T
Thanyaporn Wongnate
Researcher at Mahidol University
Publications - 42
Citations - 1355
Thanyaporn Wongnate is an academic researcher from Mahidol University. The author has contributed to research in topics: Flavin group & Pyranose. The author has an hindex of 17, co-authored 32 publications receiving 856 citations. Previous affiliations of Thanyaporn Wongnate include King Mongkut's University of Technology Thonburi & University of Michigan.
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Journal ArticleDOI
Clinical validation of a Cas13-based assay for the detection of SARS-CoV-2 RNA.
Maturada Patchsung,Krittapas Jantarug,Archiraya Pattama,Kanokpol Aphicho,Surased Suraritdechachai,Piyachat Meesawat,Khomkrit Sappakhaw,Nattawat Leelahakorn,Theerawat Ruenkam,Thanakrit Wongsatit,Niracha Athipanyasilp,Bhumrapee Eiamthong,Benya Lakkanasirorat,Thitima Phoodokmai,Nootaree Niljianskul,Danaya Pakotiprapha,Sittinan Chanarat,Aimorn Homchan,Ruchanok Tinikul,Philaiwarong Kamutira,Kochakorn Phiwkaow,Sahachat Soithongcharoen,Chadaporn Kantiwiriyawanitch,Vinutsada Pongsupasa,Duangthip Trisrivirat,Juthamas Jaroensuk,Thanyaporn Wongnate,Somchart Maenpuen,Pimchai Chaiyen,Sirichai Kamnerdnakta,Jirawat Swangsri,Suebwong Chuthapisith,Yongyut Sirivatanauksorn,Chutikarn Chaimayo,Ruengpung Sutthent,Wannee Kantakamalakul,Julia Joung,Alim Ladha,Xin Jin,Jonathan S. Gootenberg,Omar O. Abudayyeh,Feng Zhang,Navin Horthongkham,Chayasith Uttamapinant +43 more
TL;DR: The specific high-sensitivity enzymatic reporter unlocking (SHERLOCK) assay detected severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) RNA with high sensitivity and specificity in hundreds of nasopharyngeal and throat swab samples collected at Siriraj Hospital in Thailand.
Journal ArticleDOI
The radical mechanism of biological methane synthesis by methyl-coenzyme M reductase.
Thanyaporn Wongnate,Dariusz A. Sliwa,Bojana Ginovska,Dayle M. A. Smith,Matthew W. Wolf,Nicolai Lehnert,Simone Raugei,Stephen W. Ragsdale +7 more
TL;DR: In this paper, transient kinetic, spectroscopic, and computational approaches were employed to study the reaction between the active Ni(I) enzyme and substrates, and there was no evidence for a methyl-Ni(III) species; furthermore, magnetic circular dichroism spectroscopy identified the Ni(II)-thiolate intermediate.
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The substrate oxidation mechanism of pyranose 2-oxidase and other related enzymes in the glucose–methanol–choline superfamily
TL;DR: The reaction of P2O is consistent with a hydride transfer mechanism in which there is stepwise formation of d‐glucose alkoxide prior to the hydridoxine 4‐oxidase, and this finding agrees with the current mechanistic model for aryl‐alcohol oxidase, glucose oxidationase, cellobiose dehydrogenase, methanol oxidase; but is different from that of cholesterol oxidase and choline oxidase.
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Enzymes, In Vivo Biocatalysis, and Metabolic Engineering for Enabling a Circular Economy and Sustainability.
Pattarawan Intasian,Kridsadakorn Prakinee,Aisaraphon Phintha,Duangthip Trisrivirat,Nopphon Weeranoppanant,Thanyaporn Wongnate,Pimchai Chaiyen +6 more
TL;DR: In this article, the current state of knowledge regarding the enzymatic reactions used in converting biobased wastes (lignocellulosic biomass, sugar, phenolic acid, triglyceride, fatty acid, and glycerol) and greenhouse gases (CO2 and CH4) into value-added products and discusses the current progress made in their metabolic engineering.
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Monooxygenation of aromatic compounds by flavin-dependent monooxygenases.
TL;DR: This review aims to provide an in‐depth discussion of the current mechanistic understanding of representative flavin‐dependent monooxygenases including 3‐hydroxy‐benzoate 4‐hydroxylase (PHBH, a single‐component hydroxyl enzyme), 3‐Hydroxyphenylacetate 4-hydroxyase (HPAH), and other mono oxygengenases which catalyze reactions in addition to hydroxyation.