μMACS™ and MultiMACS™ Streptavidin Kits
Magnetic protein isolation via biotinylated capture probes µMACS™ and MultiMACS™ Streptavidin Kits take advantage of the well-established MACS® Technology; thus, allowing fast and specific isolation of proteins and their interacting partners by utilizing µMACS Streptavidin MicroBeads and a biotinylated capture probe. The extremely small, superparamagnetic, and non-sedimenting µMACS MicroBeads are only about 50nm in diameter and instandly bind to their target, resulting in more captured target proteins per sample. Direct washing of magnetically-labeled proteins in a MACS Column reduces loss of target protein. The renowned in-column technology even facilitates purification of interacting partners and fragile molecular complexes (refer e.g. to Fig. 1). This technology is very useful for the identification and analysis of protein-protein interaction. The principle also works for protein interaction with nucleic acids, such as mRNA, DNA or viral sequences. Applications of µMACS and MultiMACS Streptavidin Kits: Analysis of protein-protein interaction1 Analysis of DNA-protein interaction2-5 Analysis of RNA-protein interaction6,7 Immunoprecipitation with biotinylated antibodies Isolation of microRNAs8 Virus isolation9 Phage10 and yeast1 display Low- to high-throughput applications The µMACS Streptavidin Kit was developed for manual, low-throughput applications with the µMACS Separator. The procedure can easily be upscaled with the MultiMACS Streptavidin Kits to a semi- or fully-automated, high-throughput processing of up to 96 samples in parallel by utilizing the MultiMACS 96 Separator. Columns For µMACS™ Streptavidin Kit: µ Column (included in the kit) For MultiMACS™ Streptavidin Kits: Multi-8 or Multi-96 Columns (included in the kits) Further information Isolation of infectious HIV-1 [PDF; 105,6 KB] Isolation of specific transcripts/RNAs [PDF; 107,3 KB] Isolation of specific tRNA molecules [PDF; 96,4 KB] Phage display [PDF; 95,8 KB] Isolation of RNA-binding proteins [PDF; 128 KB] Subtractive hybridization [PDF; 88,4 KB] Biotinylation of plasmids [PDF; 47,5 KB] µMACS™ Streptavidin Kit—tips & hints [PDF; 91,5 KB]		Figure 1 Overview: Specific protein isolation with µMACS Technology. Figure 2 Isolation of specific RNA binding proteins. A: Yeast extract was incubated with a full-length Mating Factor A2 mRNA bound to a 3'-biotinylated complementary ss-oligo and magnetically labeled with μMACS Streptavidin MicroBeads. The figure shows the silver-stained SDS gel. Four proteins with apparent molecular weights of 33, 44, 48 and 51 kDa were isolated, which bind specifically to the RNA sequence B: As a control a magnetically labeled mutant mRNA, missing the binding site for Mating Factor A2 binding proteins was used. The figure shows the silver-stained SDS gel and no specific proteins were isolated. (Courtesy of Dr. Allan Albig, Washington State University, U.S.A.). Figure A Figure B

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