Upcoming live webinar
Optimizing nucleic acid and antibody binding assays with SPR: Proven approaches and practical insights
User friendly
Maximize efficiency with a system that adapts to any skill level and has no need for a dedicated technician.
Low maintenance
Save time and money with a durable system that lowers your cost of owning SPR.
Real-time data
Enrich your analysis with real-time monitoring of binding that quantifies both affinity and kinetics.
ANALYSIS METHOD
Filter libraries based on binding rate and response.
HEAT MAP
See a visual overview of bind/ not-bind status.
GROUP BY
Filter ‘Bind’ candidates for viewing in a sensorgram.
DO NOT INCLUDE
Exclude erroneous data.
CAROUSEL VIEW
Efficiently navigate to the interaction of your choice.
Key features
Obtain high-quality data and publish with confidence using OpenSPR. For a fraction of the cost of existing solutions, OpenSPR provides real-time, label-free analysis of affinity and kinetics data for a wide range of biomolecular applications. Our unique nanotechnology-based sensors work seamlessly with an intuitive software interface and robust hardware to generate publication-quality data.
Obtain high-quality data and publish with confidence using OpenSPR. For a fraction of the cost of existing solutions, OpenSPR provides real-time, label-free analysis of affinity and kinetics data for a wide range of biomolecular applications. Our unique nanotechnology-based sensors work seamlessly with an intuitive software interface and robust hardware to generate publication-quality data.
Wednesday, Oct. 2 | 10 AM PDT / 1 PM EDT
Binding affinity measurements of nucleic acids and antibodies interacting with target proteins are important parts of the research processes involved in oncology, immunology, vaccine development, and other biomedical research areas. Developing reliable assays can be challenging, especially for researchers new to these techniques. This webinar will provide insights into efficient approaches for measuring biomolecular interactions using OpenSPR® , a label-free SPR platform known for its ease of use and cost-effectiveness.
Attendees will explore how OpenSPR has been successfully applied in a variety of life science research areas through peer-reviewed studies and real-world examples. We will offer practical tips for nucleic acid and antibody binding assays that can help researchers hit the ground running.
What you'll learn
- Practical applications and success stories of nucleic acid and antibody assays
- How to leverage OpenSPR for accurate binding affinity and kinetics measurements
Speakers
Upcoming live webinar
Optimizing nucleic acid and antibody binding assays with SPR: Proven approaches and practical insights
Wednesday, Oct. 2 | 10 AM PDT / 1 PM EDT
Binding affinity measurements of nucleic acids and antibodies interacting with target proteins are important parts of the research processes involved in oncology, immunology, vaccine development, and other biomedical research areas. Developing reliable assays can be challenging, especially for researchers new to these techniques. This webinar will provide insights into efficient approaches for measuring biomolecular interactions using OpenSPR® , a label-free SPR platform known for its ease of use and cost-effectiveness.
Attendees will explore how OpenSPR has been successfully applied in a variety of life science research areas through peer-reviewed studies and real-world examples. We will offer practical tips for nucleic acid and antibody binding assays that can help researchers hit the ground running.
What you'll learn
Practical applications and success stories of nucleic acid and antibody assays
--
How to leverage OpenSPR for accurate binding affinity and kinetics measurements
Speakers
Daryl Good, PhD
Sr. Staff Customer Success Scientist, Nicoya
Daryl has years of experience helping numerous researchers optimizing SPR experiments. Prior to joining Nicoya, Daryl was a lecturer at University of Guelph. He holds a Ph.D. in Biophysics from the University of Guelph.
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Meet OpenSPR
Eliza Hanson, PhD
Postdoctoral Research Associate, Rowan University
Eliza began her postdoctoral research position at Rowan University in June 2024 after defending her dissertation with honors in April 2024. Prior to this, she was part of Dr. Rebecca Whelan’s lab, where she continued her graduate work focused on characterizing the binding affinity of potential affinity reagents to cancer biomarker proteins.
Daryl Good, PhD
Sr. Staff Customer Success Scientist, Nicoya
Daryl has years of experience helping numerous researchers optimizing SPR experiments. Prior to joining Nicoya, Daryl was a lecturer at University of Guelph. He holds a Ph.D. in Biophysics from the University of Guelph.
Eliza Hanson, PhD
Postdoctoral Research Associate, Rowan University
Eliza began her postdoctoral research position at Rowan University in June 2024 after defending her dissertation with honors in April 2024. Prior to this, she was part of Dr. Rebecca Whelan’s lab, where she continued her graduate work focused on characterizing the binding affinity of potential affinity reagents to cancer biomarker proteins.