N-(3-Oxododecanoyl)-L-homoserine lactone
98%
- Product Code: 76464
Alias:
3-oxo-C12-HSL
CAS:
168982-69-2
| Molecular Weight: | 297.39 g./mol | Molecular Formula: | C₁₆H₂₇NO₄ |
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| EC Number: | MDL Number: | ||
| Melting Point: | Boiling Point: | ||
| Density: | Storage Condition: | -20°C |
Product Description:
This chemical plays a significant role in bacterial communication, particularly in quorum sensing, which is a process that allows bacteria to coordinate their behavior based on population density. It is commonly used in research to study and manipulate bacterial behaviors such as biofilm formation, virulence, and the production of secondary metabolites. In medical research, it is utilized to develop strategies for disrupting harmful bacterial activities, potentially leading to new treatments for bacterial infections. Additionally, it finds applications in agriculture, where it is explored for its potential to control plant pathogens by interfering with their signaling mechanisms, thereby improving crop health and yield. Its role in synthetic biology is also noteworthy, as it helps in designing engineered bacterial systems for various industrial and environmental applications.
Product Specification:
| Test | Specification |
|---|---|
| APPEARANCE | white to yellow solid |
| PURITY | 97.5-100 |
| Infrared spectrum | Conforms to Structure |
| NMR | Conforms to Structure |
Sizes / Availability / Pricing:
| Size (g) | Availability | Price | Quantity |
|---|---|---|---|
| 0.010 | 10-20 days | €181.51 |
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| 0.050 | 10-20 days | €579.88 |
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N-(3-Oxododecanoyl)-L-homoserine lactone
This chemical plays a significant role in bacterial communication, particularly in quorum sensing, which is a process that allows bacteria to coordinate their behavior based on population density. It is commonly used in research to study and manipulate bacterial behaviors such as biofilm formation, virulence, and the production of secondary metabolites. In medical research, it is utilized to develop strategies for disrupting harmful bacterial activities, potentially leading to new treatments for bacterial infections. Additionally, it finds applications in agriculture, where it is explored for its potential to control plant pathogens by interfering with their signaling mechanisms, thereby improving crop health and yield. Its role in synthetic biology is also noteworthy, as it helps in designing engineered bacterial systems for various industrial and environmental applications.
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