Description
PNC‑27 is a synthetic peptide sequence modeled to bind selectively to cancer cell membranes in experimental settings. Preclinical investigations explore its unique interaction with HDM‑2–expressing cells and its potential role in targeted cytotoxicity research.
Key Benefits
– Targeted Cell Interaction — Studied for its ability to bind to HDM‑2 on cancer cell membranes in laboratory models.
– Selective Cytotoxicity — Evaluated for inducing membrane pore formation in malignant cells while sparing healthy cells in preclinical studies.
– Mechanistic Precision — Designed to mimic a p53‑derived sequence that interacts with HDM‑2, a protein often overexpressed in cancer cells.
– Research Versatility — Used across various in‑vitro and in‑vivo models exploring targeted peptide‑based cancer research.
– Innovative Peptide Engineering — Represents a novel class of peptides engineered for membrane‑disruptive activity in malignant cell lines.
Key Mechanisms or Components
PNC‑27 incorporates a p53‑derived HDM‑2–binding domain linked to a membrane‑penetrating leader sequence. Research indicates it may:
– Bind to HDM‑2 on cancer cell membranes – Promote pore formation leading to cell lysis in experimental models – Support exploration of targeted peptide therapeutics – Provide a platform for studying selective cytotoxic mechanisms
Why PNC‑27
PNC‑27 is widely referenced in early‑stage research for its selective targeting behavior, making it a compelling peptide for scientists investigating novel approaches to cancer‑cell–specific interactions and membrane‑disruptive mechanisms.
Disclaimer
For research purposes only. Not intended for human consumption, medical use, or therapeutic application. Always consult qualified scientific or medical professionals regarding proper laboratory handling and safety protocols.
Packaging
This listing includes a total of 10 vials, ideal for laboratories requiring consistent supply for extended research timelines. Each vial contains the full labeled quantity for controlled experimental use.
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