Advance Your Hepatitis B Research with Our Pre-Made AAV-HBV Vectors
Our pre-made AAV-HBV vectors offer a reliable and efficient model for studying hepatitis B virus (HBV) infection and pathogenesis. By delivering a full-length HBV genome into the liver of HBV mice, these vectors enable the establishment of a chronic HBV infection, mimicking human disease.
Key Features:
- Persistent Infection: Induces a long-lasting HBV infection in mice.
- High-Level Viral Replication: Drives robust viral replication and antigen production.
- Diverse Applications: Suitable for studying viral pathogenesis, drug discovery, and vaccine development.
- High-Quality Production: Rigorously tested and quality-controlled to ensure optimal performance.
- Ready-to-Use: Our pre-made vectors are designed for immediate use, saving you time and effort.
AAV-HBV Vector Advantages:
- Superior Safety Profile:
- Low probability of genome integration
- Low immunogenicity
- High experimental safety
- Long-Term Gene Expression:
- Up to 10 years of transgene expression in non-human primates
- Tissue-Specific Targeting:
- AAV8 serotype specifically targets the liver, ideal for HBV modeling
The PackGene AAV-HBV Vector Difference:
- Low Empty Shell Rate: Less than 30% empty capsids
- Mycoplasma-Free: Ensures product purity and reduces contamination risks
- Comprehensive Quality Control: Rigorous testing and quality inspection reports
- Low Endotoxin Levels: Minimizes potential inflammatory responses in animal models
- High Purity and Titer: High-titer preparations (≥1E+13 GC/ml) for efficient gene delivery
Accelerate Your Hepatitis B Research
Our pre-made AAV-HBV vectors provide a powerful tool for advancing your understanding of HBV infection and developing novel therapies. By leveraging the advantages of AAV technology, you can achieve reliable and reproducible results.
Contact us today to discuss your research goals and explore our range of pre-made and custom AAV-HBV vectors.
Product Specifications
Promoter type |
Catalog No. |
Promoter and Gene |
EF1a | AAV-DR031 | ssAAV.EF1a- hM3Dq- mCherry- WP RE |
AAV-DR032 | ssAAV.EF1a- DIO-HA- hM3D(Gq)- IRES- mCitrine | |
AAV-DR034 | ssAAV.EF1a- HA- hM3D(Gq)- mCherry | |
AAV-DR035 | ssAAV.EF1a- hM3D(Gq)- mCherry | |
AAV-DR036 | ssAAV.EF1a- DIO- hM3D(Gq)- mCherry | |
AAV-DR038 | ssAAV.EF1a- DIO- rM3D(Gs)- mCherry | |
AAV-DR039 | ssAAV.EF1a- DIO- hM4D(Gi)- mCherry | |
AAV-DR0310 | ssAAV.EF1a- HA- hM4D(Gi)- mCherry | |
AAV-DR0311 | ssAAV.EF1a-DIO- mCherry | |
AAV-DR0312 | ssAAV.EF1a- dF-HA- KORD- IRES- mCitrine | |
AAV-DR0313 | ssAAV.EF1a-HA-KORD-IRES-mCitrine | |
AAV-DR0314 | ssAAV.EF1a-DIO-GFP | |
mOXT | AAV-DR391 | ssAAV.mOXT-hM3Dq-mCherry-WPRE |
AAV-DR392 | ssAAV.mOXT-DIO-HA-hM3D(Gq)-IRES-mCitrine | |
AAV-DR393 | ssAAV.mOXT-HA-hM3D(Gq)-IRES-mCitrine | |
AAV-DR394 | ssAAV.mOXT-HA-hM3D(Gq)-mCherry | |
AAV-DR396 | ssAAV.mOXT-DIO-hM3D(Gq)-mCherry | |
AAV-DR398 | ssAAV.mOXT-DIO-rM3D(Gs)-mCherry | |
AAV-DR3912 | ssAAV.mOXT-dF-HA-KORD-IRES-mCitrine | |
AAV-DR3913 | ssAAV.mOXT-HA-KORD-IRES-mCitrine | |
hSyn | AAV-DR101 | ssAAV.hSyn- hM3Dq-mCherry-WPRE |
AAV-DR102 | ssAAV.hSyn- DIO- HA- hM3D(Gq)- IRES- mCitrine | |
AAV-DR103 | ssAAV.hSyn- HA- hM3D(Gq)- IRES- mCitrine | |
AAV-DR104 | ssAAV.hSyn- HA- hM3D(Gq)- mCherry | |
AAV-DR106 | ssAAV.hSyn- DIO- hM3D(Gq)- mCherry | |
AAV-DR108 | ssAAV.hSyn-DIO-rM3D(Gs)-mCherry | |
AAV-DR109 | ssAAV.hSyn-DIO-hM4D(Gi)-mCherry | |
AAV-DR1011 | ssAAV.hSyn- DIO- mCherry | |
AAV-DR1012 | ssAAV.hSyn-dF-HA-KORD-IRES-mCitrine | |
AAV-DR1014 | ssAAV.hSyn.DIO.EGFP.WPRE.bGHpA | |
AAV-DR1015 | ssAAV.hSyn.DIO.EGFP.WPRE.SV40pA | |
CaMKlla | AAV-DR131 | ssAAV.CaMKlla- hM3Dq- mCherry- WPRE |
AAV-DR133 | ssAAV.CaMKIIa-HA-hM3D(Gq)-IRES-mCitrine | |
AAV-DR134 | ssAAV.CaMKIIa-HA-hM3D(Gq)-mCherry | |
AAV-DR135 | ssAAV.CaMKlla- hM3D(Gq)- mCherry | |
AAV-DR136 | ssAAV.CaMKlla- DIO- hM3D(Gq)- mCherry | |
AAV-DR138 | ssAAV.CaMKlla- DIO- rM3D(Gs)-mCherry | |
AAV-DR139 | ssAAV.CaMKlla- DIO- hM4D(Gi)-mCherry | |
AAV-DR1310 | ssAAV.CaMKlla- HA- hM4D(Gi)- mCherry |