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The enzyme MHETase is a hydrolase that cleaves 2-hydroxyethyl terephthalic acid to ethylene glycol and terephthalic acid. Discovered in 2016, this and
MHETase
Species of bacterium
two monomeric constituents by a lipid-anchored MHET hydrolase enzyme, or MHETase, on the cell's outer membrane. The overall mechanism of the PET plastic
Ideonella_sakaiensis
Class of enzymes
of MHETase enzyme to terephthalic acid and ethylene glycol. Laboratory experiments showed that chimeric proteins that artificially link a MHETase and
PETase
Ability of bacteria to break down plastic polymers
such as hydrolases and cutinases. Following the activity of enzymes like MHETase, molecules from PET degradation are taken up by active transport into bacterial
Plastic degradation by marine bacteria
Plastic_degradation_by_marine_bacteria
Chemical compound
terephthalate 1,2-dioxygenase. Combined with the previously known PETase and MHETase, a full pathway for PET plastic degradation can be engineered. Haynes,
Terephthalic_acid
Polymer
hydrolase enzymes depolymerize (break apart) PET. The enzymes are PETase and MHETase, which afford 2-hydroxyethyl terephthalic acid and then ethylene glycol
Polyethylene_terephthalate
Genus of bacteria
a low-grade PET film, the bacteria used two novel enzymes, PETase and MHETase, to decompose the plastic into two environmentally benign substances, which
Ideonella
Chemical compound
PET, as catalyzed by the enzyme PETase. It is substrate for the enzyme MHETase. H[O2CC6H4CO2C2H4]nOH + (n−1) H2O → n HO2CC6H4CO2C2H4OH Sheehan, Richard
2-Hydroxyethyl terephthalic acid
2-Hydroxyethyl_terephthalic_acid
Decomposition by living organisms
the bacterium, PETase, has been genetically modified and combined with MHETase to break down PET faster, and also degrade PEF. In 2021, researchers reported
Biodegradation
description of synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonella sakaiensis – for faster depolymerization of PET and also of
Timeline_of_biotechnology
Economic activity focused on biotechnology
description of synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonella sakaiensis – for faster depolymerization of PET and also of
Bioeconomy
Overview of the events of 2020 in science
description of synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonella sakaiensis – for faster depolymerization of PET as well as
July–September 2020 in science
July–September_2020_in_science
description of synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonella sakaiensis – for faster depolymerization of PET as well as
2020_in_science
description of synergistic enzymes – PETase, first discovered in 2016, and MHETase of Ideonella sakaiensis – for faster depolymerization of PET as well as
2020 in the environment and environmental sciences
2020_in_the_environment_and_environmental_sciences
MHETASE
MHETASE
MHETASE
MHETASE
Biblical
lantern; light that sleeps
Boy/Male
Hebrew American
Eree.
Boy/Male
Hindu, Indian
The Royal Guard
Boy/Male
Indian
Eminent, Exalted, High, Sublime, Similar
Boy/Male
Gaelic
Fierce.
Boy/Male
Hindu
Lord Shiva name
Boy/Male
Tamil
Lord of Om
Surname or Lastname
English (Devon)
English (Devon) : unexplained.Possibly an Americanized form of German Manz.
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Telugu
Life Giving
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Sanskrit, Telugu
Connection; Milan; Con-incidence
MHETASE
MHETASE
MHETASE
MHETASE
MHETASE