Scientific Papers

Paper

Title	Author name	Year of publication	Publication name
Mutation of the GABA receptor associated with fipronil resistance in the whitebacked planthopper, Sogatella furcifera	T. Nakao, A. Naoi, N. Kawahara, K. Hirase	2010	Pestic. Biochem. Physiol. 97(3), 262–266 (2010)
Molecular design of dinotefuran with unique insecticidal properties	T. Wakita	2011	J. Agric. Food chem. 59, 2938-2942
The A2′N Mutation of the RDL GABA receptor conferring fipronil resistance in Laodelphax striatellus (Homoptera: Delphacidae)	T. Nakao, A. Kawase, A. Kinoshita, R. Abe, M. Hama, N. Kawahara, K. Hirase	2011	J. Econ. Entomol. 104(2), 646–652 (2011)
Structure-Activity Relationship of Carboxin-related Carboxamides as Fungicide	Y. Yoshikawa, H. Katsuta, J. Kishi, Y. Yanase	2011	J. Pestic. Sci. 36(3), 347-356 (2011).
Concentration- dependent effects of GABA on insensitivity to fipronil from fipronil–resistant Oulema oryzae (Coleoptera: Chyrysomelidae)	T. Nakao, A. Naoi, M. Hama, N. Kawahara, K. Hirase,	2012	J. Econ. Entomol. 105(5), 1781–1788 (2012)
Fipronil resistance in Sogatella furcifera: Molecular cloning and functional expression of wild-type and mutant RDL GABA receptor subunit	T. Nakao, M. Hama, N. Kawahara, K. Hirase,	2012	J. Pestic. Sci. 37(1), 37–44 (2012)
Meta-diamide insecticides acting on distinct sites of RDL GABA receptor from those for conventional noncompetitive antagonists	T. Nakao, S. Banba, M. Nomura, K. Hirase	2013	Insect Biochem. Mol. Biol. 43(4), 366–375 (2013)
Detection of the A2' N mutation in the RDL GABA receptor subunits of fipronil-resistant pests Sogatella furcifera and Laodelphax striatellus using a PCR-RFLP assay	T. Nakao, K. Hirase	2013	J. Pestic. Sci. 38(3), 157–160 (2013)
A comparison of the modes of action of novel meta-diamide insecticides and conventional noncompetitive antagonists on the Spodoptera litura RDL GABA receptor	T. Nakao, K. Hirase	2013	J. Pestic. Sci. 38(3), 123–128 (2013)
Insecticidal 3-benzamido-N-phenylbenzamides specifically bind with high affinity to a novel allosteric site in housefly GABA receptors	Y. Ozoe, T. Kita, F. Ozoe, T. Nakao, K. Sato, K. Hirase	2013	Pestic. Biochem. Physiol. 107(3), 285–292 (2013)
Structure-activity relationships of positional isomers in aromatic heterocyclic carboxamide fungicides	S. Banba, Y. Yoshikawa, H. Katsuta	2013	J. Pestici. Sci. 38(3), 91 – 95 (2013).
Development of a novel fungicide, penthiopyrad	Y. Yanase, H. Katsuta, K. Tomiya, M. Enomoto, O. Sakamoto	2013	J. Pestic. Sci. 38(3), 167-168 (2013) ⇒Pesticide Science Society of Japan, Achivement Award (Technology) granted
Penthiopyrad biological activity	Y. Yanase, J. Kishi, S. Inami, H. Katsuta, Y. Yoshikawa	2013	J. Pestic. Sci. 38(4), 188-193 (2013)
Discovery of Penthiopyrad	H. Katsuta, Y. Yoshikawa	2013	Fine Chemical, 42(3), 28-36 (2013)
Research background and summary of “Award in 2013 for Excellence to Publishing in the Journal of Pesticide Science”	T. Nakao, M. Hama, N. Kawahara, K. Hirase	2013	Journal of Pesticide Science 38(2), 144-146 (2013)
Effects of novel meta-diamide insecticides on GABA type A receptors α1β2γ2 and α1β3γ2 and on glycine receptor α1β	T. Nakao, K. Hirase	2014	J. Pestic. Sci. 39(3), 144–151 (2014)
Action mechanism of the novel rice blast fungicide tolprocarb distinct from that of conventional melanin biosynthesis inhibitors	T. Hamada, M. Asanagi, T. Satozawa, N. Araki, S. Banba, N. Higashimura, T. Akase, K. Hirase	2014	Journal of Pesticide Science 39(3), 152-158 (2014). ⇒Pesticide Science Society of Japan, Paper Award granted
Comparison between the modes of action of novel meta-diamide and macrocyclic lactone insecticides on the RDL GABA receptor	T. Nakao, S. Banba, K. Hirase	2015	Pestic. Biochem. Physiol. 120, 101-108 (2015)
Minireview: Mode of action of meta-diamide insecticides	T. Nakao, S. Banba	2015	Pestic. Biochem. Physiol. 121, 39-46 (2015)
Study on the structure and insecticide sensitivity of the RDL GABA receptor	T. Nakao	2015	J. Pestic. Sci. 40(3), 152–159 (2015)
The Development history of Penthiopyrad	H. Katsuta	2015	Plant protection, 69(9), 606-609 (2015)
Relay serialization The latest trend on agrochemicals formulation&application technology⑥ JUMBO formulation～present situation of utilization and issues～	T. Ohkouchi	2016	Plant protection, 70(10), 700-703 (2016)
Development of dinotefuran granule and the characteristics of termite control	H. Daido, M. Sabi, A. Kawase, J. Nagai, E. Yamada, H. Tanaka	2015	Wood preservation41(2).71-79 (2015)
Sensitivity Testing Method of Cucumber Powdery Mildew Caused by Podosphaera xanthii for Penthiopyrad	T. Ohara, K. Tsutsumi	2015	Plant protection, 69(9), 563-568 (2015)
Broflanilide: A meta-diamide insecticide with a novel mode of action	T. Nakao, S. Banba	2016	Bioorg. Med. Chem. 24(3), 372-377 (2016)
Synthesis and activities of tolprocarb derivatives against Pyricularia oryzae: relationships among the activities forpolyketide synthase, melanin biosynthesis, and rice blast	S. Banba, T. Hamada, N. Araki, K. Ebihara	2017	J. Pestic. Sci. 42(2), 25-31 (2017).
Mechanisms of resistance to insecticides targeting RDL GABA receptors in planthoppers	T. Nakao	2017	Neurotoxicology 60, 293-298 (2017)
Research background and summary of “Award in 2016 for Excellent Publication in the Journal of Pesticide Science”	T. Hamada, M. Asanagi, T. Satozawa, N. Araki, S. Banba, N. Higasimura, T. Akase, K. Hirase	2017	Journal of Pesticide Science 42(1), 17‒19 (2017)
Colonization of the vegetative stage of rice plants by thefalse smut fungus Villosiclava virens, as revealed by acombination of species-speciﬁc detection methods	E. Tanaka, T. Kumagawa, N. Ito, A. Nakanishi, Y. Ohta, E. Suzuki, N. Adachi,A. Hamada, T. Ashizawa, T. Ohara and M. Tsuda	2017	Plant Pathology 66, 56–66 (2017)
Action mechanism of bleaching herbicide cyclopyrimorate, a novel homogentisate solanesyltransferase inhibitor	M. Shino, T. Hamada, Y. Shigematsu, K. Hirase, S. Banba	2018	J. Pestic. Sci. 43(4), 233–239 (2018).
Influence of Particle Size and Dispersibility of Agricultural Fungicide Penthiopyrad on Fungicidal Efficacy against Plant Disease	T. Yamamoto, T. Ohara, T. Kitano, H. Yoshida	2018	J. Soc. Powder Technol., Japan, 55, 528–535
Differential metabolism of neonicotinoids by Myzus persicae CYP6CY3 stably expressed in Drosophila S2 cells	T. Nakao, M. Kawashima, S. Banba	2019	J. Pestic. Sci. 44(3), 177-180 (2019)
Differential metabolism of imidacloprid and dinotefuran by Bemisia tabaci CYP6CM1 variants.	A. Hamada, G.D. Wahl, A. Nesterov, T. Nakao, M. Kawashima, S. Banba	2019	Pestic. Biochem. Physiol. 159, 27-33 (2019)
DISCOVERY AND OPTIMIZATION OF A NOVEL INSECTICIDE, BROFLANILIDE	T. Nakao, H. Katsuta, M. Nomura, T. Wakita, H. Daido, Y. Kobayashi, A. Kawahara, S. Banba	2019	Commun. Agric. Appl. Biol. Sci. 84(2), 221-224 (2019)
Discovery of broflanilide, a novel insecticide	H. Katsuta, M. Nomura, T. Wakita, H. Daido, Y. Kobayashi, A. Kawahara, S. Banba	2019	J. Pestic. Sci. 44(2), 120-128 (2019).
Modes of action and biological activities of a novel fungicide tolprocarb	H. Hagiwara	2019	Journal of Pesticide Science、44(2), 186-192 (2019).
Development of a novel fungicide, tolprocarb.	H. Hagiwara, R. Ezaki, T. Hamada, M. Tsuda, K. Ebihara	2019	J Pestic Sci. 44(3), 208-213 (2019).
Novel bacterial control agent tolprocarb enhances systemic acquired resistance in Arabidopsis and rice as a second mode of action	H. Hagiwara, R. Ogura, T. Fukumoto, T. Ohara, M. Tsuda, K. Hiratsuka	2019	Journal of General Plant Pathology (2019)
Discovery and mode of action of cyclopyrimorate, a new paddy rice herbicide	M. Shino, T. Hamada, Y. Shigematsu, K. Hirase, S. Banba, Y. Tsukamoto, J. Kadotani	2019	Commun. Agric. Appl. Biol. Sci. 84(2), 271-273 (2019)
Discovery of a Novel Herbicide, Cyclopyrimorate	Y. Tsukamoto, J. Kadotani	2019	Monthly Fine Chemical, May 2019 issue
Introductuon of new herbicide, Cyclopyrimorate	J. Kadotani	2019	SHOKUCHO vol.53, No.9 18-23 (2019).
Basis and Recent Trend in Pesticide Formulation and Application Technology	T. Ohkouchi, K. Tsuji	2019	Journal of the Society of Powder Technology, Japan56(12), 673-678 (2019).
Development of a novel insecticide, TENEBENAL™ (broflanilide)	K. Sato	2019	The Japan Society of Medical Entomology and Zoology, Pesticide Research Team's Booklet, Issue No. 90 4-9 (2019)
Differential metabolism of neonicotinoids by brown planthopper, Nilaparvata lugens, CYP6ER1 variants.	A. Hamada, L. Stam, T. Nakao, M. Kawashima, S. Banba	2020	Pestic. Biochem. Physiol. 165, 104538 (2020).
In vivo and in vitro evidence for the inhibition of homogentisate solanesyltransferase by cyclopyrimorate	M. Shino, T. Hamada, Y. Shigematsu, S. Banba	2020	Pest manag. sci. 76(10), 3389–3394 (2020).
Further characterization of distinct high-affinity binding sites for dinotefuran in the abdominal nerve cord of the American cockroach Periplaneta americana (Blattodea)	K. Nomura, A. Kawase, Y. Ozoe, S. Banba	2020	Pestic. Biochem. Physiol. 167, 104554 (2020).
Discovery of a Novel Fungicide, Tolprocarb	H. Hagiwara, S. Banba, K. Ebihara	2020	Fine Chemical, May 2020 issue
The rare sugar D-tagatose protects plants from downy mildews and is a safe fungicidal agrochemical	S. Mochizuki, T. Fukumoto, T. Ohara*, K. Ohtani, A. Yoshihara, Y. Sigematsu, K. Tanaka, K. Ebihara, S. Tajima, K. Gomi, K. Ichimura, K. Izumori, K. Akimitsu (※ co-first author)	2020	Communications Biology (2020)
Insecticides, biologics and nematicides: Updates to IRAC’s mode of action classification - a tool for resistance management	T. C. Sparks, A. J. Crossthwaite, R. Nauen, S. Banba, D. Cordova, F. Earley, U. Ebbinghaus-Kintscher, S. Fujioka, A. Hirao, D. Karmon, R. Kennedy, T. Nakao, H. J. R. Popham, V. Salgado, G. B. Satson, J. W. Barbara, F. J. Wessels,	2020	Pestic. Biochem. Physiol. 167, 104587 (2020).
Testing Methods of Sensitivity to Penthiopyrad on Venturia inaequalis Causing Apple Scab.	S. Yutani, S. Sakurai, T. Ohara	2020	Plant protection74(7)412₋418(2020)
Testing Methods of Sensitivity to Penthiopyrad on Podosphaera leucotricha Causing Apple Powdery Mildew.	K. Tsutsumi, S. Sakurai, T. Ohara	2020	Plant protection74(9)530₋536(2020)
Mechanisms underlying the selectivity of meta-diamides between insect resistance to dieldrin (RDL) and human γ-aminobutyric acid (GABA) and glycine receptors	T. Nakao, S. Banba	2021	Pest Manag. Sci. 77(8), 3744-3752 (2021)
Important amino acids for function of the insect RDL GABA receptor	T. Nakao, S. Banba	2021	Pest Manag. Sci. 77(8), 3753-3762 (2021)
Synthesis and fungicidal activities of the positional isomers of the N-thienylcarboxamide fungicide	H. Katsuta, T. Shirakawa, M. Kawashima, S. Banba	2021	J. Pestic. Sci., 46(2), 229-234 (2021).
Research background and summary of “Award in 2020 for Excellent Publication in the Journal of Pesticide Science”	M. Shino, T. Hamada, Y. Shigematsu, K. Hirase, S. Banba	2020	Journal of Pesticide Science 45(2), 89-90 (2020).
Experimental and theoretical investigation of the reaction of a 3-amidothiophene derivative with various carbonyl compounds	H. Katsuta, S. Banba	2021	J. Pestic. Sci. 46(2), 235-241 (2021).
Application of computational methods in the analysis of pesticide target-site and resistance mechanisms	S. Banba	2021	J. Pestic. Sci. 46(3), 1-7 (2021). ⇒Pesticide Science Society of Japan, Achivement Award (Research) granted
Discovery of TENEBENAL™ (broflanilide), a Novel Insecticide	M. Nomura	2021	Fine Chemical, May 2020 issue
Development of TENEBENAL™ used for termiticid	S. Kawaguchi, H. Daido, T. Asai, M. Sabi, K. Sato	2021	Wood preservation 47(3).115-120 (2021)
Fungicides Inhibiting Melanin Synthesis in Cell Wall.	H. Hagiwara	2021	Plant protection 75(3), 51-55 (2021).
Features of TENEBENAL™ (broflanilide), a novel insecticide	A. Naoi	2021	Plant protection 75(８),50－55)(2021)

Book

Title	Author name	Year of publication	Publication name
Application Expanded DDS -Human Body to Agriculture and Household Electrical Application-	T. Ohkouchi	2013	Chapter 1 Pesticide Formulation and Application Method, Section 1 Pesticide Formulation, Particulars on Formulation 6, JUMBO Formulation, H.Terada,S.Nakagawa,K.Tsuji,K.Makino,S.Kinuda,A.Nishino, 451-454 (2013).
Application Expanded DDS -Human Body to Agriculture and Household Electrical Application-	D. Inoue	2013	Chapter 1 Pesticide Formulation and Application Method, Section 1, Pesticide Formulation, Particulars on Formulation 10, DL Dust Formulation, H.Terada,S.Nakagawa,K.Tsuji,K.Makino,S.Kinuda,A.Nishino, 474-481 (2013).
Insecticide Resistance in Rice Planthoppers	T. Nakao	2017	Advances in Agrochemicals: Ion Channels and G Protein-Coupled Receptors (GPCRs) as Targets for Pest Control, Chapter 2, 23-39 (2017)
Trend in Pesticide Discovery Research -Development of Safer and Environmentally Friendly Pesticides-	T. Ohkouchi, K. Tsuji, Y. Kobara	2018	Chapter 12 Trends of Formulation and Application Technologies, N.Umetsu, 243-279 (2018).
Melanin Synthesis in the Cell Wall	M. Schindler, H. Sawada, K. Tietjen, H. Hamada, H. Hagiwara, S. Banba	2019	Modern Crop Protection Compounds 3rd edition, Chapter 22, 879-910 (2019)
Discovery and Optimization of a Novel Insecticide, Broflanilide	T. Nakao, H. Katsuta, M. Nomura, T. Wakita, H. Daido, Y. Kobayashi, A. Kawahara, S. Banba	2019	RECENT HIGHLIGHTS IN THE DISCOVERY AND OPTIMIZATION OF CROP PROTECTION PRODUCTS, Chapter 7, 145-155 (2019)
Discovery and mode of action of cyclopyrimorate: A new paddy rice herbicide	M. Shino, T. Hamada, Y. Shigematsu, K. Hirase, S. Banba, Y. Tsukamoto, J. Kadotani	2019	RECENT HIGHLIGHTS IN THE DISCOVERY AND OPTIMIZATION OF CROP PROTECTION PRODUCTS, Chapter 30, 451-457 (2019).