2020-148 METHODS FOR PRODUCING D-TRYPTOPHAN AND SUBSTITUTE D-TRYPTOPHANS

UCLA researchers in the Department of Chemical and Biomolecular Engineering have developed a novel biochemical synthesis process to produce D-Tryptophan at high yield and 98% enantiomeric excess with peptide synthetase IvoA from recombinant yeast.

 

BACKGROUND:

D-tryptophans are important building blocks of many peptide-based pharmaceuticals. The common biocatalytic processes to synthesize D-tryptophan base on kinetic resolution by using an enantioselective enzyme and have a limited theoretical yield of 50%. The more recent dynamic kinetic resolution and stereoinversion reaction cascades improve the yield, but multiple steps are required to convert L-tryptophan to D-tryptophan. A more efficient method to produce D-tryptophan and simplify the L-D conversion will benefit the production of various pharmaceutical compounds.

 

INNOVATION:

UCLA researchers in the Department of Chemical and Biomolecular Engineering have developed a novel biochemical synthesis method using a single-module non-ribosomal peptide synthetase IvoA from Aspergillus nidulans to D-tryptophan. IvoA catalyzes ATP-dependent unidirectional stereoinversion of L-tryptophan to D-tryptophan. A recombinant yeast strain was modified to overexpress IvoA. The recombinant strain yielded free D-tryptophan at 10 mg/L after a 3-day culture, with a high enantiomeric excess of 98%. A library of substituted D-tryptophan analogues can be accessed by enzymatic reactions in vitro using recombinant IvoA purified from yeast.

 

POTENTIAL APPLICATIONS:

• Pharmaceutical production

• Dietary supplement

• Food processing

 

ADVANTAGES:

• High yield

• One step reaction

• High purity

 

DEVELOPMENT-TO-DATE:

Synthesis demonstrated on recombinant yeast and purified recombinant enzymes.

Patent Information:
For More Information:
Earl Weinstein
Associate Director of Business Development
eweinstein@tdg.ucla.edu
Inventors:
Yi Tang
Yang Hai