Ideonella sakaiensis is a bacterium from the genus Ideonella and family Comamonadaceae capable of breaking down and consuming the plastic polyethylene terephthalate (PET) using it as both a carbon and energy source. The bacterium was originally isolated from a sediment sample taken outside of a plastic bottle recycling facility in Sakai City, Japan.[2]
^Yoshida S, Hiraga K, Takehana T, Taniguchi I, Yamaji H, Maeda Y, et al. (March 2016). "A bacterium that degrades and assimilates poly(ethylene terephthalate)". Science. 351 (6278): 1196–1199. Bibcode:2016Sci...351.1196Y. doi:10.1126/science.aad6359. PMID 26965627. S2CID 31146235.
^Yoshida S, Hiraga K, Takehana T, Taniguchi I, Yamaji H, Maeda Y, et al. (March 2016). "A bacterium that degrades and assimilates poly(ethylene terephthalate)". Science. 351 (6278): 1196–1199. Bibcode:2016Sci...351.1196Y. doi:10.1126/science.aad6359. PMID 26965627. S2CID 31146235.
"Discovery of a Bacterium that Degrades and Assimilates Poly(ethylene terephthalate) could Serve as a Degradation and/or Fermentation Platform for Biological Recycling of PET Waste Products" (PDF). Kyoto Institute of Technology (Press release). 30 March 2016.
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Ideonellasakaiensis is a bacterium from the genus Ideonella and family Comamonadaceae capable of breaking down and consuming the plastic polyethylene...
Ideonella is a genus of bacteria in the family Comamonadaceae. In 2016 I. sakaiensis was shown to degrade PET, a polymer widely used in food containers...
in a matter of days. The first PETase was discovered in 2016 from Ideonellasakaiensis strain 201-F6 bacteria found from sludge samples collected close...
This pair of enzymes, PETase and MHETase, enable the bacterium Ideonellasakaiensis to live on the plastic PET as sole carbon source. The first enzyme...
Nevertheless, it takes many months. In 2016, a bacterium named Ideonellasakaiensis was found to biodegrade PET. In 2020, the PET degrading enzyme of...
order to increase plastic biodegradation potential. For instance, Ideonellasakaiensis has been genetically modified to break down PET at faster rates....
1815 (nomen nudum) Cerioclepta Sodoffsky, 1837 Vindana Walker, 1866 Ideonellasakaiensis - a bacterium capable of breaking down polyethylene terephthalate...
plastic[citation needed]. Scientists are working on genetically engineering Ideonellasakaiensis to break down PET plastic at a faster rate in order to make it a...
flour beetle larvae, can likewise degrade polystyrene on its own. Ideonellasakaiensis and Comamonas testosteroni can degrade polyethylene terephthalate...
renewable production of food and green fuels. One of the organisms (Ideonellasakaiensis) that is able to break down PET (a plastic) into other substances...
Bacillus and Nocardia. Japanese scientists have isolated a bacterium Ideonellasakaiensis that possesses two enzymes which can break down the PET into smaller...
Year Title Label Ref 2016 Spell Books O1 ::: IdeonellaSakaiensis Them There Records 2017 treats 2! 2018 QUEER FLESH postgeography 2018 Nightbath DESKPOP...
clothing, and in carpets. The bacteria that produces this enzyme, Ideonellasakaiensis, was originally discovered and isolated in a recycling plant by a...
emissions in 2015 grew at their fastest rate on record. 11 March – Ideonellasakaiensis, the first species of bacteria able to degrade polyethylene terephthalate...
nanomachines modeled after a bacterium bioengineered to consume plastics, Ideonellasakaiensis. These nano-machines are able to decompose plastics dozens of times...
their solar-powered "Coagulation Filtration System" which utilizes Ideonellasakaiensis microbes to break down microplastics for drinking water. In 2023...
Aspergillus tubingensis, another fungus that can digest polyurethane Ideonellasakaiensis, a bacterium capable of breaking down PET Galleria mellonella, a...
synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonellasakaiensis – for faster depolymerization of PET as well as of PEF, which may...
In 2016, the team worked on isolating the genes in the bacterium Ideonellasakaiensis that allow it to consume the plastic PET, and introducing them into...
synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonellasakaiensis – for faster depolymerization of PET and also of PEF, which may be...
synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonellasakaiensis – for faster depolymerization of PET as well as of PEF, which may...