Airdate: Thursday, August 11, 2022 Season: 9 Episode: 30
Guest: Bonnie Lun
In this episode of #ExpertAnswers, Dr. Bonnie Lun from Fortis Life Sciences discusses applications and advantages of using single-domain antibodies for diagnostic and therapeutic research, and highlights Fortis/Abcore's single-domain antibody discovery services.
For more information or to watch the webinar, click here.
Associated Webinar: Single-Domain Antibodies: A Promising New Tool for Diagnostic and Therapeutic Research
Similar Podcasts
#ExpertAnswers: Catherine Ewen on Setting Up DC and CD8⁺ T Cell Co-culture Experiments
Dr. Catherine Ewen from STEMCELL Technologies answers questions from a recent webinar where she describes how to set up DC and CD8⁺ T cell co-culture experiments and assess T cell proliferation and activity.
#ExpertAnswers: Lorcan Sherry and Aditya Pratapa on Analyzing Multiplex Immunofluorescence Images
Dr. Lorcan Sherry and Dr. Aditya Pratapa answer questions from a recent webinar where they present a novel workflow for analyzing multiplex immunofluorescence images.
#ExpertAnswers: Conor McCartin on Phage Display Technologies
Dr. Conor McCartin from ProteoGenix answers questions about the utilization of phage display in the development of human antibodies.
Related Content
The Translational Utility of Ultrasound and Photoacoustics in Head and Neck Oncology
Dr. Mukund Seshadri presents his interdisciplinary research on developing and evaluating ultrasound and photoacoustic imaging for oral oncology applications, with a focus on the prognostic utility of these methods in assessing treatment responses in head and neck cancer patients.
Assessing Antigen-Specific T-Cell Functionality with Dendritic Cell/CD8⁺ T Cell Co-culture
In this webinar, learn how to set up DC and CD8⁺ T cell co-culture experiments and assess T cell proliferation and killing activity.
A Ready-to-Analyze High-Plex Spatial Signature Development Workflow for Cancer Immunotherapy
In this webinar, Aditya Pratapa and Lorcan Sherry present a new workflow for analyzing multiplex immunoflurescence images.