Use the list below to choose the right tetracycline-inducible system for your research.
The only commercially available single-vector inducible mammalian expression systems that can deliver a 3–4 orders of magnitude difference in expression levels between induced and uninduced states
Obtain the tightest possible control of gene expression.
Express the Tet-On 3G transactivator in cells that silence the CMV promoter, e.g., hematopoietic cells and stem cells.
Establish tightly inducible expression of your gene of interest in dividing or nondividing cells.
Establish tightly inducible expression of your gene of interest in a broad range of dividing cell types.
Combine the tightest and most sensitive control of gene expression with the most advanced commercially available adenoviral vector system.
Simultaneous equivalent inducible expression of two proteins from the same bidirectional promoter; either a fluorescent protein reporter and your protein of interest, or two proteins of interest.
Simultaneous inducible expression of a protein of interest and a reporter protein (or two proteins of interest) from the same RNA transcript. Ideal for stable clone selection.
Simultaneous, equivalent inducible expression of two proteins from the same bidirectional promoter; either a fluorescent protein reporter and your protein of interest, or two proteins of interest.
Deliver tetracycline-inducible gene expression systems into the widest variety of cell lines, nondividing cells, stem cells, and tissues.
Combine the efficiency of retroviral gene transfer with the power of tetracycline-regulated gene expression.
Tightly controlled inducible expression is paired with an easy-to-use adenoviral system—as straightforward as cloning into any plasmid.
Track inducible miRNA expression with fluorescent protein markers.
Silence genes with inducible shRNAs.
Ready-made hosts for the Knockout Tet RNAi Systems H and P.
The only serum that is functionally tested to ensure optimum induction with tetracycline-inducible gene expression systems.
Rigorously tested, clonal cell lines that stably express our premium Tet-On 3G transactivator.
Induce high-level expression of your gene of interest by adding doxycycline to the culture of transfected cells.
Induce high-level expression of your gene of interest by removing doxycycline from the culture of transfected cells.
Ready-made hosts for Tet-inducible shRNA Systems H and P.
Detect Tet-On 3G, Tet-On Advanced, and Tet-Off Advanced proteins by Western blot.