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- Ab00804-1.1 Anti-MSP2 [6D8]
- Plasmodium faciparum
- Mouse IgG1
- Purified
- In Stock
- Ab00804-23.0 Anti-MSP2 [6D8]
- Plasmodium faciparum
- Rabbit IgG
- Purified
- In Stock
Recombinant monoclonal antibody to MSP2. Manufactured using AbAb’s Recombinant Platform with variable regions (i.e. specificity) from the hybridoma 6D8.
UniProt Accession Number of Target Protein: Q1WG90
Alternative Name(s) of Target: Merozoite surface protein 2
Immunogen: The 6D8 hybridoma cell line was generated from the fusion of Sp2/0 myeloma cells with spleen cells derived from female CBA mice immunized with polymeric recombinant 3D7 MSP2 (Ag1642) . The hybridoma was selected for its ability to bind monomeric and polymeric Ag1642 (3D7 & FC27) by ELISA.
Specificity: 6D8 reacts with both 3D7 and FC27 recombinant MSP2, and preferentially with monomeric MSP2. The antibody binds to an epitope found at the conserved N-terminal region consisting of the sequence FINNAYNMSIRRS (aa 11-23) - the binding affinity for this sequence is 6 nM. MSP2 is a highly expressed and intrinsically disordered GPI-anchored membrane protein which is categorized into 2 allelic families/polymorphisms: 3D7 and FC27.
Application Notes: 6D8 reacts strongly and equivalently with both 3D7 and FC27 recombinant MSP2 by ELISA. 6D8 gives weak and no IFA signal on the parasite (i.e. not recombinant) FC27 and 3D7 MSP2 respectively, due to its inaccessibility on the merozoite surface. 6D8 can be used to detect recombinant FC27 and 3D7 MSP2 which has been subjected to SDS-PAGE under non-reducing conditions. Parasite FC27 MSP reactivity with 6D8 is enhanced in western blots when carried out in reducing conditions. 6D8 can be used to detect MSP2 by immunofluorescence.
Antibody first published in:
Adda et al. Antigenic characterization of an intrinsically unstructured protein, Plasmodium falciparum merozoite surface protein 2. Infect Immun. 2012 Dec;80(12):4177-85. PMID:22966050
Note on publication:
Describes the generation of a panel of antibodies against MSP2. Binding analyses of both recombinant and native MSP2 was performed.