Robles-Martin_2026_J.Chem.Inf.Model__

Reference

Title : In Silico Optimization of a Bifunctional Lipase-Polyethylene Terephthalate (PET) Hydrolase for Enhanced PET and Lipid Hydrolysis - Robles-Martin_2026_J.Chem.Inf.Model__
Author(s) : Robles-Martin A , Vidal P , Munoz-Tafalla R , Gonzalez-Alfonso JL , Almendral D , Plou FJ , Ferrer M , Fernandez-Lopez L , Guallar V
Ref : J Chem Inf Model , : , 2026
Abstract :

Polyethylene terephthalate (PET) and lipid-rich waste pose urgent environmental challenges that need multifunctional biocatalysts. Lip(MRD9), a lidless lipase with natural PETase activity, exemplifies such a scaffold. Here, we used an integrated approach combining automated in silico mutagenesis (AsiteDesign), Protein Energy Landscape Exploration (PELE), and molecular dynamics (MD) simulations, structure-guided rational engineering, and bioprospecting of homologous sequences to improve the dual lipase-PETase activity of Lip(MRD9). Computational analyses pinpointed mutational hotspots extending the active-site binding region, guiding the creation of variants with better substrate binding and active-site geometry. Rationally engineered mutants such as RA18 and RA19, along with natural homologues, showed significant increases in PET breakdown (up to 2.8-fold) while maintaining or increasing lipase activity. Key design principles included aromatic substitutions that selectively expand subsite -I to boost PET affinity, surface charge adjustments, loop stabilization to promote substrate retention, and structural plasticity in evolutionary homologues that support dual reactivity. A comparison with natural homologues highlights the versatility of this scaffold for multifunctional uses. These findings demonstrate that designing lipase-derived PETases that effectively break down polyester while hydrolyzing lipids is achievable, providing a strong foundation for sustainable recycling of mixed PET-lipid waste streams.

PubMedSearch : Robles-Martin_2026_J.Chem.Inf.Model__
PubMedID: 42214808
Gene_locus related to this paper: bacpu-q6rsn0

Related information

Gene_locus bacpu-q6rsn0

Citations formats

Robles-Martin A, Vidal P, Munoz-Tafalla R, Gonzalez-Alfonso JL, Almendral D, Plou FJ, Ferrer M, Fernandez-Lopez L, Guallar V (2026)
In Silico Optimization of a Bifunctional Lipase-Polyethylene Terephthalate (PET) Hydrolase for Enhanced PET and Lipid Hydrolysis
J Chem Inf Model :

Robles-Martin A, Vidal P, Munoz-Tafalla R, Gonzalez-Alfonso JL, Almendral D, Plou FJ, Ferrer M, Fernandez-Lopez L, Guallar V (2026)
J Chem Inf Model :