Raman active diyne-girder conformationally constrained p53 stapled peptides bind to MDM2 for visualisation without fluorophores.
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Trust & Context
- Original Title:
- Raman active diyne-girder conformationally constrained p53 stapled peptides bind to MDM2 for visualisation without fluorophores.
- Published In:
- RSC chemical biology, 6(3), 394-403 (2025)
- Authors:
- Morgan, Danielle C, McDougall, Laura, Knuhtsen, Astrid, Buetow, Lori, Steven, Craig F, Shepperson, Oscar A, Huang, Danny T, Hulme, Alison N, Jamieson, Andrew G
- Database ID:
- RPEP-12637
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Cite This Study
https://rethinkpeptides.com/research/RPEP-12637APA
Morgan, Danielle C; McDougall, Laura; Knuhtsen, Astrid; Buetow, Lori; Steven, Craig F; Shepperson, Oscar A; Huang, Danny T; Hulme, Alison N; Jamieson, Andrew G. (2025). Raman active diyne-girder conformationally constrained p53 stapled peptides bind to MDM2 for visualisation without fluorophores.. RSC chemical biology, 6(3), 394-403. https://doi.org/10.1039/d4cb00288a
MLA
Morgan, Danielle C, et al. "Raman active diyne-girder conformationally constrained p53 stapled peptides bind to MDM2 for visualisation without fluorophores.." RSC chemical biology, 2025. https://doi.org/10.1039/d4cb00288a
RethinkPeptides
RethinkPeptides Research Database. "Raman active diyne-girder conformationally constrained p53 s..." RPEP-12637. Retrieved from https://rethinkpeptides.com/research/morgan-2025-raman-active-diynegirder-conformationally
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Study data sourced from PubMed, a service of the U.S. National Library of Medicine, National Institutes of Health.
This study breakdown was produced by the RethinkPeptides research team. We analyze and report published research findings without making health recommendations. All interpretations are based solely on the published abstract and study data.