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)
⇒日本農薬学会 業績賞(技術)受賞
|
Penthiopyrad biological activity
|
Y. Yanase, J. Kishi, S. Inami, H. Katsuta, Y. Yoshikawa
| 2013 |
J. Pestic. Sci. 38(4), 188-193 (2013)
|
新規殺菌剤ペンチオピラドの創製
| 勝田裕之、吉川幸宏 | 2013 |
ファインケミカル, 42(3), 28-36 (2013)
|
平成25年度論文賞対象論文の概要とその研究背景
|
中尾 俊史, 浜 まさ子, 河原 信行, 平瀬 寒月
| 2013 |
日本農薬学会誌 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).
(⇒日本農薬学会 論文賞受賞)
|
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)
|
農薬を変えた農薬~開発ものがたり・日本の創薬力~(2)ペンチオピラド
| 勝田裕之 | 2015 |
植物防疫, 69(9), 606-609 (2015)
|
リレー連載 農薬製剤・施用技術の最新動向➅ ジャンボ剤~利用の現状と課題~
| 大河内武夫 | 2016 |
植物防疫, 70(10), 700-703 (2016)
|
ミケブロックⓇ粒剤のシロアリに対する防除特性
|
大同英則,佐飛真理子,川瀨あゆみ,永井潤子,山田英一,田中裕美
| 2015 | 木材保存41(2).71-79 (2015) |
ペンチオピラドのキュウリうどんこ病菌に対する感受性検定法
| 小原敏明, 堤京子 | 2015 |
植物防疫, 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)
|
平成28年度論文賞対象論文の概要とその研究背景
|
濱田崇宏,麻薙峰子,里沢智美,安楽城夏子,番場伸一,東村紀一,明瀬智久,平瀬寒月
| 2017 |
日本農薬学会誌 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).
|
農業用殺菌剤ペンチオピラドの粒子径および粒子分散状態が
植物病害の防除効果におよぼす影響
|
山本 哲也,小原 敏明,北野 智行,吉田 英人
| 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).
|
新規殺菌剤トルプロカルブの作用機作と生物活性
| 萩原寛之 | 2019 |
日本農薬学会誌、44(2), 186-192 (2019).
|
Development of a novel fungicide, tolprocarb.
|
Hagiwara H, Ezaki R, Hamada T, Tsuda M, Ebihara K.
| 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)
|
【特集】農薬の動向と研究開発2019 シクロピリモレートの創製
| 塚本芳久、門谷淳二 | 2019 |
月刊ファインケミカル 2019年5月号
|
新薬剤紹介 シクロピリモレート
| 門谷淳二 | 2019 |
植調 vol.53, No.9 18-23 (2019).
|
農薬製剤・施用法の基礎とその最新技術動向
| 大河内武夫、辻孝三 | 2019 |
粉体工学会誌56(12), 673-678 (2019).
|
新規殺虫剤テネベナール™ (一般名ブロフラニリド)について
| 佐藤一行 | 2019 |
日本衛生動物学会殺虫剤研究班のしおり 90号 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).
|
殺菌剤トルプロカルブの創製 |
萩原寛之、番場伸一、海老原耕一
| 2020 |
ファインケミカル、2020, 5月号
|
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).
|
ペンチオピラドのリンゴ黒星病菌に対する感受性検定法
| 湯谷智、櫻井誠也、小原敏明 | 2020 | 植物防疫74(7)412₋418(2020) |
ペンチオピラドのリンゴうどんこ病菌に対する感受性検定法
| 堤京子、櫻井誠也、小原敏明 | 2020 | 植物防疫74(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).
|
令和2年度論文賞対象論文の概要とその研究背景
|
志野真実子,濱田崇宏,重松由夫,平瀬寒月,番場伸一
| 2020 |
日本農薬学会誌 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).
⇒日本農薬学会 業績賞(研究)受賞
|
新規殺虫剤テネベナール™(一般名:ブロフラニリド)の創製
| 野村路一 | 2021 |
ファインケミカル、2021, 5月号
|
木材保存用防蟻剤テネベナールⓇの開発
|
川口聖真,大同英則,浅井岳人,佐飛真理子,佐藤一行
| 2021 | 木材保存47(3).115-120 (2021) |
細胞壁のメラニン合成を阻害する殺菌剤
| 萩原寛之 | 2021 |
植物防疫 75(3), 51-55 (2021).
|
新規殺虫剤テネベナール™(一般名:ブロフラニリド)の特長
| 直井敦子 | 2021 | 植物防疫75(8),50-55)(2021) |