The Unc93b1 mutagenesis library has been generated by Invitrogen. Briefly, the mouse Unc93b1 gene was optimized for the codon bias of Mus musculus and regions of very high (>80%) and very low (<30%) GC content have been avoided. The codon-optimized mouse Unc93b1 gene was C-terminally tagged with 3xFLAG (DYKDHDGDYKDHDIDYKDDDDK) and subjected to a triple-alanine scanning mutagenesis spanning sequences corresponding to tail and loop regions of the protein. The individual mutant constructs were cloned into a custom-made MSCV-based retroviral vector carrying an IRES-driven PuromycinR-T2A-mCherry double-selection. The library was provided as 204 individual plasmids.
Each Unc93b1 mutant was stably expressed in a RAW macrophage cell line in which both endogenous Unc93b1 alleles were disrupted by Cas9 genome editing. As expected, deletion of endogenous Unc93b1 led to lack of responses to nucleic acids and failure of TLR7 to traffic to endosomes (data not shown). To evaluate TLR function in cells expressing each mutant, we stimulated each line with ligands for TLR3, TLR7, and TLR9 (Unc93b1-dependent TLRs) and TLR4 (an Unc93b1-independent TLR) and measured TNFα production. RAW macrophages used for PolyIC and Flagellin stimulations were retrovirally transduced to express either TLR3-HA or TLR5-HA, respectively.
Each Unc93b1 mutant was stably expressed in a RAW macrophage cell line in which both endogenous Unc93b1 alleles were disrupted by Cas9 genome editing. As expected, deletion of endogenous Unc93b1 led to lack of responses to nucleic acids and failure of TLR7 to traffic to endosomes (data not shown). To evaluate TLR function in cells expressing each mutant, we stimulated each line with ligands for TLR3, TLR7, and TLR9 (Unc93b1-dependent TLRs) and TLR4 (an Unc93b1-independent TLR) and measured TNFα production. RAW macrophages used for PolyIC and Flagellin stimulations were retrovirally transduced to express either TLR3-HA or TLR5-HA, respectively.