Characterization and Homology Modeling of Catalytically Active Recombinant PhaC[sub.Ap] Protein from IArthrospira platensis/I

The cyanobacterium Arthrospira platensis contains PHA synthase Class III (PhaC[sub.Ap]), which can produce short chain length (SCL) PHB under nitrogen-depleted conditions. In this study, we cloned a gene encoding PhaC from A. platensis into Escherichia cloni[sup.®]10G cells to produce rPhaC[sub.Ap]...

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Veröffentlicht in:	Biology (Basel, Switzerland) Switzerland), 2023-05, Vol.12 (5)
Hauptverfasser:	Duangsri, Chanchanok, Salminen, Tiina A, Alix, Marion, Kaewmongkol, Sarawan, Akrimajirachoote, Nattaphong, Khetkorn, Wanthanee, Jittapalapong, Sathaporn, Mäenpää, Pirkko, Incharoensakdi, Aran, Raksajit, Wuttinun
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Schlagworte:	Biodegradation Biopolymers Plastics
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creator	Duangsri, Chanchanok Salminen, Tiina A Alix, Marion Kaewmongkol, Sarawan Akrimajirachoote, Nattaphong Khetkorn, Wanthanee Jittapalapong, Sathaporn Mäenpää, Pirkko Incharoensakdi, Aran Raksajit, Wuttinun
description	The cyanobacterium Arthrospira platensis contains PHA synthase Class III (PhaC[sub.Ap]), which can produce short chain length (SCL) PHB under nitrogen-depleted conditions. In this study, we cloned a gene encoding PhaC from A. platensis into Escherichia cloni[sup.®]10G cells to produce rPhaC[sub.Ap] protein. The Vmax, Km, and kcat values for β-3-hydroxybutyryl coenzyme A (3HB-CoA) of the purified rPhaC[sub.Ap] were investigated. Size-exclusion chromatography revealed that rPhaC[sub.Ap] exists as an active dimer. The overall fold and catalytic triad residues were predicted using the 3D structural model for rPhaC[sub.Ap]. These results are discussed with respect to the dimerization mechanism of PhaC[sub.Ap], which has not yet been clarified. Polyhydroxybutyrate (PHB) is a biocompatible and biodegradable polymer that has the potential to replace fossil-derived polymers. The enzymes involved in the biosynthesis of PHB are β-ketothiolase (PhaA), acetoacetyl-CoA reductase (PhaB), and PHA synthase (PhaC). PhaC in Arthrospira platensis is the key enzyme for PHB production. In this study, the recombinant E. cloni[sup.®]10G cells harboring A. platensis phaC (rPhaC[sub.Ap]) was constructed. The overexpressed and purified rPhaC[sub.Ap] with a predicted molecular mass of 69 kDa exhibited Vmax, Km, and kcat values of 24.5 ± 2 μmol/min/mg, 31.3 ± 2 µM and 412.7 ± 2 1/s, respectively. The catalytically active rPhaC[sub.Ap] was a homodimer. The three-dimensional structural model for the asymmetric PhaC[sub.Ap] homodimer was constructed based on Chromobacterium sp. USM2 PhaC (PhaC[sub.Cs]). The obtained model of PhaC[sub.Ap] revealed that the overall fold of one monomer was in the closed, catalytically inactive conformation whereas the other monomer was in the catalytically active, open conformation. In the active conformation, the catalytic triad residues (Cys151-Asp310-His339) were involved in the binding of substrate 3HB-CoA and the CAP domain of PhaC[sub.Ap] involved in the dimerization.
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In this study, we cloned a gene encoding PhaC from A. platensis into Escherichia cloni[sup.®]10G cells to produce rPhaC[sub.Ap] protein. The Vmax, Km, and kcat values for β-3-hydroxybutyryl coenzyme A (3HB-CoA) of the purified rPhaC[sub.Ap] were investigated. Size-exclusion chromatography revealed that rPhaC[sub.Ap] exists as an active dimer. The overall fold and catalytic triad residues were predicted using the 3D structural model for rPhaC[sub.Ap]. These results are discussed with respect to the dimerization mechanism of PhaC[sub.Ap], which has not yet been clarified. Polyhydroxybutyrate (PHB) is a biocompatible and biodegradable polymer that has the potential to replace fossil-derived polymers. The enzymes involved in the biosynthesis of PHB are β-ketothiolase (PhaA), acetoacetyl-CoA reductase (PhaB), and PHA synthase (PhaC). PhaC in Arthrospira platensis is the key enzyme for PHB production. In this study, the recombinant E. cloni[sup.®]10G cells harboring A. platensis phaC (rPhaC[sub.Ap]) was constructed. The overexpressed and purified rPhaC[sub.Ap] with a predicted molecular mass of 69 kDa exhibited Vmax, Km, and kcat values of 24.5 ± 2 μmol/min/mg, 31.3 ± 2 µM and 412.7 ± 2 1/s, respectively. The catalytically active rPhaC[sub.Ap] was a homodimer. The three-dimensional structural model for the asymmetric PhaC[sub.Ap] homodimer was constructed based on Chromobacterium sp. USM2 PhaC (PhaC[sub.Cs]). The obtained model of PhaC[sub.Ap] revealed that the overall fold of one monomer was in the closed, catalytically inactive conformation whereas the other monomer was in the catalytically active, open conformation. In the active conformation, the catalytic triad residues (Cys151-Asp310-His339) were involved in the binding of substrate 3HB-CoA and the CAP domain of PhaC[sub.Ap] involved in the dimerization.</description><identifier>ISSN: 2079-7737</identifier><identifier>EISSN: 2079-7737</identifier><identifier>DOI: 10.3390/biology12050751</identifier><language>eng</language><publisher>MDPI AG</publisher><subject>Biodegradation ; Biopolymers ; Plastics</subject><ispartof>Biology (Basel, Switzerland), 2023-05, Vol.12 (5)</ispartof><rights>COPYRIGHT 2023 MDPI AG</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>315,781,785,865,27928,27929</link.rule.ids></links><search><creatorcontrib>Duangsri, Chanchanok</creatorcontrib><creatorcontrib>Salminen, Tiina A</creatorcontrib><creatorcontrib>Alix, Marion</creatorcontrib><creatorcontrib>Kaewmongkol, Sarawan</creatorcontrib><creatorcontrib>Akrimajirachoote, Nattaphong</creatorcontrib><creatorcontrib>Khetkorn, Wanthanee</creatorcontrib><creatorcontrib>Jittapalapong, Sathaporn</creatorcontrib><creatorcontrib>Mäenpää, Pirkko</creatorcontrib><creatorcontrib>Incharoensakdi, Aran</creatorcontrib><creatorcontrib>Raksajit, Wuttinun</creatorcontrib><title>Characterization and Homology Modeling of Catalytically Active Recombinant PhaC[sub.Ap] Protein from IArthrospira platensis/I</title><title>Biology (Basel, Switzerland)</title><description>The cyanobacterium Arthrospira platensis contains PHA synthase Class III (PhaC[sub.Ap]), which can produce short chain length (SCL) PHB under nitrogen-depleted conditions. In this study, we cloned a gene encoding PhaC from A. platensis into Escherichia cloni[sup.®]10G cells to produce rPhaC[sub.Ap] protein. The Vmax, Km, and kcat values for β-3-hydroxybutyryl coenzyme A (3HB-CoA) of the purified rPhaC[sub.Ap] were investigated. Size-exclusion chromatography revealed that rPhaC[sub.Ap] exists as an active dimer. The overall fold and catalytic triad residues were predicted using the 3D structural model for rPhaC[sub.Ap]. These results are discussed with respect to the dimerization mechanism of PhaC[sub.Ap], which has not yet been clarified. Polyhydroxybutyrate (PHB) is a biocompatible and biodegradable polymer that has the potential to replace fossil-derived polymers. The enzymes involved in the biosynthesis of PHB are β-ketothiolase (PhaA), acetoacetyl-CoA reductase (PhaB), and PHA synthase (PhaC). PhaC in Arthrospira platensis is the key enzyme for PHB production. In this study, the recombinant E. cloni[sup.®]10G cells harboring A. platensis phaC (rPhaC[sub.Ap]) was constructed. The overexpressed and purified rPhaC[sub.Ap] with a predicted molecular mass of 69 kDa exhibited Vmax, Km, and kcat values of 24.5 ± 2 μmol/min/mg, 31.3 ± 2 µM and 412.7 ± 2 1/s, respectively. The catalytically active rPhaC[sub.Ap] was a homodimer. The three-dimensional structural model for the asymmetric PhaC[sub.Ap] homodimer was constructed based on Chromobacterium sp. USM2 PhaC (PhaC[sub.Cs]). The obtained model of PhaC[sub.Ap] revealed that the overall fold of one monomer was in the closed, catalytically inactive conformation whereas the other monomer was in the catalytically active, open conformation. In the active conformation, the catalytic triad residues (Cys151-Asp310-His339) were involved in the binding of substrate 3HB-CoA and the CAP domain of PhaC[sub.Ap] involved in the dimerization.</description><subject>Biodegradation</subject><subject>Biopolymers</subject><subject>Plastics</subject><issn>2079-7737</issn><issn>2079-7737</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNqVTsFKxDAUDKLgonv2-n5gu0lDN-yxFGX3ICyyNxF5bdP2SZpXkihU8N8t4sGrM4cZBmYYIe6UzLTey21N7LifVS4LaQp1IVa5NPuNMdpc_vHXYh3jm1xgZL7Tu5X4qgYM2CQb6BMTsQf0LRx4_NmDR26tI98Dd1BhQjcnatC5Gcom0YeFJ9vwWJNHn-A0YPUc3-usnF7gFDhZ8tAFHuFYhjQEjhMFhMlhsj5S3B5vxVWHLtr1r96I7OH-XB02PTr7Sr7jtJxb2NqRGva2oyUvTZFrpYpc6X8XvgEFWmA-</recordid><startdate>20230501</startdate><enddate>20230501</enddate><creator>Duangsri, Chanchanok</creator><creator>Salminen, Tiina A</creator><creator>Alix, Marion</creator><creator>Kaewmongkol, Sarawan</creator><creator>Akrimajirachoote, Nattaphong</creator><creator>Khetkorn, Wanthanee</creator><creator>Jittapalapong, Sathaporn</creator><creator>Mäenpää, Pirkko</creator><creator>Incharoensakdi, Aran</creator><creator>Raksajit, Wuttinun</creator><general>MDPI AG</general><scope/></search><sort><creationdate>20230501</creationdate><title>Characterization and Homology Modeling of Catalytically Active Recombinant PhaC[sub.Ap] Protein from IArthrospira platensis/I</title><author>Duangsri, Chanchanok ; Salminen, Tiina A ; Alix, Marion ; Kaewmongkol, Sarawan ; Akrimajirachoote, Nattaphong ; Khetkorn, Wanthanee ; Jittapalapong, Sathaporn ; Mäenpää, Pirkko ; Incharoensakdi, Aran ; Raksajit, Wuttinun</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-gale_infotracacademiconefile_A7523115213</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Biodegradation</topic><topic>Biopolymers</topic><topic>Plastics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Duangsri, Chanchanok</creatorcontrib><creatorcontrib>Salminen, Tiina A</creatorcontrib><creatorcontrib>Alix, Marion</creatorcontrib><creatorcontrib>Kaewmongkol, Sarawan</creatorcontrib><creatorcontrib>Akrimajirachoote, Nattaphong</creatorcontrib><creatorcontrib>Khetkorn, Wanthanee</creatorcontrib><creatorcontrib>Jittapalapong, Sathaporn</creatorcontrib><creatorcontrib>Mäenpää, Pirkko</creatorcontrib><creatorcontrib>Incharoensakdi, Aran</creatorcontrib><creatorcontrib>Raksajit, Wuttinun</creatorcontrib><jtitle>Biology (Basel, Switzerland)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Duangsri, Chanchanok</au><au>Salminen, Tiina A</au><au>Alix, Marion</au><au>Kaewmongkol, Sarawan</au><au>Akrimajirachoote, Nattaphong</au><au>Khetkorn, Wanthanee</au><au>Jittapalapong, Sathaporn</au><au>Mäenpää, Pirkko</au><au>Incharoensakdi, Aran</au><au>Raksajit, Wuttinun</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Characterization and Homology Modeling of Catalytically Active Recombinant PhaC[sub.Ap] Protein from IArthrospira platensis/I</atitle><jtitle>Biology (Basel, Switzerland)</jtitle><date>2023-05-01</date><risdate>2023</risdate><volume>12</volume><issue>5</issue><issn>2079-7737</issn><eissn>2079-7737</eissn><abstract>The cyanobacterium Arthrospira platensis contains PHA synthase Class III (PhaC[sub.Ap]), which can produce short chain length (SCL) PHB under nitrogen-depleted conditions. In this study, we cloned a gene encoding PhaC from A. platensis into Escherichia cloni[sup.®]10G cells to produce rPhaC[sub.Ap] protein. The Vmax, Km, and kcat values for β-3-hydroxybutyryl coenzyme A (3HB-CoA) of the purified rPhaC[sub.Ap] were investigated. Size-exclusion chromatography revealed that rPhaC[sub.Ap] exists as an active dimer. The overall fold and catalytic triad residues were predicted using the 3D structural model for rPhaC[sub.Ap]. These results are discussed with respect to the dimerization mechanism of PhaC[sub.Ap], which has not yet been clarified. Polyhydroxybutyrate (PHB) is a biocompatible and biodegradable polymer that has the potential to replace fossil-derived polymers. The enzymes involved in the biosynthesis of PHB are β-ketothiolase (PhaA), acetoacetyl-CoA reductase (PhaB), and PHA synthase (PhaC). PhaC in Arthrospira platensis is the key enzyme for PHB production. In this study, the recombinant E. cloni[sup.®]10G cells harboring A. platensis phaC (rPhaC[sub.Ap]) was constructed. The overexpressed and purified rPhaC[sub.Ap] with a predicted molecular mass of 69 kDa exhibited Vmax, Km, and kcat values of 24.5 ± 2 μmol/min/mg, 31.3 ± 2 µM and 412.7 ± 2 1/s, respectively. The catalytically active rPhaC[sub.Ap] was a homodimer. The three-dimensional structural model for the asymmetric PhaC[sub.Ap] homodimer was constructed based on Chromobacterium sp. USM2 PhaC (PhaC[sub.Cs]). The obtained model of PhaC[sub.Ap] revealed that the overall fold of one monomer was in the closed, catalytically inactive conformation whereas the other monomer was in the catalytically active, open conformation. In the active conformation, the catalytic triad residues (Cys151-Asp310-His339) were involved in the binding of substrate 3HB-CoA and the CAP domain of PhaC[sub.Ap] involved in the dimerization.</abstract><pub>MDPI AG</pub><doi>10.3390/biology12050751</doi></addata></record>
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subjects	Biodegradation Biopolymers Plastics
title	Characterization and Homology Modeling of Catalytically Active Recombinant PhaC[sub.Ap] Protein from IArthrospira platensis/I
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