SPL RF Feb 2023

EN_01553552_0444

30,00 EUR Private use
Making print for private purpose, storage in computer memory, no distribution rights.
40,00 EUR Internet - private use
Strictly for editorial, single use on a personal (nonprofit) web site, Internet portal, social media (Facebook, Instagram etc.), blog for 1 year. Not for resale. Maximum picture size 2000px.
75,00 EUR Internet commercial use
Strictly for editorial, single use on a commercial web site, Internet portal, social media (Facebook, Instagram etc.), blog for 1 year. Not for resale. Maximum picture size 2000px.
90,00 EUR Print use
Strictly for editorial, single use, inside of newspaper, magazine, book (including digital version), one edition, one single country. Not for resale.

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special instructions

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caption

Illustration of PET hydrolase (PETase, left) and MHET hydrolase (MHETase, right), two plastic-degrading enzymes from the bacterium Ideonella sakaiensis. I. sakaiensis was discovered in 2016 in sediment near a plastic bottle recycling facility in Japan. It is able to use the plastic polyethylene terephthalate (PET) as its primary energy source. PETase converts PET (top left) to the smaller molecule mono(2-hydroxyethyl) terephthalic acid (MHET, centre). MHET is then further broken down by MHETase to terephthalic acid (TPA, lower right) and ethylene glycol (centre right). The products of this degradation are environmentally harmless.

headline SPL RF Feb 2023

created date 2023-02-04

credit JUAN GAERTNER/Science Photo Library RF/East News

source Science Photo Library RF

byline JUAN GAERTNER

original transmission reference f0373627

weight 4,95MB

size 68cm x 51cm by 300dpi

keywords - Show

2-HYDROXYETHYL, 3D, ACID, ACTIVE, ARTWORK, BACKGROUND, BACTERIAL, BIOACCUMULATION, BIOCHEMICAL, BIOCHEMISTRY, BIODEGRADATION, BIOLOGICAL, BIOLOGY, BIOREMEDIATION, BIOTECHNOLOGY, BLUE, CATALYSIS, CATALYTIC, CGI, CONTAMINATION, DEGRADATION, DEGRADER, DEGRADERS, DEPOLYMERIZATION, DIGITALLY, EATING, ENGINEERING, ENVIRONMENT, ENVIRONMENTAL, ENZYMATIC, ENZYME, ETHYLENE, GAERTNER, GENERATED, GENETIC, GLYCOL, HYDROLASE, ILLUSTRATION, JUAN, MHET, MHETASE, MICROBIAL, MICROBIOLOGICAL, MICROBIOLOGY, MODEL, MOLECULAR, MOLECULE, MONO, monohydroxyethyl, NO-ONE, NOBODY, PAIR, PET, PETASE, PLASTIC, PLASTIC-EATING, POLLUTION, POLY, POLYETHYLENE, POLYMER, POLYMERISATION, PROTEIN, RECYCLING, SITE, SOLUTION, STRUCTURE, TEREPHTHALATE, TEREPHTHALIC,