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786-1266Protein A is a cell-wall receptor which is present on cell wall of various starins of Staphyloccocus aureus. Protein A contains four high-affinity binding sites for interacting with the Fc region of immunoglobulin Gs of various species including
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786-902G-Biosciences' Protein A Magnetic Beads are Fe<sub>3</sub>O<sub>4</sub> beads coated with dextran to produce highly uniform, 1µm beads. Recombinant Protein A is covalently coupled to the dextran coat to produce an enhanced alternative to
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786-903G-Biosciences' Protein A Magnetic Beads are Fe<sub>3</sub>O<sub>4</sub> beads coated with dextran to produce highly uniform, 1µm beads. Recombinant Protein A is covalently coupled to the dextran coat to produce an enhanced alternative to
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786-828Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-826Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-996Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-827Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-824Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-825Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-283Immobilized Protein A is for binding the constant domains of immunoglobulin (Ig) molecules (seeFigure 1). Protein A is coupled to agarose beads by reductive amination method that provides high coupling efficiency for immunoglobulins and minimal
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786-904G-Biosciences' Protein G Magnetic Beads are Fe<sub>3</sub>O<sub>4</sub>beads coated with dextran to produce highly uniform, 1µm beads. Recombinant Protein G is covalently coupled to the dextran coat to produce an enhanced alternative to
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786-905G-Biosciences' Protein G Magnetic Beads are Fe<sub>3</sub>O<sub>4</sub>beads coated with dextran to produce highly uniform, 1µm beads. Recombinant Protein G is covalently coupled to the dextran coat to produce an enhanced alternative to