Drug discovery
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This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
Investigating the ACE inhibitory activity of active biomolecules is a valuable source of drugs for the treatment of cardiovascular diseases.
OneLab helps mitigate the effects of pipetting errors and variability during the assessment of ACE inhibition and IC50 determination. This allows for the delivery of more reliable and accurate data, while eventually accelerating biological discovery.
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.
Monitoring N-Glycosylation is increasingly applied in the development of biopharmaceuticals and the study of diseased cells. Glycan preparation is laborious, and analytical methods lack sensitivity.
GlycoWorks RapiFluor-MS accelerates N-glycan preparation while improving detection sensitivity. Repeatability and traceability are assured when paired with Waters Lab automation solutions.
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.
N-glycans affect the safety and efficacy of many therapeutic proteins and are routinely monitored for the quality of biotherapeutics.
Here, we present a complementary method for analyzing the complex N-glycans released from human chorionic gonadotrophin (hCG). The automated method provides a reproducible glycan profile and is suitable for commercial as well as research environments.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
Sandwich ELISA is the most robust and sensitive type of ELISA technique. ELISA protocols traditionally have a complex workflow that requires optimization to obtain accurate results with low analytical error.
To maximize accuracy and reproducibility, OneLab can guide you through your optimized protocol to ensure consistent pipetting throughout the assay and between sample replicates.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
Simple, one-step affinity purification of recombinant proteins using magnetic beads is an attractive option to explore optimal expression and analytical conditions, thereby accelerating the translation of research findings into practice.
The aim of OneLab is to streamline protein purification by integrating connected devices for magnetic separation as well as to ensure consistent pipetting.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
Modern sequencing technology requires precise and reliable DNA sample clean-up and size-selective purification to ensure accurate and consistent data.
Using the ProNex® size-selection chemistry, OneLab allows clean and error-free processing of your DNA samples with full traceability of individual pipetting actions.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
The expression level of specific receptors serves as a biomarker for pathological conditions. The quantitation of their number on target cells is very informative from a diagnostic and therapeutic perspective.
Consistent and repeatable sample preparation and staining of calibration beads and cells are ensured through accurate pipetting using OneLab, thereby minimizing variation in ABC assignments.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
This protocol streamlines filling Bio-Techne’s Simple Western™ pre-filled plate with the Chemiluminescence assay. OneLab’s automation with Andrew+ ensures precise setup, aligning with the same time efficiency and reproducibility found with Jess™ platform, powered by Simple Western™ technology.
Jess system and other Simple Western platforms offer a solution to quicker and better results than traditional Western blot and ELISA.
This example method provides a freely adjustable framework for measuring the adaptability of the OneLab environment to workflows from different application fields. It helps to understand various nuances of the code-free, universal protocol designer and provides general indications as to the feasibility of a project. Scripts generally require fine adjustment to correct for variables and support specific labware implementation.
The manufacturing of therapeutic IgG antibodies is a complex process that requires precise monitoring. A major issue to address in relation to IgG measurement is reproducibility.
The Valita®Titer assay combined with Andrew Alliance’s automation and OneLab software provides a standardized and traceable solution for fast and accurate IgG quantitation, thus mitigating the effect of user variability.
