This strain carries the specialized pVDL9.3 plasmid, which is a high-stability vector designed for the long-term expression of therapeutic genes. It is engineered to remain inside the bacteria even in the absence of antibiotic selection pressure, which is critical for use in the human gut.
For Research Use Only. Not intended for use in food manufacturing or medical procedures (diagnostics or therapeutics). Do Not Use in Humans.
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Product Information
Product Overview
This strain carries the specialized pVDL9.3 plasmid, which is a high-stability vector designed for the long-term expression of therapeutic genes. It is engineered to remain inside the bacteria even in the absence of antibiotic selection pressure, which is critical for use in the human gut.
Target
Escherichia coli Nissle 1917
Applications
Used for the reliable delivery of drugs or vaccines in the GI tract. The main advantage is plasmid stability, ensuring the bacteria don't "lose" their therapeutic instructions while living in a complex environment like the intestine.
Product Identity & Gene Details
Chassis Strain
Escherichia coli Nissle 1917
Target Gene(s)
pVDL9.3
Gene Function
A derivative plasmid often containing a "toxin-antitoxin" or "balanced-lethal" system that ensures the plasmid is passed down to every daughter cell during division.
Modification Type
Plasmid transformation (Stable expression vector)
Genetic Architecture
Selection Marker
Standard Antibiotic Marker or Markerless/Scarless (No resistance genes)
Delivery & Service Standards
Deliverables
Glycerol Stocks
Shipping Conditions
Dry Ice Shipping
Lead Time
4-8 weeks
Documents
Certificate of Analysis (COA) or Project Report
Verification
PCR Sequencing
Engineered Strain Recovery & Handling
Immediate Post-Delivery Steps
1. Transfer to Storage: Immediately transfer the cryovials to a -80°C ultra-low temperature freezer. 2. Avoid Fluctuations: Do not store the vials in a "frost-free" freezer, as the temperature cycles can damage the cell membranes of the engineered strains.
Strain Recovery Protocol
To ensure maximum viability, follow this standard recovery procedure: 1. Preparation: Prepare the appropriate selective agar medium (e.g., LB agar + specific antibiotic as listed in the COA). 2. Partial Thawing (The "Scratch" Method): * Place the cryovial on dry ice. Do not thaw the entire vial. Use a sterile inoculation loop or pipette tip to "scratch" a small amount of ice from the surface of the frozen stock. 3. Streaking: Streak the cells onto the selective agar plate to obtain single colonies. 4. Incubation: Invert the plate and incubate at the specified temperature (e.g., 37°C for E. coli or 30°C for S. cerevisiae) for 16-24 hours. 5. Subculturing: Pick a single, well-isolated colony to inoculate into liquid media for your experiments.
Usage Precautions & Best Practices
Antibiotic Pressure
1. Maintenance: For strains containing plasmids or specific resistance markers, always use the correct concentration of antibiotics in both solid and liquid media to prevent plasmid loss or contamination.
2. Markerless Strains: If the strain is a "scarless" integrated knockout, antibiotic pressure is not required for maintenance, but periodic genotypic verification is recommended.
Induction Conditions
1. If your strain uses an inducible promoter (e.g., T7/IPTG or Arabinose), ensure the culture reaches the optimal OD600 (typically 0.6-0.8) before adding the inducer. 2. Verify the optimal induction temperature, as engineered strains often produce better results at lower temperatures (e.g., 16-25°C) to prevent inclusion body formation.
Disposal
All waste (vials, tips, plates) must be autoclaved at 121°C for at least 20 minutes or chemically disinfected before disposal.
