岡山理科大学 理学部 化学科
生体高分子研究室
Okayama University of Science
Laboratory for Biopolymer  		  
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Soy protein selectively accumulates formaldehyde
Masanori Yamada, Momoka Uchida, and Tetsuya Yamada
Sci. Rep. 15, 9355 (10 pages) (2025).

The accumulation of metal ions by a soy protein–inorganic composite material
Masanori Yamada, Maika Ujihara and Tetsuya Yamada
J. Compos. Sci. 7, 419 (13 pages) (2023).

Anhydrous proton conductor consisting of protamine−monododecyl phosphate composite with self-assembled structure
Masanori Yamada and Naoaki Yoshihara
RSC Adv. 13, 34877-34883 (2023).

Preparation of bioplastic consisting of salmon milt DNA
Masanori Yamada, Midori Kawamura, and Tetsuya Yamada
Sci. Rep. 12, 7423-7432 (2022).

Selective accumulation of rare-earth and heavy metal ions by a fucoidan-inorganic composite material
Masanori Yamada and Yuta Shimanouchi
Separations 9, 219-229 (2022).

Preparation of gellan gum-inorganic composite film and its metal ion accumulation property
Masanori Yamada and Yoshihiro Kametani
J. Compos. Sci. 6, 42-54 (2022).

Anhydrous proton-conducting material consisting of basic protein protamine
Masanori Yamada, Takaaki Sugihara, and Tetsuya Yamada
J. Electroanal. Chem. 897, 115586 (7 pages) (2021).

Anhydrous Proton Conduction of Soy Protein
Masanori Yamada, Yuka Nagano, and Tetsuya Yamada
Int. J. Electrochem. Sci. 16, 151046 (12 pages) (2021).

Preparation of bioplastic using soy protein
Masanori Yamada, Sakura Morimitsu, Eiji Hosono, and Tetsuya Yamada
Int. J. Biol. Macromol. 149, 1077-1083 (2020).

Synthesis of self-assembled nucleobase and its anhydrous proton conductivity
Masanori Yamada and Kento Tanoue
RSC Advances 9, 36416-36423 (2019).

Formaldehyde interacts with RNA rather than DNA: Accumulation of formaldehyde by the RNA-inorganic hybrid material.
Masanori Yamada, Shoko Funaki, and Saaya Miki
Int. J. Biol. Macromol. 122, 168-173 (2019).

Anhydrous proton conduction of natural aromatic polymer: Preparation of ligninsulfonic acid-Heterocyle composite and its proton conductivity
Masanori Yamada and Misaki Takeda
Int. J. Electrochem. Sci. 13, 7291-7300 (2018).

Chiral recognition by DNA-immobilized TLC plate
Masanori Yamada and Mami Inoue
Separations 5, 3-11 (2018).

Utilization of milk protein as an environmental material. Accumulation of metal ions by a protein-inorganic hybrid material
Masanori Yamada and Mayuna Tsuruzumi
Polym. J. 48, 295-300 (2016).

Preparation of DNA-immobilized magnetic particles and their utilization as an accumulative material of metal ions
Masanori Yamada, Akira Fujisawa, Kunimitsu Morishige, and Eiji Hosono
J. Mater. Res. 31, 360-369 (2016).

Anhydrous proton conductor consisting of pectin-inorganic composite material
Masanori Yamada and Takahiro Ogino
J. Appl. Polym. Sci. 132, 42433-42439 (2015).

Preparation of pectin-inorganic composite material as accumulative material of metal ions
Masanori Yamada and Shuka Shiiba
J. Appl. Polym. Sci. 132, 42056-42063 (2015).

Double-stranded DNA stereo-selectively promotes aggregation of amyloid-like fibrils and generates peptide/DNA matrices
Masanori Yamada, Sachiko Hara, Tetsuya Yamada, Fumihiko Katagiri, Kentaro Hozumi, and Motoyoshi Nomizu
Biopolymer in press.

Polypeptide for anhydrous proton conductor
Masanori Yamada and Yuichi Moritani
Electrochim. Acta 144, 168-173 (2014).

Selective accumulation of rare earth metal and heavy metal ions by DNA-inorganic hybrid material
Masanori Yamada and Kazuhide Abe
Polym. J. 46, 366-371 (2014).

Immobilization of double-stranded DNA onto glass beads by psolaren
Masanori Yamada, Yuka Kanamori, and Tetsuya Yamada
Int. J. Biol. Macromol. 60, 39-44 (2013).

Preparation of DNA-polyintercalator conjugate and its functional property
Masanori Yamada, Ayaka Okumoto, and Tetsuya Yamada
Int. J. Biol. Macromol. 51, 215-220 (2012).

Synthesis of DNA intercalator-immobilized cyclodextrin and interaction with double-stranded DNA: Utilization of DNA-cyclodextrin conjugated material as an environmental material
Masanori Yamada, Masamitsu Inoue, and Tetsuya Yamada
Polym. Chem. 3, 1291-1299 (2012).

Preparation of DNA-cyclodextrin-silica composite by sol-gel method and its utilization as an environmental material
Masanori Yamada and Emiko Nakayama
Mater. Chem. Phys. 133, 278-283 (2012).

Proton conduction of DNA-imidazole composite material under anhydrous condition
Masanori Yamada and Akito Goto
Polymer J. 44, 415-420 (2012).

DNA–cyclodextrin–inorganic hybrid material for absorbent of various harmful compounds
Masanori Yamada and Shinya Tabuchi
Mater. Chem. Phys. 126, 278-283 (2011).

Accumulation of harmful compounds by the composite of DNA and cyclodextrin: effect on intramolecular cavity of cyclodextrin
Masanori Yamada, Jun Shikano, and Yoshimi Harada
Mater. Chem. Phys. 124, 623-627 (2010).

Composite material of DNA and cyclodextrin-immobilized poly(ethyleneimine): Accumulation of harmful compounds from multi-component solution
Masanori Yamada, Minako Hori, Shinya Tabuchi
Int. J. Biol. Macromol. 47, 201-206 (2010).

Heteropolyacid-conjugated chitosan matrix for triphase catalyst.
Masanori Yamada and Akiko Maeda
Polymer 50, 6076-6082 (2009).

Selective accumulation of harmful compounds by the DNA-inorganic hybrid-immobilized glass bead.
Masanori Yamada and Akari Hamai
Anal. Chim. Acta 674, 249-254 (2009).

DNAフィルター
山田 真路、駒沢 俊清
バルカー技術誌 16, 3-6 (2009).

DNA-cyclodextrin composite material for environmental applications.
Masanori Yamada and Kazuki Hashimoto
Biomacromolecules 9, 3341-3345 (2008).

DNA-inorganic hybrid material as selective absorbent for harmful compounds.
Masanori Yamada and Hirofumi Aono
Polymer 49, 4658-4665 (2008).

Utilization of DNA-metal ion biomatrix as a relative humidity sensor.
Masanori Yamada and Taro Sugiyama
Polymer J. 40, 327-331 (2008).

Enzymatic collapse of artificial polymer composite material containing double-stranded DNA.
Masanori Yamada and Mariko Amoo
Int. J. Biol. Macromol. 42, 478-482 (2008).