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Ideonella sakaiensis
Marine Microorganisms: Evolution and Solution to Pollution Fu L Li1, Wang B1,2
Recent Advances in Biocatalysts Engineering for Polyethylene Terephthalate Plastic Waste Green Recycling
Microbes on a Bottle: Substrate, Season and Geography Influence Community Composition of Microbes Colonizing Marine Plastic Debris
Structure of the Plastic-Degrading Ideonella Sakaiensis Mhetase Bound to a Substrate
A Bacterium That Degrades and Assimilates Poly(Ethylene Terephthalate)
Enzymatic PET Degradation
Bacteria – Friend Or Foe?
Microbes on a Bottle: Substrate, Season and Geography Influence Community Composition of Microbes Colonizing Marine Plastic Debris
Rapid Evolution of Plastic-Degrading Enzymes Prevalent in the Global Ocean
Bacteria Gammaproteobacteria+
Enhancing Biodegradation Capabilities of the Ideonella
Microorganismos, Enzimas Y Perspectivas Futuras
1/4 Discovery of a Bacterium That Degrades and Assimilates Poly(Ethylene Terephthalate)
Science Journals
(Petase) in Green Microalgae Ji Won Kim1,2†, Su‑Bin Park1,2†, Quynh‑Giao Tran1,2, Dae‑Hyun Cho1, Dong‑Yun Choi1, Yong Jae Lee1* and Hee‑Sik Kim1,2*
Characterization and Engineering of a Two-Enzyme System for Plastics Depolymerization
Ideonella Sakaiensis Bacteria Pdf
Structural Insights Into Carboxylic Polyester-Degrading Enzymes and Their Functional Depolymerizing Neighbors
Top View
Pdf (747.52 K)
The Current State of Research on PET Hydrolyzing Enzymes Available for Biorecycling
How Plastic-Eating Bacteria Actually Work—A Chemist Explains 19 April 2018, by Emily Flashman
Resolutions Conf. A
Aan De Minister Van Infrastructuur En Waterstaat Drs. C. Van Nieuwenhuizen-Wijbenga Postbus 20901 2500 EX Den Haag
Journal of Microbiological Methods 185 (2021) 106222
The Expression and Confirmation of ISF6 4831, a Polyethylene Terephthalate Hydrolase Nathan A
Characterization and Engineering of a Plastic-Degrading Aromatic Polyesterase
What Organisms Other Than Ideonella Sakaiensis Have the Ability to Digest and Degrade PET? a Bioinformatics Project
Effects of Disposable PET Plastic Bottle Usage and Waste in America's
Downloads/Publications/ NPEC-Hybrid English 22-11-17 Digital.Pdf 12
Basic Characteristics of the Most Important Enzymes for Technological Applications Oxidoreductases
Plastics and Microplastics As Vectors for Bacteria and Human Pathogens
Plastic Recycling by Bio- Electrochemical Reactor (BER) Advantages of Bioelectrochemistry 1
Microbial Genes for a Circular and Sustainable Bio-PET Economy
Biotechnology Timeline
31St Annual Undergraduate Research, Scholarship and Creative Activities Conference
Tree Ltp All.Pdf
Polyethylene Bio-Degradation by Caterpillars of the Wax Moth Galleria Mellonella 1 2 Paolo Bombelli1, Christopher J. Howe1*
700Stemchallenge FINALISTS MAGAZINE 2021
Supporting Information For: Characterization and Engineering of a Two-Enzyme System for Plastics Depolymerization Table of Conte
Plastics on the Menu
The Ocean Genome and Future Prospects for Conservation and Equity LSE Research Online URL for This Paper: Version: Accepted Version
Polyethylene Bio-Degradation by Caterpillars of the Wax Moth Galleria Mellonella
Draft Genome Sequence of Ideonella Sp. Strain a 288, Isolated from an Iron- Precipitating Biofilm
Elucidation of the Draft Genome Sequence of Ideonella Azotifigens DSMZ21438 a Novel Aerobic Diazotroph of the Betaproteobacteria Isolated from Grass Rhizosphere Soil
The Ocean Genome and Future Prospects for Conservation and Equity
The Plastics Sunset and the Bio-Plastics Sunrise
Biochemical Characterisation of Ideonella Sakaiensis and the Influence of Culture Conditions on Plastic Degradation