Back

Targeted mining of plastic-associated metagenomes uncovers a novel thermostable PETase expanding scaffold space for engineering

Rigkos, K.; Bezantakou, D.; Antoniadis, K.; Antonopoulou, I.; Zarafeta, D.; Skretas, G.

2026-07-10 biochemistry
10.64898/2026.07.10.737215 bioRxiv
Show abstract

Enzymatic depolymerization of polyethylene terephthalate (PET) has advanced rapidly, alongside a growing volume of publicly available metagenomic data from microbial communities under sustained selective pressure from plastic exposure. Reasoning that such environments may harbor underexplored polyester-active enzymes, we developed a targeted mining workflow that screens exclusively plastic-associated datasets through multi-step bioinformatic filtering--integrating catalytic-motif screening, disulfide-topology validation, structural-similarity scoring, and phylogenetic profiling--to recover high-confidence PETase candidates. Applied to 271 plastic-associated metagenomes, the pipeline yielded 21 non-redundant candidates, several of which combine the Type I catalytic motif (GHSMGGGG) with Type II-like extended loops and secondary disulfide bonds. Two candidates were experimentally confirmed as PET hydrolases; the more active, PET-KR1, is a thermostable enzyme (Tm = 66.5 {degrees}C) that depolymerizes PET across a broad temperature range, with markedly higher productivity on powdered than on film substrate. PET-KR1 achieved optimal depolymerization at 50 {degrees}C, yet at 60-65 {degrees}C, where total yields declined, the product pool was more strongly enriched in the terminal monomer TPA, suggesting that thermostability and substrate accessibility are the primary targets for further engineering. Molecular dynamics simulations revealed a conserved hydrophobic binding network around the catalytic serine, consistent with established PETase substrate-recognition modes, and rational disulfide engineering raised the melting temperature by 3.5 {degrees}C, confirming amenability to further optimization. Overall, PET-KR1 expands the scaffold space available for PETase engineering, while the discovery workflow, built entirely on publicly available tools and open-access data, provides a reproducible strategy for metagenomic mining of novel PET-degrading enzymes toward biocatalytic PET recycling.

Matching journals

The top 12 journals account for 50% of the predicted probability mass.

1
ACS Catalysis
18 papers in training set
Top 0.1%
7.9%
2
Applied and Environmental Microbiology
339 papers in training set
Top 1%
6.8%
3
Biochemistry
148 papers in training set
Top 0.5%
4.1%
4
ACS Synthetic Biology
287 papers in training set
Top 0.8%
4.1%
5
Communications Chemistry
48 papers in training set
Top 0.1%
4.1%
6
Nature Chemistry
42 papers in training set
Top 0.2%
4.1%
7
Nature Communications
5641 papers in training set
Top 32%
4.1%
8
Microbial Biotechnology
34 papers in training set
Top 0.2%
4.1%
9
Biomacromolecules
29 papers in training set
Top 0.1%
3.5%
10
Nature Chemical Biology
119 papers in training set
Top 0.9%
2.8%
11
JACS Au
43 papers in training set
Top 0.2%
2.7%
12
Protein Science
246 papers in training set
Top 2%
2.4%
50% of probability mass above
13
RSC Chemical Biology
39 papers in training set
Top 0.2%
2.4%
14
Microbial Cell Factories
27 papers in training set
Top 0.2%
2.4%
15
Chemical Science
73 papers in training set
Top 0.7%
2.1%
16
ChemBioChem
55 papers in training set
Top 0.5%
2.1%
17
Applied Microbiology and Biotechnology
32 papers in training set
Top 0.4%
2.1%
18
Nucleic Acids Research
1281 papers in training set
Top 8%
2.1%
19
Journal of Hazardous Materials
21 papers in training set
Top 0.2%
2.1%
20
Water Research
79 papers in training set
Top 0.6%
1.9%
21
ACS Chemical Biology
167 papers in training set
Top 1%
1.7%
22
Biotechnology and Bioengineering
53 papers in training set
Top 0.5%
1.5%
23
Synthetic and Systems Biotechnology
11 papers in training set
Top 0.1%
1.4%
24
PLOS ONE
5266 papers in training set
Top 52%
1.4%
25
Angewandte Chemie International Edition
93 papers in training set
Top 1%
1.1%
26
Proceedings of the National Academy of Sciences
2444 papers in training set
Top 34%
1.1%
27
Advanced Science
286 papers in training set
Top 7%
1.1%
28
Bioresource Technology
12 papers in training set
Top 0.2%
1.1%
29
Scientific Reports
3612 papers in training set
Top 69%
1.0%
30
eLife
5828 papers in training set
Top 62%
1.0%