
PNC-27
Research Peptide | Lyophilized Powder | Batch Tested
For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.
Product Overview
PNC-27 is a membrane-penetrating peptide containing a p53-derived domain fused to a membrane-residency signal, designed to target the HDM-2 protein at the surface of cancer cells. It is a tool compound in oncology cell research.
| Test | Result | Status |
|---|---|---|
| Purity | 98.3% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.6% | Passed ✓ |
Research Information
PNC-27 is used to study the selective disruption of the membrane of HDM-2-overexpressing cancer cells, which leads to necrotic cell death, and to investigate p53–HDM-2 interactions in cell-culture models, while sparing normal cells that express less membrane HDM-2. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.
PNC-27 Research & Studies
What is PNC-27?
PNC-27 is a synthetic membrane-penetrating peptide that fuses a p53-derived domain with a membrane-residency signal sequence. It serves as a specialized tool compound in oncology cell research for examining surface-expressed HDM-2 protein. Laboratory work centers on its behavior in cell-culture systems that model cancer-related membrane interactions. The peptide is supplied strictly for in-vitro and laboratory research use only.
Mechanism of Action
In experimental models, PNC-27 is studied for its capacity to bind HDM-2 displayed on the plasma membrane of certain cancer cell lines. This binding is investigated as a trigger for pore formation that compromises membrane integrity and promotes necrotic cell death pathways. Researchers compare outcomes in HDM-2-overexpressing cells versus cells with lower surface HDM-2 to map selectivity. The design also enables probing of p53–HDM-2 interaction dynamics under controlled culture conditions.
Primary Areas of Research
PNC-27 is employed to investigate selective membrane disruption in HDM-2-overexpressing cancer cells within cell-culture platforms. Key research themes include necrotic cell-death mechanisms, membrane pore architecture, and the differential response of cells based on surface HDM-2 density. Additional studies explore how the peptide illuminates p53–HDM-2 binding interfaces in vitro. These lines of inquiry remain confined to laboratory model systems.
Key Research Findings
Cell-based experiments have shown that PNC-27 can induce rapid membrane permeabilization and necrotic features specifically in models overexpressing membrane HDM-2. Parallel observations indicate that cells expressing comparatively low levels of surface HDM-2 exhibit reduced membrane disruption under identical conditions. Such findings support the peptide’s utility as a probe for HDM-2-dependent membrane vulnerability. All reported data derive from controlled in-vitro systems.
Research Handling & Considerations
PNC-27 should be handled according to standard laboratory peptide protocols, including cold storage and sterile reconstitution for cell assays. Investigators must account for its membrane-active character when selecting buffer conditions and exposure times. The compound is intended solely for in-vitro research and is not for human or animal consumption. Appropriate biosafety practices apply whenever cell-culture work involving PNC-27 is performed.
Frequently Asked Questions
PNC-27 is used to study selective membrane disruption and necrotic pathways in HDM-2-overexpressing cancer cell models while comparing responses in cells with lower surface HDM-2.
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