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Pro region engineering of nerve growth factor by deep mutational scanning enables a yeast platform for conformational epitope mapping of anti-NGF monoclonal antibodies.

Biotechnol Bioeng. 2018; 
Medina-Cucurella AV, Zhu Y, Bowen SJ, Bergeron LM, Whitehead TA,,.
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Codon Optimization pETconNK_cNGF, pETconNK_Aga2_cNGF, pETconNK_procNGF, and pETconNK Δ1,2-cNGF were prepared by cloning custom codon-optimized genes (GenScript, Piscataway, NJ) into pETconNK (Wrenbeck et al. Get A Quote

摘要

Nerve growth factor (NGF) plays a central role in multiple chronic pain conditions. As such, anti-NGF monoclonal antibodies (mAbs) that function by antagonizing NGF downstream signaling are leading drug candidates for non-opioid pain relief. To evaluate anti-canine NGF (cNGF) mAbs we sought a yeast surface display platform of cNGF. Both mature cNGF and pro-cNGF displayed on the yeast surface but bound conformationally sensitive mAbs at most 2.5-fold in mean fluorescence intensity above background, suggesting that cNGF was mostly misfolded. To improve the amount of folded, displayed cNGF, we used comprehensive mutagenesis, FACS, and deep sequencing to identify point mutants in the pro-region of canine NGF that p... More

关键词

conformational epitope mapping; deep mutational scanning; nerve growth factor; pro region; tanezumab; yeast display
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