Novel Platform for Allosterically Modifying Enzyme Specificty

SUMMARY

• Fine tuning enzyme specificity is desired for industrial catalysis. Enzymes lacking structural characterization or favorable recombinant expression are not amenable to traditional directed evolution or de novo design approaches.
• “Monobodies” are synthetic binding proteins based off a human FN3 scaffold. When Monobodies bind allosterically near the enzyme active site, they can block undesired side reactions, thereby fine-tuning enzyme specificity.
• This platform for specificity enhancer generation uses a yeast or phage displayed Monobody library that can be biopanned against a target enzyme of interest. Screening for Monobodies that compete with substrate competitive inhibitors, but that are non-inhibitory themselves, provide an initial lead that can be further affinity matured.
• In a proof-of-concept, the platform was used to generate a Monobody that fine-tuned the specificity of a B-galactosidase so that it no longer catalyzed the formation of galacto-oligosaccharides (GOS) longer than tri-saccharides without impacting substrate conversion. Specifically, the Monobody reduced the amount of 4-saccharides produced from 8% to 2% of total sugar weight and GOS longer than 5-saccharides were reduced from 3% of total sugar weight to negligible weight.

FIGURE

ADVANTAGES

ADVANTAGES

• The enzyme does not need to be structurally or mechanistically characterized.
• The enzyme does not need to be amenable to recombinant expression.

APPLICATIONS

• Industrial chemical reaction engineering (Food, Biotechnology, Pharmaceuticals)

PUBLICATIONS

• Tanaka, S; et al. Monobody-mediated alteration of enzyme specificity. Nat Chem Biol. 2015 Oct; 11(1):762-4.

• PCT/US16/42516 with counterparts in Japan and the EU
• Tangible Property
• (Monobody libraries) For engineered Monobody variants with increased thermostability, see also: Thermonobodies (16-T-034)