Structural basis for the Ca2+-enhanced thermostability and activity of PET-degrading cutinase-like enzyme from Saccharomonospora viridis AHK190

A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an α/β hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are e...

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Published in	Applied microbiology and biotechnology Vol. 99; no. 10; pp. 4297 - 4307
Main Authors	Miyakawa, Takuya, Mizushima, Hiroki, Ohtsuka, Jun, Oda, Masayuki, Kawai, Fusako, Tanokura, Masaru
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.05.2015 Springer Berlin Heidelberg Springer Nature B.V
Subjects	active sites Analysis Binding Binding sites Biomedical and Life Sciences Biotechnologically Relevant Enzymes and Proteins Biotechnology calcium Calcium ions Conformation crystal structure Crystallography Cutinase enzymatic hydrolysis Enzymes Fungi Grooves ions Life Sciences Microbial Genetics and Genomics Microbiology mutants Physical properties Polyesters Polyethylene terephthalate polyethylene terephthalates Proteins Residues Saccharomonospora viridis Studies Textile fibers Thermal stability Thermostability AHK190 PET hydrolase activation Ca Cutinase-type polyesterase
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ISSN	0175-7598 1432-0614
DOI	10.1007/s00253-014-6272-8

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Abstract	A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an α/β hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are enhanced by high concentrations of calcium ions, which is essential for the efficient enzymatic hydrolysis of amorphous PET. Although Ca²⁺-induced thermostabilization and activation of enzymes have been well explored in α-amylases, the mechanism for PET-degrading cutinase-like enzymes remains poorly understood. We focused on the mechanisms by which Ca²⁺enhances these properties, and we determined the crystal structures of a Cut190 S226P mutant (Cut190S²²⁶ᴾ) in the Ca²⁺-bound and free states at 1.75 and 1.45 Å resolution, respectively. Based on the crystallographic data, a Ca²⁺ion was coordinated by four residues within loop regions (the Ca²⁺site) and two water molecules in a tetragonal bipyramidal array. Furthermore, the binding of Ca²⁺to Cut190S²²⁶ᴾinduced large conformational changes in three loops, which were accompanied by the formation of additional interactions. The binding of Ca²⁺not only stabilized a region that is flexible in the Ca²⁺-free state but also modified the substrate-binding groove by stabilizing an open conformation that allows the substrate to bind easily. Thus, our study explains the structural basis of Ca²⁺-enhanced thermostability and activity in PET-degrading cutinase-like enzyme for the first time and found that the inactive state of Cut190S²²⁶ᴾis activated by a conformational change in the active-site sealing residue, F106.
AbstractList	A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an [alpha]/[beta] hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are enhanced by high concentrations of calcium ions, which is essential for the efficient enzymatic hydrolysis of amorphous PET. Although Ca^sup 2+^-induced thermostabilization and activation of enzymes have been well explored in [alpha]-amylases, the mechanism for PET-degrading cutinase-like enzymes remains poorly understood. We focused on the mechanisms by which Ca^sup 2+^ enhances these properties, and we determined the crystal structures of a Cut190 S226P mutant (Cut190^sup S226P^) in the Ca^sup 2+^-bound and free states at 1.75 and 1.45 Å resolution, respectively. Based on the crystallographic data, a Ca^sup 2+^ ion was coordinated by four residues within loop regions (the Ca^sup 2+^ site) and two water molecules in a tetragonal bipyramidal array. Furthermore, the binding of Ca^sup 2+^ to Cut190^sup S226P^ induced large conformational changes in three loops, which were accompanied by the formation of additional interactions. The binding of Ca^sup 2+^ not only stabilized a region that is flexible in the Ca^sup 2+^-free state but also modified the substrate-binding groove by stabilizing an open conformation that allows the substrate to bind easily. Thus, our study explains the structural basis of Ca^sup 2+^-enhanced thermostability and activity in PET-degrading cutinase-like enzyme for the first time and found that the inactive state of Cut190^sup S226P^ is activated by a conformational change in the active-site sealing residue, F106. A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an α/β hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are enhanced by high concentrations of calcium ions, which is essential for the efficient enzymatic hydrolysis of amorphous PET. Although Ca 2+ -induced thermostabilization and activation of enzymes have been well explored in α-amylases, the mechanism for PET-degrading cutinase-like enzymes remains poorly understood. We focused on the mechanisms by which Ca 2+ enhances these properties, and we determined the crystal structures of a Cut190 S226P mutant (Cut190 S226P ) in the Ca 2+ -bound and free states at 1.75 and 1.45 Å resolution, respectively. Based on the crystallographic data, a Ca 2+ ion was coordinated by four residues within loop regions (the Ca 2+ site) and two water molecules in a tetragonal bipyramidal array. Furthermore, the binding of Ca 2+ to Cut190 S226P induced large conformational changes in three loops, which were accompanied by the formation of additional interactions. The binding of Ca 2+ not only stabilized a region that is flexible in the Ca 2+ -free state but also modified the substrate-binding groove by stabilizing an open conformation that allows the substrate to bind easily. Thus, our study explains the structural basis of Ca 2+ -enhanced thermostability and activity in PET-degrading cutinase-like enzyme for the first time and found that the inactive state of Cut190 S226P is activated by a conformational change in the active-site sealing residue, F106. A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an α/β hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are enhanced by high concentrations of calcium ions, which is essential for the efficient enzymatic hydrolysis of amorphous PET. Although Ca²⁺-induced thermostabilization and activation of enzymes have been well explored in α-amylases, the mechanism for PET-degrading cutinase-like enzymes remains poorly understood. We focused on the mechanisms by which Ca²⁺enhances these properties, and we determined the crystal structures of a Cut190 S226P mutant (Cut190S²²⁶ᴾ) in the Ca²⁺-bound and free states at 1.75 and 1.45 Å resolution, respectively. Based on the crystallographic data, a Ca²⁺ion was coordinated by four residues within loop regions (the Ca²⁺site) and two water molecules in a tetragonal bipyramidal array. Furthermore, the binding of Ca²⁺to Cut190S²²⁶ᴾinduced large conformational changes in three loops, which were accompanied by the formation of additional interactions. The binding of Ca²⁺not only stabilized a region that is flexible in the Ca²⁺-free state but also modified the substrate-binding groove by stabilizing an open conformation that allows the substrate to bind easily. Thus, our study explains the structural basis of Ca²⁺-enhanced thermostability and activity in PET-degrading cutinase-like enzyme for the first time and found that the inactive state of Cut190S²²⁶ᴾis activated by a conformational change in the active-site sealing residue, F106. A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member of the lipase family, which contains an α/β hydrolase fold and a Ser-His-Asp catalytic triad. The thermostability and activity of Cut190 are enhanced by high concentrations of calcium ions, which is essential for the efficient enzymatic hydrolysis of amorphous PET. Although Ca²⁺-induced thermostabilization and activation of enzymes have been well explored in α-amylases, the mechanism for PET-degrading cutinase-like enzymes remains poorly understood. We focused on the mechanisms by which Ca²⁺enhances these properties, and we determined the crystal structures of a Cut190 S226P mutant (Cut190S²²⁶ᴾ) in the Ca²⁺-bound and free states at 1.75 and 1.45 Å resolution, respectively. Based on the crystallographic data, a Ca²⁺ion was coordinated by four residues within loop regions (the Ca²⁺site) and two water molecules in a tetragonal bipyramidal array. Furthermore, the binding of Ca²⁺to Cut190S²²⁶ᴾinduced large conformational changes in three loops, which were accompanied by the formation of additional interactions. The binding of Ca²⁺not only stabilized a region that is flexible in the Ca²⁺-free state but also modified the substrate-binding groove by stabilizing an open conformation that allows the substrate to bind easily. Thus, our study explains the structural basis of Ca²⁺-enhanced thermostability and activity in PET-degrading cutinase-like enzyme for the first time and found that the inactive state of Cut190S²²⁶ᴾis activated by a conformational change in the active-site sealing residue, F106.
Author	Oda, Masayuki Tanokura, Masaru Ohtsuka, Jun Miyakawa, Takuya Kawai, Fusako Mizushima, Hiroki
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Snippet	A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member... A cutinase-like enzyme from Saccharomonospora viridis AHK190, Cut190, hydrolyzes the inner block of polyethylene terephthalate (PET); this enzyme is a member...
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SubjectTerms	active sites Analysis Binding Binding sites Biomedical and Life Sciences Biotechnologically Relevant Enzymes and Proteins Biotechnology calcium Calcium ions Conformation crystal structure Crystallography Cutinase enzymatic hydrolysis Enzymes Fungi Grooves ions Life Sciences Microbial Genetics and Genomics Microbiology mutants Physical properties Polyesters Polyethylene terephthalate polyethylene terephthalates Proteins Residues Saccharomonospora viridis Studies Textile fibers Thermal stability
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Title	Structural basis for the Ca2+-enhanced thermostability and activity of PET-degrading cutinase-like enzyme from Saccharomonospora viridis AHK190
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