Acyltransferase LovD as a Simvastatin Synthase: Mutational Deconvolution, Design, Substrate Scope and Immobilization

  1. García Marquina, Guillermo
Zuzendaria:
  1. Francisco Corzana López Zuzendaria
  2. Gonzalo Jiménez Oses Zuzendaria
  3. Fernando López Gallego Zuzendaria

Defentsa unibertsitatea: Universidad de La Rioja

Fecha de defensa: 2022(e)ko martxoa-(a)k 04

Epaimahaia:
  1. María José Hernáiz Gómez-Dégano Presidentea
  2. Francesca Peccati Idazkaria
  3. Juan Manuel Bolivar Bolivar Kidea
Saila:
  1. Química
Doktorego-programa:
  1. Programa de Doctorado en Química por la Universidad de La Rioja

Mota: Tesia

Gordailu instituzionala: lock_openSarbide irekia Editor

Laburpena

In this doctoral thesis, a systematic study of the acyltransferase enzyme LovD from the fungus Aspergillus terreus, which was previously modified by directed evolution for the improved production of the anti-cholesterol drug simvastatin from monacolinic acid J, is performed. First, an analysis of the features affecting the catalytic activity of the enzyme throughout the different rounds of directed evolution (competition between thioesterase, acyltransferase and hydrolase activities, inhibition by substrate and thermal stability), is described, and new variants with fewer mutations and comparable catalytic activities are designed. Second, a rational design of native LovD is performed using computational methods for sequence diversification and molecular dynamics. Then, the value of vinyl and para-nitrophenyl esters as efficient alternatives to thioesters as acyl donor agents is described. Finally, the immobilization of a designed LovD variant on different solid supports with different characteristics is accomplished, and the properties of the resulting biocatalysts are analyzed in detail using biophysical techniques. The conditions for the efficient synthesis of simvastatin using continuous flow reactors with potential interest for industrial production, were optimized.