The Bacteroidetes Aequorivita sp. and Kaistella jeonii Produce Promiscuous Esterases With PET-Hydrolyzing ActivityHongli Zhang, Wolfgang R. Streit, Julia Schumacher et al.|Frontiers in Microbiology|2022Cited by 62
Exploring the global metagenome for plastic-degrading enzymesPablo Pérez-García, Wolfgang R. Streit, Jennifer Chow et al.|Methods in enzymology on CD-ROM/Methods in enzymology|2021Cited by 40
The metagenome‐derived esterase <scp>PET40</scp> is highly promiscuous and hydrolyses polyethylene terephthalate ( <scp>PET</scp> )Hongli Zhang, Wolfgang R. Streit, A. Pablo et al.|FEBS Journal|2023Cited by 31
Bacteroidetal cold-active and promiscuous esterases play a significant role in global polyethylene terephthalate (PET) degradationHongli Zhang, Wolfgang R. Streit, Stefanie Sternagel et al.|Research Square|2021Cited by 7
The abundance of mRNA transcripts of bacteroidetal polyethylene terephthalate (PET) esterase genes may indicate a role in marine plastic degradationHongli Zhang, Wolfgang R. Streit, Thomas Schott et al.|Research Square|2021Cited by 3