Bioprocessing
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This advanced method offers an end-to-end solution developed around an advanced application, a specialized kit, or an analytical system. It delivers complete functional, ready-to-use protocols that are qualitatively and quantitatively assessed for consistency, executability, and repeatability, usually without needing to make any changes. It operates per batch size and is scalable to accommodate changing requirements.
Developing a robust process for manufacturing therapeutic mAbs poses many analytical challenges. This requires high-throughput methods with fast sample preparation, robust analytics, and easy data interpretation.
Here we present a fully automated workflow for sample preparation for middle-level analysis by LC-MS of mAbs directly from crude protein samples such as harvested cell culture fluid.

This basic method provides the core methodology for translating a workflow into OneLab-executable script(s) as an attempt to fully or semi-automate a specific procedure. It demonstrates the benefits of automation and highlights OneLab capabilities and best practices to promote solution adoption, helping transition from manual to a more automated approach. It can be used alone or serves as a building block for a more complex workflow and is easily adaptable to users' requirements.
Antibody purification is routinely performed in biopharmaceutical research. Here, we present a rapid automated Protein A-based antibody purification method using magnetic beads. The robust protocol ensures high antibody recovery.
The automation capabilities of the Andrew+ Pipetting Robot allow for the flexibility of processing samples up to 48 samples depending on throughput needs.

This basic method provides the core methodology for translating a workflow into OneLab-executable script(s) as an attempt to fully or semi-automate a specific procedure. It demonstrates the benefits of automation and highlights OneLab capabilities and best practices to promote solution adoption, helping transition from manual to a more automated approach. It can be used alone or serves as a building block for a more complex workflow and is easily adaptable to users' requirements.
High-throughput analytical platforms for the characterization of proteins produced at clone selection stage have also been increasingly on demand to facilitate the development of these biopharmaceuticals.
Here we present a fully automated workflow for sample preparation and LC-MS analysis of mAbs obtained directly from unrefined samples such as spent cell culture media including host cells protein.