"Yuki Miyahara,Marii Ishino,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Biosynthesis of polyhydroxyalkanoate copolymers consisting of ѓї-methylated monomer units from glucose and propionate: thermal properties and chiral configuration",,"Biotechnol. Sustainable Mater.",,"Vol. 1","  7",,2024,Aug.
"Maierwufu Mierzati,Yuki Miyahara,Blanche Curial,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Tacticity Characterization of Biosynthesized Polyhydroxyalkanoates Containing (S)- and (R)-3-Hydroxy-2-Methylpropionate Units",,"Biomacromolecules",,"  25",,"  444Ѓ|454",2024,Jan.
"Maierwufu Mierzati,Tetsuo Sakurai,Manami Ishii-Hyakutake,Yuki Miyahara,Christopher T Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Biosynthesis, characterization, and biodegradation of elastomeric polyhydroxyalkanoates consisting of ѓї-dimethylated monomer units",,"Mater. Today Sustain.",,"  24",,"  100577",2023,Dec.
"Yuki Miyahara,Tomoya Nakamura,Maierwufu Mierzati,Zihan Qie,Tomoki Shibasaka,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Thermal and crystallization properties of a polyhydroxyalkanoate binary copolymer containing 3-hydroxybutyrate and 3-hydroxy-2-methylvalerate units",,"Processes",,"Vol. 11","No. 7","  1901",2023,June
"Ramamoorthi M. Sivashankari,Maierwufu Mierzati,Yuki Miyahara,Shoji Mizuno,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Exploring Class I polyhydroxyalkanoate synthases with broad substrate specificity for polymerization of structurally diverse monomer units",,"Front. Bioeng. Biotechnol.",,"  11",,"  1114946",2023,Feb.
"Ceneviva Lucas V.S.,Maierwufu Mierzati,Yuki Miyahara,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Poly(3-mercapto-2-methylpropionate), a novel ѓї-methylated bio-polythioester with rubber-like elasticity, and its copolymer with 3-hydroxybutyrate: biosynthesis and characterization",,"Bioengineering",,"Vol. 9","No. 5","  228",2022,May
"Sho Furutate,Hideki Abe,Takeharu Tsuge","Thermal properties of poly(3-hydroxy-2-methylbutyrate-co-3-hydroxybutyrate) copolymers with narrow comonomer-unit compositional distributions",,"Polym J",,"Vol. 53",,"pp. 1451?1457",2021,Dec.
"Sho Furutate,Junichi Kamoi,Christopher T. Nomura,Seiichi Taguchi,Hideki Abe,Takeharu Tsuge","Superior thermal stability and fast crystallization behavior of a novel, biodegradable ѓї-methylated bacterial polyester",,"NPG Asia Materials",,"Vol. 13",,"  31",2021,Apr.
"Motosuke Imada,Yasumasa Takenaka,Takeharu Tsuge,Hideki Abe","Copolymers incorporated with ѓА-substituted acrylate synthesized by organo-catalyzed group-transfer polymerization",,"Polym J",,"Vol. 53",,"pp. 989?999",2021,
"Shaik Ling Ang,Ramamoorthi Sivashankari,Bakiah Shaharuddin,Jo-Ann Chuah,Takeharu Tsuge,Hideki Abe,Kumar Sudesh","Potential applications of polyhydroxyalkanoates as a biomaterial for the aging population",,"Polym Degrad Stabil",,"Vol. 181",,"  109371",2020,Nov.
"Motosuke Imada,Yasumasa Takenaka,Takeharu Tsuge,Hideki Abe","Effect of disyndiotacticity on the glass transition temperature of poly(ethyl crotonate)s synthesized by group-transfer polymerization catalyzed by organic acids",,"Macromolecules",,"Vol. 53","No. 18","pp. 7759?7766",2020,Aug.
"Motosuke Imada,Yasumasa Takenaka,Takeharu Tsuge,Hideki Abe","Kinetic modeling study of the group-transfer polymerization of alkyl crotonates using a silicon Lewis acid catalyst",,"Polym. Chem.",,"Vol. 11",,"pp. 5981-5991",2020,
"Motosuke Imada,Yasumasa Takenaka,Hidehito Hatanaka,Takeharu Tsuge,Hideki Abe","Unique acrylic resins with aromatic side chains by homopolymerization of cinnamic monomers",,"Communications Chemistry",,"Vol. 2",,,2019,Sept.
"Sho Furutate,Hitomi Nakazaki,Koki Maejima,Ayaka Hiroe,Hideki Abe,Takeharu Tsuge","Biosynthesis and characterization of novel polyhydroxyalkanoate copolymers consisting of 3-hydroxy-2-methylbutyrate and 3-hydroxyhexanoate",,"J. Polym. Res.",,"Vol. 24","No. 12","pp. 221",2017,Dec.
"Shoji Mizuno,Ayaka Hiroe,Toshiaki Fukui,Hideki Abe,Takeharu Tsuge","Fractionation and thermal characteristics of biosynthesized polyhydoxyalkanoates bearing aromatic groups as side chains",,"Polym J",,"Vol. 49",,"pp. 557?565",2017,July
"Kazunori Ushimaru,Shoji Mizuno,Ayako Honya,Hideki Abe,Takeharu Tsuge","Real-time observation of enzymatic polyhydroxyalkanoate polymerization using high-speed scanning atomic force microscopy",,"ACS Omega",,"Vol. 2",,"pp. 181-185",2017,Jan.
"Ayaka Hiroe,Naoki Ishii,Daisuke Ishii,Taizo Kabe,Hideki Abe,Tadahisa Iwata,Takeharu Tsuge","Uniformity of monomer composition and material properties of medium-chain-length polyhydroxyalkanoates biosynthesized from pure and crude fatty acids",,"ACS Sustainable Chem. Eng.",,"Vol. 4","No. 12","pp. 6905-6911",2016,
"Yoriko Watanabe,Koya Ishizuka,Sho Furutate,Hideki Abe,Takeharu Tsuge","Biosynthesis and characterization of novel poly(3-hydroxybutyrate-co-3-hydroxy-2-methylbutyrate): thermal behavior associated with alfa-carbon methylation",,"RSC Adv",,"Vol. 5",,"pp. 58679-58685",2015,July
"Manami Hyakutake,Satoshi Tomizawa,Imari Sugahara,Emi Murata,Kouhei Mizuno,Hideki Abe,Takeharu Tsuge","Carboxy-terminal modification of polyhydroxyalkanoate (PHA) via alcoholysis reaction catalyzed by Class IV PHA synthase",,"Polym Degrad Stab",,"Vol. 117",,"pp. 90-96",2015,July
"Takeharu Tsuge,Takashi Ko,Masako Tago,Hideki Abe","Effect of glycerol and its analogs on polyhydroxyalkanoate biosynthesis by recombinant Ralstonia eutropha: A quantitative structure - activity relationship study of chain transfer agents",,"Polym. Degrad. Stab.",,"Vol. 98","No. 9","pp. 1586-1590",2013,Sept.
"Satoshi Tomizawa,Shun Sato,John Chi-Wei Lan,Yoshiyuki Nakamura,Hideki Abe,Takeharu Tsuge","In vitro evidence of chain transfer to tetraethylene glycols in enzymatic polymerization of polyhydroxyalkanoate",,"Appl. Microbiol. Biotechnol.",,"Vol. 97","No. 11","pp. 4821-4829",2013,May
"Tadahisa Iwata,Takeharu Tsuge,Sei-ichi Taguchi,Hideki Abe,Toshihiro Tanaka","Polyhydroxyalkanoate (Chapter 3.3)",,"Bio-Based Polymers","CMC Publishing",,,"pp. 71-85",2013,
"Yoriko Watanabe,Yousuke Ichinomiya,Daisuke Shimada,Azusa Saika,Hideki Abe,Seiichi Taguchi,Takeharu Tsuge","Development and validation of an HPLC-based screening method to acquire polyhydroxyalkanoate synthase mutants with altered substrate specificity",,"J. Biosci. Bioeng.",,"Vol. 113",,"pp. 286-292",2012,Mar.
"Satoshi Tomizawa,Manami Hyakutake,Yuta Saito,Jumiarti Agus,Kouhei Mizuno,Hideki Abe,Takeharu Tsuge","Molecular weight change of polyhydroxyalkanoate (PHA) caused by the PhaC subunit of PHA synthase from Bacillus cereus YB-4 in recombinant Escherichia coli",,"Biomacromolecules",,"Vol. 12","No. 7","pp. 2660-2666",2011,June
"Azusa Saika,Yoriko Watanabe,Kumar Sudesh,Hideki Abe,Takeharu Tsuge","Enhanced incorporation of 3-hydroxy-4-methylvalerate unit into biosynthetic polyhydroxyalkanoate using leucine as a precursor",,"AMB express",,"Vol. 1","Number 6",,2011,May
"Takeharu Tsuge,Yoshihiro Hamada,Yoriko Watanabe,Satoshi Tomizawa,Tetsuya Yamamoto,Hideki Abe","Characterization of biosynthesized P(3HB-co-3HA)s swellable in organic solvents",,"Polym. Degrad. Stab.",,"Vol. 95","No. 8","pp. 1345-1348",2010,Aug.
"Tomizawa S,Saito Y,Hyakutake M,Nakamura Y,Abe H,Tsuge T.","Chain transfer reaction catalyzed by various polyhydroxyalkanoate synthases with poly(ethylene glycol) as an exogenous chain transfer agent",,"Appl. Microbiol. Biotechnol.",,"Vol. 87","No. 4","pp. 1427-1435",2010,July
"Nuttapol Tanadchangsaeng,Takeharu Tsuge,Hideki Abe","Comonomer Compositional Distribution, Physical Properties and Enzymatic Degradability of Bacterial Poly(3-Hydroxybutyrate-co-3-Hydroxy-4-methylvalerate) Copolyesters",,"Biomacromolecules",,"Vol. 11","No. 6","pp. 1615-1622",2010,June
"Toshiaki Fukui,Hideki Abe,Yoshiharu Doi","Engineering of Ralstonia eutropha for production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) from fructose and solid-state properties of the copolymer",,"Biomacromolecules",,"Vol. 3","No. 3","pp. 618-624",2002,Mar.
"Hiromi Matsusaki,Hideki Abe,Kazunori Taguchi,Toshiaki Fukui,Yoshiharu Doi","Biosynthesis of poly(3-hydroxybutyrate-<i>co</i>-3-hydroxyalkanoates) by recombinant bacteria expressing the PHA synthase gene <i>phaC1</i> from <i>Pseudomonas</i> sp. 61-3",,"Appl. Microbiol. Biotechnol.",,"Vol. 53","No. 4","pp. 401-409",2000,