2018
DOI: 10.1038/s41467-018-02881-1
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Structural insight into molecular mechanism of poly(ethylene terephthalate) degradation

Abstract: Plastics, including poly(ethylene terephthalate) (PET), possess many desirable characteristics and thus are widely used in daily life. However, non-biodegradability, once thought to be an advantage offered by plastics, is causing major environmental problem. Recently, a PET-degrading bacterium, Ideonella sakaiensis, was identified and suggested for possible use in degradation and/or recycling of PET. However, the molecular mechanism of PET degradation is not known. Here we report the crystal structure of I. sa… Show more

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Cited by 583 publications
(760 citation statements)
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“…DS2, which links the C-terminal loop and the last helix, is strictly conserved in all homologous structures [9]. This extended loop is proposed to yield a subsite to bind PET, while shorter loops found in homologous enzymes may hinder the subsite formation [12]. 3A).…”
Section: Unique Structural Features Of Petasementioning
confidence: 99%
See 4 more Smart Citations
“…DS2, which links the C-terminal loop and the last helix, is strictly conserved in all homologous structures [9]. This extended loop is proposed to yield a subsite to bind PET, while shorter loops found in homologous enzymes may hinder the subsite formation [12]. 3A).…”
Section: Unique Structural Features Of Petasementioning
confidence: 99%
“…The PETase-specific DS1, on the other hand, is located adjacent to the active site and connects the b7-a5 and b8-a6 loops that harbor the catalytic acid (D177) and catalytic base (H208), respectively (Fig. Interestingly, PET hydrolysis measured under reducing conditions and mutagenesis experiments indicate that DS1 depletion significantly reduces enzyme activity, suggesting that DS1 plays a critical role in PETase activity [9,[11][12][13]. In addition, the b8-a6 loop in PETase is three residues longer than that of other homologous enzymes (Fig.…”
Section: Unique Structural Features Of Petasementioning
confidence: 99%
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