit contains packages of purified keyhole limpet hemocyanin carrier protein that enable simple preparation of highly effective immunogens with peptide antigens. This kit includes ready-to-use units of KLH carrier protein, optimized reaction buffers and trouble-free spin desalting columns for immunogen preparation using the EDC method.
KLH is the most popular and immunogenic carrier protein used for preparation of peptide antigens for immunization and antibody production. KLH preparations in phosphate buffer are ready for hapten-carrier conjugation via amine-reactive NHS-ester or glutaraldehyde crosslinking. Preparations in MES buffer are optimized for peptide-carrier conjugation via the carboxyl-reactive carbodiimide crosslinker called EDC (or EDAC).
Features Imject Mariculture KLH and kit:
• Convenient kit—contains lyophilized mcKLH (in MES buffer), EDC crosslinker and accessories components to easily prepare ready-to-use immunogens for injection
• High-yield conjugation—each molecule of KLH contains hundreds of primary amines available for coupling haptens via EDC or NHS ester crosslinkers
• Validated quality—purified and stabilized mariculture KLH maintains solubility in aqueous solutions, unlike traditional sources of the carrier protein
• Sustainable source—KLH is harvested from select populations of the mollusk Megathura crenulata (keyhole limpet) that are grown in mariculture, not extracted from wild populations
• Highly immunogenic—KLH has a high molecular mass (4.5 x 105 to 1.3 x 107 Daltons; aggregates of 350 and 390 kDa subunits) and elicits a stronger immune response than BSA or ovalbumin
Carrier proteins are large, complex molecules capable of stimulating an immune response upon injection. Successful production of antibodies specific to small antigens (i.e., peptides or drug compounds) requires that these haptens be covalently conjugated to a larger, more complex molecule (usually a protein) to make them immunogenic. Carrier proteins are chosen based on immunogenicity, solubility, and whether adequate conjugation with the carrier can be achieved.
Keyhole limpet hemocyanin (KLH) is widely used as a carrier protein for conjugation to haptens and other antigens to make them more immunogenic for the purpose of antibody production. Because of its large mass and complexity, KLH elicits a stronger immune response than other carrier proteins. Because the protein is derived from a mollusk, it is phylogenetically distant from mammalian species and less likely to produce antibodies that will cross-react with typical target samples in assays.
Imject Mariculture KLH (mcKLH) is KLH that has been harvested from limpets grown in mariculture rather than captured from the wild. Imject mcKLH provides the highest possible immunogenicity; it is purified and lyophilized in buffers that optimize its stability and solubility for hapten conjugation. As a large protein, KLH has hundreds of primary amines and carboxyl groups that can be targeted for conjugation with NHS-ester, EDC, and other crosslinking reagents.
The carbodiimide crosslinker EDC conjugates carboxyl-containing haptens (e.g., C-terminus of peptide antigens) to the highly immunogenic KLH carrier protein for immunization and antibody production. This method of immunogen preparation is ideal for peptide antigens with few or no aspartic and glutamic acid residues (carboxylates) and lysine residues (primary amines) within the central portion of the primary sequence. Because peptides contain both carboxylate and amines, EDC conjugation results in their becoming variously polymerized and randomly oriented in their linkage to the carrier protein. Typically, this results in a high level of antigen loading on the carrier protein as well as presentation in all possible orientations for antibody production. However, important (desired) epitopes within the antigen peptide sequence may be blocked by EDC-mediated conjugation if those regions contain primary amines (lysine residues) or carboxylates (aspartic and glutamic acid residues). In these cases, either use a homobifunctional amine-reactive crosslinker with the purified mcKLH in phosphate buffer or synthesize the peptide with a unique terminal cysteine and use a kit with Malemide-Activated mcKLH to prepare the carrier protein conjugate.
More Product Data
• Carrier protein activation and conjugation data for immunogen preparation
Related Products
Imject™ mcKLH (in PBS)
Imject™ mcKLH Subunits, High Purity Research Grade
Imject™ mcKLH (in MES Buffer)
Imject™ Purification Buffer Salts
KLH is the most popular and immunogenic carrier protein used for preparation of peptide antigens for immunization and antibody production. KLH preparations in phosphate buffer are ready for hapten-carrier conjugation via amine-reactive NHS-ester or glutaraldehyde crosslinking. Preparations in MES buffer are optimized for peptide-carrier conjugation via the carboxyl-reactive carbodiimide crosslinker called EDC (or EDAC).
Features Imject Mariculture KLH and kit:
• Convenient kit—contains lyophilized mcKLH (in MES buffer), EDC crosslinker and accessories components to easily prepare ready-to-use immunogens for injection
• High-yield conjugation—each molecule of KLH contains hundreds of primary amines available for coupling haptens via EDC or NHS ester crosslinkers
• Validated quality—purified and stabilized mariculture KLH maintains solubility in aqueous solutions, unlike traditional sources of the carrier protein
• Sustainable source—KLH is harvested from select populations of the mollusk Megathura crenulata (keyhole limpet) that are grown in mariculture, not extracted from wild populations
• Highly immunogenic—KLH has a high molecular mass (4.5 x 105 to 1.3 x 107 Daltons; aggregates of 350 and 390 kDa subunits) and elicits a stronger immune response than BSA or ovalbumin
Carrier proteins are large, complex molecules capable of stimulating an immune response upon injection. Successful production of antibodies specific to small antigens (i.e., peptides or drug compounds) requires that these haptens be covalently conjugated to a larger, more complex molecule (usually a protein) to make them immunogenic. Carrier proteins are chosen based on immunogenicity, solubility, and whether adequate conjugation with the carrier can be achieved.
Keyhole limpet hemocyanin (KLH) is widely used as a carrier protein for conjugation to haptens and other antigens to make them more immunogenic for the purpose of antibody production. Because of its large mass and complexity, KLH elicits a stronger immune response than other carrier proteins. Because the protein is derived from a mollusk, it is phylogenetically distant from mammalian species and less likely to produce antibodies that will cross-react with typical target samples in assays.
Imject Mariculture KLH (mcKLH) is KLH that has been harvested from limpets grown in mariculture rather than captured from the wild. Imject mcKLH provides the highest possible immunogenicity; it is purified and lyophilized in buffers that optimize its stability and solubility for hapten conjugation. As a large protein, KLH has hundreds of primary amines and carboxyl groups that can be targeted for conjugation with NHS-ester, EDC, and other crosslinking reagents.
The carbodiimide crosslinker EDC conjugates carboxyl-containing haptens (e.g., C-terminus of peptide antigens) to the highly immunogenic KLH carrier protein for immunization and antibody production. This method of immunogen preparation is ideal for peptide antigens with few or no aspartic and glutamic acid residues (carboxylates) and lysine residues (primary amines) within the central portion of the primary sequence. Because peptides contain both carboxylate and amines, EDC conjugation results in their becoming variously polymerized and randomly oriented in their linkage to the carrier protein. Typically, this results in a high level of antigen loading on the carrier protein as well as presentation in all possible orientations for antibody production. However, important (desired) epitopes within the antigen peptide sequence may be blocked by EDC-mediated conjugation if those regions contain primary amines (lysine residues) or carboxylates (aspartic and glutamic acid residues). In these cases, either use a homobifunctional amine-reactive crosslinker with the purified mcKLH in phosphate buffer or synthesize the peptide with a unique terminal cysteine and use a kit with Malemide-Activated mcKLH to prepare the carrier protein conjugate.
More Product Data
• Carrier protein activation and conjugation data for immunogen preparation
Related Products
Imject™ mcKLH (in PBS)
Imject™ mcKLH Subunits, High Purity Research Grade
Imject™ mcKLH (in MES Buffer)
Imject™ Purification Buffer Salts
For Research Use Only. Not for use in diagnostic procedures.
Specifications
DescriptionImject EDC mcKLH Spin Kit
FormatKit
Quantity5 x 2 mg
Product LineImject™
Unit SizeEach
Contents & Storage
Sufficient For: 5 EDC conjugation reactions and complete immunogen preparations, each with up to 2 mg peptide
• Imject Mariculture KLH (in MES buffer), 5 x 2 mg
• Imject EDC Conjugation Buffer, 30 mL
• EDC Crosslinker, 5 x 10 mg
• Imject Purification Buffer Salts, 5 x 0.84 g
• Zeba Spin Desalting Columns, 7K MWCO, 2 mL, 5 columns
Store at 4°C.
• Imject Mariculture KLH (in MES buffer), 5 x 2 mg
• Imject EDC Conjugation Buffer, 30 mL
• EDC Crosslinker, 5 x 10 mg
• Imject Purification Buffer Salts, 5 x 0.84 g
• Zeba Spin Desalting Columns, 7K MWCO, 2 mL, 5 columns
Store at 4°C.