Ph.D., Tohoku University

Plant nutrition and soil science, Plant nutrition/Soil science

2023
Faculty of Agriculture, Shinshu University

2006 - 2023
Faculty of Agriculture, Shinshu University

2004 - 2006
Japan Science and Technology Agency

1998 - 2001, Tohoku University, Graduate School of Agricultural Science, 環境修復生物工学専攻

1996 - 1998, Tohoku University, Graduate School of Agricultural Science, 環境修復生物工学専攻

1992 - 1996, Tohoku University, Department of Sciences, Faculty of Biology

2023
Associate Editor-in-Chief, Soil Science and Plant Nutrition

2022
Associate Editor, Microbes and Environments

2015
Editor, Grassland Science

2006
Japanese Society of Grassland Science, Incentive Award in Japanese Society of Grassland Science
草地生態系におけるアーバスキュラー菌根菌の動態に関する研究（第34号）

Improving Inoculum Production of Arbuscular Mycorrhizal Fungi in Zea mays L. Using Light-Emitting Diode (LED) Technology
Sutee Kiddee; Niramon Lakkasorn; Jenjira Wongdee; Pongdet Piromyou; Pongpan Songwattana; Teerana Greetatorn; Kamonluck Teamtisong; Nantakorn Boonkerd; Katsuharu Saito; Neung Teaumroong; Panlada Tittabutr
Agronomy, 14(10), 2342-2342, Oct. 2024, Refereed, Not invited
Lead

Peroxisomal localization of benzyl alcohol O-benzoyltransferase HSR201 is mediated by a non-canonical peroxisomal targeting signal and required for salicylic acid biosynthesis
Yu Kotera; Yoshika Asai; Shutaro Okano; Yukako Tokutake; Akira Hosomi; Katsuharu Saito; Shinichi Yonekura; Shinpei Katou
Plant & Cell Physiology, Oct. 2024, Refereed, Not invited
Lead

Unveiling the tripartite synergistic interaction of plant-arbuscular mycorrhizal fungus symbiosis by endophytic Bacillus velezensis S141 in Lotus japonicus
Sutee Kiddee; Jenjira Wongdee; Pongdet Piromyou; Pongpan Songwattana; Teerana Greetatorna; Nantakorn Boonkerd; Neung Teaumroong; Katsuharu Saito; Panlada Tittabutr
Symbiosis, 92, 355-367, Mar. 2024, Refereed, Not invited
Lead

Polyphosphate polymerizing and depolymerizing activity of VTC4 protein in an arbuscular mycorrhizal fungus
Nguyen, C.T., Ezawa, T., Saito, K.
Soil Science and Plant Nutrition, 68(2), 256-267, Jan. 2022, Refereed
Corresponding

Asymbiotic mass production of the arbuscular mycorrhizal fungus Rhizophagus clarus
Tanaka, S., Hashimoto, K., Kobayashi, Y., Yano, K., Maeda, T., Kameoka, H., Ezawa, T., Saito, K., Akiyama, K., Kawaguchi, M.
Communications Biology, 5(1), 43, Jan. 2022, Refereed
Lead

Role of cell wall polyphosphates in phosphorus transfer at the arbuscular interface in mycorrhizas
Ngyuen, C. T., Saito, K.
Frontiers in Plant Science, 12, 725939, Sep. 2021, Refereed
Corresponding

Myristate can be used as a carbon and energy source for the asymbiotic growth of arbuscular mycorrhizal fungi
Sugiura, Y., Akiyama, R., Tanaka, S., Yano, K., Kameoka, H., Marui, S., Saito, M., Kawaguchi, M., Akiyama, K., Saito, K.
Proceedings of the National Academy of Sciences of the United States of America, 117(41), 25779-25788, Oct. 2020, Refereed, Not invited
Corresponding

Secretion compounds from Brevibacillus sp. SUT47 promote spore propagation of Acaulospora tuberculata colonizing maize roots (Zea mays L. cultivar Suwan 5)
Sutee Kiddee; Watcharin Yuttavanichakul; Nantakorn Boonkerd; Neung Teaumroong; Katsuharu Saito; Panlada Tittabutr
ScienceAsia, 46(5), 634-634, 2020, Refereed
Lead

Stimulation of asymbiotic sporulation in arbuscular mycorrhizal fungi by fatty acids
Hiromu Kameoka; Ippo Tsutsui; Katsuharu Saito; Yusuke Kikuchi; Yoshihiro Handa; Tatsuhiro Ezawa; Hideo Hayashi; Masayoshi Kawaguchi; Kohki Akiyama
Nature Microbiology, 4(10), 1654-1660, Oct. 2019, Refereed, Not invited
Lead

草地および飼料畑におけるアーバスキュラー菌根菌の生態と共生機能
齋藤勝晴
日本草地学会誌, 64(4), 276-283, Jan. 2019, Refereed, Not invited
Corresponding

Strigolactone Biosynthesis Genes of Rice are Required for the Punctual Entry of Arbuscular Mycorrhizal Fungi into the Roots
Yoshihiro Kobae; Hiromu Kameoka; Yusaku Sugimura; Katsuharu Saito; Ryo Ohtomo; Toru Fujiwara; Junko Kyozuka
Plant and Cell Physiology, 59(3), 544-553, Mar. 2018, Refereed, Not invited
Lead

How do arbuscular mycorrhizal fungi handle phosphate? New insights into fine-tuning of phosphate metabolism
Ezawa, T. and Saito, K.
New Phytologist, 220, 1119-1121, 2018, Refereed, Not invited
Lead

Stringent Expression Control of Pathogenic R-body Production in Legume Symbiont Azorhizobium caulinodans
Jun-ichi Matsuoka; Fumiko Ishizuna; Keigo Kurumisawa; Kengo Morohashi; Tetsuhiro Ogawa; Makoto Hidaka; Katsuharu Saito; Tatsuhiro Ezawa; Toshihiro Aono
mBio, 8(4), e00715-17, Jul. 2017, Refereed, Not invited
Lead

Transcriptional profiling of arbuscular mycorrhizal roots exposed to high levels of phosphate reveals the repression of cell cycle-related genes and secreted protein genes in Rhizophagus irregularis
Yusaku Sugimura; Katsuharu Saito
Mycorrhiza, 27(2), 139-146, Feb. 2017, Refereed, Not invited
Corresponding

A putative TetR-type transcription factor AZC_3265 from the legume symbiont Azorhizobium caulinodans represses the production of R-bodies that are toxic to eukaryotic cells
Jun-ichi Matsuoka; Fumiko Ishizuna; Keigo Kurumisawa; Kengo Morohashi; Tetsuhiro Ogawa; Makoto Hidaka; Katsuharu Saito; Tatsuhiro Ezawa; Toshihiro Aono
Soil Science and Plant Nutrition, 63(5), 452-459, 2017, Refereed, Not invited
Lead

Comparative transcriptome analysis between Solanum lycopersicum L. and Lotus japonicus L. during arbuscular mycorrhizal development
Yusaku Sugimura; Katsuharu Saito
Soil Science and Plant Nutrition, 63(2), 127-136, 2017, Refereed, Not invited
Corresponding

Aquaporin-mediated long-distance polyphosphate translocation directed towards the host in arbuscular mycorrhizal symbiosis: application of virus-induced gene silencing
Yusuke Kikuchi; Nowaki Hijikata; Ryo Ohtomo; Yoshihiro Handa; Masayoshi Kawaguchi; Katsuharu Saito; Chikara Masuta; Tatsuhiro Ezawa
New Phytologist, 211(4), 1202-1208, Sep. 2016, Refereed, Not invited
Lead

RNA-seq Transcriptional Profiling of an Arbuscular Mycorrhiza Provides Insights into Regulated and Coordinated Gene Expression in Lotus japonicus and Rhizophagus irregularis
Yoshihiro Handa; Hiroyo Nishide; Naoya Takeda; Yutaka Suzuki; Masayoshi Kawaguchi; Katsuharu Saito
Plant and Cell Physiology, 56(8), 1490-1511, Aug. 2015, Refereed, Not invited
Corresponding

Up-regulation of genes involved in N-acetylglucosamine uptake and metabolism suggests a recycling mode of chitin in intraradical mycelium of arbuscular mycorrhizal fungi
Yoshihiro Kobae; Miki Kawachi; Katsuharu Saito; Yusuke Kikuchi; Tatsuhiro Ezawa; Masayoshi Maeshima; Shingo Hata; Toru Fujiwara
Mycorrhiza, 25(5), 411-417, Jul. 2015, Refereed, Not invited
Lead

pH measurement of tubular vacuoles of an arbuscular mycorrhizal fungus, Gigaspora margarita
Rintaro Funamoto; Katsuharu Saito; Hiroshi Oyaizu; Toshihiro Aono; Masanori Saito
Mycorrhiza, 25(1), 55-60, Jan. 2015, Refereed, Not invited
Lead

Polyphosphate accumulation is driven by transcriptome alterations that lead to near-synchronous and near-equivalent uptake of inorganic cations in an arbuscular mycorrhizal fungus
Yusuke Kikuchi; Nowaki Hijikata; Kaede Yokoyama; Ryo Ohtomo; Yoshihiro Handa; Masayoshi Kawaguchi; Katsuharu Saito; Tatsuhiro Ezawa
New Phytologist, 204(3), 638-649, Nov. 2014, Refereed, Not invited
Lead

Isolation and Phenotypic Characterization of Lotus japonicus Mutants Specifically Defective in Arbuscular Mycorrhizal Formation
Tomoko Kojima; Katsuharu Saito; Hirosuke Oba; Yuma Yoshida; Junya Terasawa; Yosuke Umehara; Norio Suganuma; Masayoshi Kawaguchi; Ryo Ohtomo
Plant and Cell Physiology, 55(5), 928-941, May 2014, Refereed, Not invited
Lead

Transcriptomic profiles of nodule senescence in Lotus japonicus and Mesorhizobium loti symbiosis
Sirinapa Chungopast; Hideki Hirakawa; Shusei Sato; Yoshihiro Handa; Katsuharu Saito; Masayoshi Kawaguchi; Shigeyuki Tajima; Mika Nomura
Plant Biotechnology, 31(4), 345-349, 2014, Refereed, Not invited
Lead

Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis
Emilie Tisserant; Mathilde Malbreil; Alan Kuo; Annegret Kohler; Aikaterini Symeonidi; Raffaella Balestrini; Philippe Charron; Nina Duensing; Nicolas Frei Dit Frey; Vivienne Gianinazzi-Pearson; Luz B. Gilbert; Yoshihiro Handa; Joshua R. Herr; Mohamed Hijri; Raman Koul; Masayoshi Kawaguchi; Franziska Krajinski; Peter J. Lammers; Frederic G. Masclauxm; Claude Murat; Emmanuelle Morin; Steve Ndikumana; Marco Pagni; Denis Petitpierre; Natalia Requena; Pawel Rosikiewicz; Rohan Riley; Katsuharu Saito; Helene San Clemente; Harris Shapiro; Diederik Van Tuinen; Guillaume Becard; Paola Bonfante; Uta Paszkowski; Yair Y. Shachar-Hill; Gerald A. Tuskan; Peter W. Young; Ian R. Sanders; Bernard Henrissat; Stefan A. Rensing; Igor V. Grigoriev; Nicolas Corradi; Christophe Roux; Francis Martin
Proceedings of the National Academy of Sciences of the United States of America, 110(50), 20117-20122, Dec. 2013, Refereed, Not invited
Lead

Inorganic polyphosphates are stored in spherites within the midgut of Anticarsia gemmatalis and play a role in copper detoxification
F. M. Gomes; D. B. Carvalho; A. C. Peron; K. Saito; K. Miranda; E. A. Machado
Journal of Insect Physiology, 58(2), 211-219, Feb. 2012, Refereed, Not invited
Lead

Acidocalcisomes as Calcium- and Polyphosphate-Storage Compartments during Embryogenesis of the Insect Rhodnius prolixus Stahl
Isabela Ramos; Fabio Gomes; Carolina M. Koeller; Katsuharu Saito; Norton Heise; Hatisaburo Masuda; Roberto Docampo; Wanderley de Souza; Ednildo A. Machado; Kildare Miranda
PLoS One, 6(11), e27276, Nov. 2011, Refereed, Not invited
Lead

Requirement for Mesorhizobium loti ornithine transcarbamoylase for successful symbiosis with Lotus japonicus as revealed by an unexpected long-range genome deletion
Elina Mishima; Atsuko Hosokawa; Haruko Imaizumi-Anraku; Katsuharu Saito; Masayoshi Kawaguchi; Kazuhiko Saeki
Plant and Cell Physiology, 49(3), 301-313, Mar. 2008, Refereed, Not invited
Lead

Ultrastructure of rapidly frozen and freeze-substituted germ tubes of an arbuscular mycorrhizal fungus and localization of polyphosphate
Yukari Kuga; Katsuharu Saito; Keiichiro Nayuki; R. Larry Peterson; Masanori Saito
New Phytologist, 178(1), 189-200, 2008, Refereed, Not invited
Lead

NUCLEOPORIN85 is required for calcium spiking, fungal and bacterial symbioses, and seed production in Lotus japonicus
Katsuharu Saito; Makoto Yoshikawa; Koji Yano; Hiroki Miwa; Hisaki Uchida; Erika Asamizu; Shusei Sato; Satoshi Tabata; Haruko Imaizumi-Anraku; Yosuke Umehara; Hiroshi Kouchi; Yoshikatsu Murooka; Krzysztof Szczyglowski; J. Allan Downie; Martin Parniske; Makoto Hayashi; Masayoshi Kawaguchi
Plant Cell, 19(2), 610-624, Feb. 2007, Refereed, Not invited
Lead

Simultaneous in situ detection of alkaline phosphatase activity and polyphosphate in arbuscules within arbuscular mycorrhizal roots
Rintaro Funamoto; Katsuharu Saito; Hiroshi Oyaizu; Masanori Saito; Toshihiro Aono
Functional Plant Biology, 34(9), 803-810, 2007, Refereed, Not invited
Lead

Vacuolar localization of phosphorus in hyphae of Phialocephala fortinii, a dark septate fungal root endophyte
Katsuharu Saito; Yukari Kuga-Uetake; Masanori Saito; R. Larry Peterson
Canadian Journal of Microbiology, 52(7), 643-650, Jul. 2006, Refereed, Not invited
Lead

Polyphosphate metabolism in an acidophilic alga Chlamydomonas acidophila KT-1 (Chlorophyta) under phosphate stress
K Nishikawa; H Machida; Y Yamakoshi; R Ohtomo; K Saito; M Saito; N Tominaga
Plant Science, 170(2), 307-313, Feb. 2006, Refereed, Not invited
Lead

Genetics of symbiosis in Lotus japonicus: Recombinant inbred lines, comparative genetic maps, and map position of 35 symbiotic loci
N Sandal; TR Petersen; J Murray; Y Umehara; B Karas; K Yano; H Kumagai; M Yoshikawa; K Saito; M Hayashi; Y Murakami; XW Wang; T Hakoyama; H Imaizumi-Anraku; S Sato; T Kato; WL Chen; MS Hossain; S Shibata; TL Wang; K Yokota; K Larsen; N Kanamori; E Madsen; S Radutoiu; LH Madsen; TG Radu; L Krusell; Y Ooki; M Banba; M Betti; N Rispail; L Skot; E Tuck; J Perry; S Yoshida; K Vickers; J Pike; L Mulder; M Charpentier; J Muller; R Ohtomo; T Kojima; S Ando; AJ Marquez; PM Gresshoff; K Harada; J Webb; S Hata; N Suganuma; H Kouchi; S Kawasaki; S Tabata; M Hayashi; M Parniske; K Szczyglowski; M Kawaguchi; J Stougaard
Molecular Plant-Microbe Interactions, 19(1), 80-91, Jan. 2006, Refereed, Not invited
Lead

シロクローバとアーバスキュラー菌根菌の共生関係およびその群集構造に及ぼすリン酸施肥の影響
佐藤航一; 斎藤勝晴; 菅原和夫
日本草地学会誌, 51(4), 333-340, Jan. 2006, Refereed, Not invited
Lead

Direct labeling of polyphosphate at the ultrastructural level in Saccharomyces cerevisiae by using the affinity of the polyphosphate binding domain of Escherichia coli exopolyphosphatase
K Saito; R Ohtomo; Y Kuga-Uetake; T Aono; M Saito
Applied and Environmental Microbiology, 71(10), 5692-5701, Oct. 2005, Refereed, Not invited
Lead

Lotus burttii takes a position of the third corner in the Lotus molecular genetics triangle
Masayoshi Kawaguchi; Andrea Pedrosa-Harand; Koji Yano; Makoto Hayashi; Yoshikatsu Murooka; Katsuharu Saito; Toshiyuki Nagata; Kiyoshi Namai; Hiroshi Nishida; Daisuke Shibata; Shusei Sato; Satoshi Tabata; Masaki Hayashi; Kyuya Harada; Niels Sandal; Jens Stougaard; Andreas Bachmair; William F. Grant
DNA Research, 12(1), 69-77, 2005, Refereed, Not invited
Lead

Defoliation effects on the community structure of arbuscular mycorrhizal fungi based on 18S rDNA sequences
K Saito; Y Suyama; S Sato; K Sugawara
Mycorrhiza, 14(6), 363-373, Dec. 2004, Refereed, Not invited
Lead

アーバスキュラー菌根における物質代謝と輸送：４億年前に確立された共生システムへの温故知“最新”的アプローチ
江沢辰広; 斎藤勝晴; 青野俊裕
日本土壌肥料科学雑誌, 75(6), 737-746, Dec. 2004, Refereed, Not invited
Lead

Acidic vesicles in living hyphae of an arbuscular mycorrhizal fungus, Gigaspora margarita
K Saito; Y Kuga-Uetake; M Saito
Plant and Soil, 261(1-2), 231-237, Apr. 2004, Refereed, Not invited
Lead

放牧利用オーチャードグラス（Dactylis glomerata L.）のアーバスキュラー菌根形成に及ぼす表面施肥の影響
烏恩; 斎藤勝晴; 佐藤衆介; 菅原和夫
日本草地学会誌, 49(1), 52-54, 2003, Refereed, Not invited
Lead

野草および牧草放牧地における共通出現植物のアーバスキュラー菌根菌感染率と根圏土壌胞子数
烏恩; 斎藤勝晴; 佐藤衆介; 菅原和夫
日本草地学会誌, 48(3), 248-253, 2002, Refereed, Not invited
Lead

Nested PCR amplification of arbuscular mycorrhizal fungal 18S rRNA genes from field-collected roots
Saito K., A. Nishiwaki and K. Sugawara
Grassland Science, 47(1), 1-8, 2001, Refereed, Not invited
Lead

DNA extraction from arbuscular mycorrhizal roots of Miscanthus sinensis Anderss. collected in the native grassland
Saito K., A. Nishiwaki and K. Sugawara
Grassland Science, 46(2), 182-184, 2000, Refereed, Not invited
Lead

Asymbiotic mass production of the arbuscular mycorrhizal fungus Rhizophagus clarus
Tanaka, S., Hashimoto, K., Kobayashi, Y., Yano, K., Maeda, T., Kameoka, H., Ezawa, T., Saito, K., Akiyama, K., Kawaguchi, M.

Stringent Expression Control of Pathogenic R-body Production in Legume Symbiont Azorhizobium caulinodans
Jun-ichi Matsuoka; Fumiko Ishizuna; Keigo Kurumisawa; Kengo Morohashi; Tetsuhiro Ogawa; Makoto Hidaka; Katsuharu Saito; Tatsuhiro Ezawa; Toshihiro Aono

Acidocalcisomes as Calcium- and Polyphosphate-Storage Compartments during Embryogenesis of the Insect Rhodnius prolixus Stahl
Isabela Ramos; Fabio Gomes; Carolina M. Koeller; Katsuharu Saito; Norton Heise; Hatisaburo Masuda; Roberto Docampo; Wanderley de Souza; Ednildo A. Machado; Kildare Miranda

Ultrastructure of rapidly frozen and freeze-substituted germ tubes of an arbuscular mycorrhizal fungus and localization of polyphosphate
Yukari Kuga; Katsuharu Saito; Keiichiro Nayuki; R. Larry Peterson; Masanori Saito

書評「われら古細菌の末裔−微生物から見た生物の進化−」
齋藤勝晴
日本土壌肥料科学雑誌, 94(3), 244, 05 Jun. 2023, Invited
Corresponding

純粋培養によるアーバスキュラー菌根菌の資材開発
齋藤勝晴
作物生産と土つくり, 54(569), 1 - 5, Jul. 2022, Invited
Corresponding

Role of polyphosphate in arbuscular mycorrhizal fungi
Nguyen, T. C. and Saito, K.
IMS Newsletter, 3(2), Jul. 2022, Invited
Corresponding

有用土壌微生物アーバスキュラー菌根菌の純粋培養法の確立
亀岡啓・齋藤勝晴・川口正代司・秋山康紀
バイオサイエンスとインダストリー, 78(1), 8 - 13, Jan. 2020, Invited
Lead

植生をめぐる微生物の生態学 ─ はじめに ─
菅原幸哉・山下雅幸・齋藤勝晴
日本草地学会誌, 64(4), 261 - 262, Jan. 2019, Refereed, Invited
Corresponding

Toward assessing the contribution of arbuscular mycorrhizal symbiosis to plant P nutrition
Saito, K.
Journal of Integrated Field Science, 15, 26 - 30, Oct. 2018, Refereed, Invited
Corresponding

菌根共生からみる植物栄養の新時代
小八重善裕; 東樹宏和; 山本哲史; 竹本大吾; 江沢辰広; 河原愛; 荒川竜太; 齋藤勝晴; 中川知己
日本土壌肥料学雑誌, 85(3), 279 - 284, 2014, Invited
Lead

はじめに(<特集>草地・耕地生態系の菌根の生理生態と利用)
齋藤勝晴
日本草地学会誌, 59(4), 261 - 262, 2014, Refereed, Invited
Corresponding

アーバスキュラー菌根菌：研究の最前線と土壌肥料分野への貢献
坂本一憲; 秋山康紀; 林英雄; 磯部勝孝; 江澤辰広; 菊池裕介; 土方野分; 俵谷圭太郎; 伊豆進; 齋藤勝晴
日本土壌肥料学雑誌, 83(2), 216 - 221, Apr. 2012, Invited
Lead

アーバスキュラー菌根菌との共生
齋藤勝晴; 林誠
細胞工学, 30(2), 149 - 154, 2011, Invited
Lead

Seasonal variation of arbuscular mycorrhizal fungal colonization for coexisting plant species in Miscanthus-type semi-natural grassland
Saito K. and K. Sugawara
Journal of Integrated Field Science, 7, 29 - 35, 2010, Refereed, Invited
Lead

共生 : その2 菌根菌(第3部門 土壌生物)
齋藤勝晴
日本土壌肥料学雑誌, 79(6), 555 - 557, 2008, Invited
Corresponding

アーバスキュラー菌根実験法（７）アーバスキュラー菌根菌の生体観察法
斎藤勝晴; 久我ゆかり; 斎藤雅典
土と微生物, 61(1), 79 - 82, Apr. 2007, Refereed, Not invited
Lead, Corresponding

アーバスキュラー菌根実験法（２）アーバスキュラー菌根の観察
大場広輔; 斎藤勝晴; 藤吉正明
土と微生物, 60(1), 57 - 61, Apr. 2006, Refereed, Not invited
Lead

アーバスキュラー菌根実験法（４）アーバスキュラー菌根菌の分離・増殖・接種法
斎藤勝晴; 田島賢
土と微生物, 60(1), 71 - 73, Apr. 2006, Refereed, Not invited
Lead, Corresponding

Arbuscular菌根研究へのDNAマーカーの応用
斎藤勝晴; 菅原和夫
東北草地研究会誌, 11(6), 49 - 56, 1998, Not invited
Lead

もっと菌根の世界
齋藤勝晴, Joint work, 根粒共生から菌根共生を探る
築地書館, Sep. 2023
ISBN:9784806716556

実践土壌学シリーズ 3「土壌生化学」
齋藤勝晴, Joint work, 共生の生化学
朝倉書店, 99-116 Feb. 2019
ISBN:9784254435733

食と微生物の事典
齋藤勝晴, Joint work, 植物と菌根菌との共生
朝倉書店, 406-407 Jul. 2017
ISBN:9784254431216

Molecular Mycorrhizal Symbiosis
Saito Katsuharu; Ezawa Tatsuhiro, Joint work, Phosphorus metabolism and transport in arbuscular mycorrhizal symbiosis
John Wiley & Sons, 197-216 Oct. 2016
ISBN:9781118951446

種生物学会編『共進化の生態学 : 生物間相互作用が織りなす多様性』
斎藤勝晴・川口正代司, Joint work, アーバスキュラー菌根共生系から根粒共生系への進化
文一総合出版, 237-260 Mar. 2008

種生物学会編『共進化の生態学 : 生物間相互作用が織りなす多様性』
齋藤勝晴・川口正代司, Joint work, アーバスキュラー菌根以外の菌根
文一総合出版, 261-263 Mar. 2008

プラントミメティックス -植物に学ぶ-
斎藤勝晴・川口正代司, Joint work, 菌根菌、根粒菌、線虫との相互作用
エヌ・ティー・エス, 531-535 Aug. 2006

草地学実験調査法
斎藤勝晴・小島知子, Joint work, 草本類の共生微生物に関する調査法 菌根菌
全国農村教育協会, 162-166 Mar. 2004

共生性ケカビ門菌類の多様性解析手法の開発
原田峻介; 齋藤勝晴
日本草地学会, Sep. 2024, Not invited

菌根共生におけるポリリン酸を介したリン輸送
大橋実佳; Nguyen Thi Cuc; 齋藤勝晴
日本草地学会, Sep. 2024, Not invited

土づくりのためのアーバスキュラー菌根菌の培養技術
齋藤勝晴
信州大学見本市, Sep. 2024, Not invited,

気候変動と私たちの食べものの関係
齋藤勝晴
信州上田丸子夏期大学, Sep. 2024, Invited

菌根経路を介したリン輸送におけるパープル酸性ホスファターゼの機能
大橋実佳; Nguyen Thi Cuc; 齋藤勝晴
日本土壌肥料学会, Sep. 2024, Not invited

アーバスキュラー菌根菌のプロトプラスト作出における細胞壁分解酵素ミックスの検討
安達京介; 齋藤勝晴
植物微生物研究会, Aug. 2024, Not invited,

ソルガムのTILLING M1集団における次世代シーケンサーによる変異導入効率の評価
山本果凜; 祢次金和樹; 齋藤勝晴
植物微生物研究会, Aug. 2024, Not invited

アーバスキュラー菌根共生のリン輸送におけるパープル酸性ホスファターゼの機能
大橋実佳; Nguyen Thi Cuc; 齋藤勝晴
植物微生物研究会, Aug. 2024, Not invited

Low temperature tolerance of arbuscular mycorrhizal fungi produced by asymbiotic culture
Fujiwara, Y; Ozawa, G; Saito, K
12th International Conference on Mycorrhiza, Aug. 2024, Not invited

地球沸騰化時代の食と農業
齋藤勝晴
飯田高校, Jul. 2024, Not invited

アーバスキュラー菌根共生のリン輸送におけるパープル酸性ホスファターゼの役割
大橋実佳; Nguyen Thi Cuc; 齋藤勝晴
日本土壌微生物学会, Jun. 2024, Not invited

農業から考える環境問題
齋藤勝晴
第6回島内農業文庫友の会講座講演会, Feb. 2024, Invited

Enhancing asymbiotic growth in arbuscular mycorrhizal fungi using mixed fatty acids
Saito, K
The 6th Asia-Pacific Conference on Plant-Microbe Symbiosis and Nitrogen Fixation, Jan. 2024, Invited,

気候変動と農業の関係を考える
齋藤勝晴
八ヶ岳自給圏をつくる会．第15回講演会「気候と生物多様性の危機～農業から考える解決策」, Dec. 2023, Invited

共生性エンドゴン菌類の多様性解析手法の開発
原田峻介; 野尻智洋; 尾関明子; 齋藤勝晴
日本土壌肥料学会関東支部会, Nov. 2023, Not invited

アーバスキュラー菌根菌の低温耐性と脂質組成の関係
藤原優介; 小澤元輝; 齋藤勝晴
植物微生物研究会, Sep. 2023, Not invited,

純粋培養で増殖したアーバスキュラー菌根菌の脂質組成
藤原優介; 小澤元輝; 齋藤勝晴
日本土壌肥料学会（愛媛大学）, Sep. 2023, Not invited

土づくりのためのアーバスキュラー菌根菌の培養・貯蔵技術
齋藤勝晴
大学見本市 2023～イノベーション・ジャパン（東京ビックサイト）, Aug. 2023, Not invited

SDGs農業を促進する共生微生物の培養・貯蔵技術
齋藤勝晴
JST新技術説明会 (オンライン), Aug. 2023, Not invited

気候変動と農業の関係を考える
齋藤勝晴
北海道静内農業高校セミナー（オンライン）, Jul. 2023, Invited

脂肪酸と糖の添加によるアーバスキュラー菌根菌の培養化
藤原優介・齋藤勝晴
日本草地学会, Mar. 2023

気候変動と農業の関係を考える
齋藤勝晴
八ヶ岳中央農業実践大学校 農林技術アカデミー第16回セミナー, Feb. 2023, Invited

アーバスキュラー菌根菌の非共生的成長に対する不飽和脂肪酸の効果
小澤元輝・齋藤勝晴
菌根研究会, Dec. 2022

Sustainable P resource management - The use of arbuscular mycorrhizal symbiosis
Saito, K
"Innovation in Sustainable Agriculture for Our Future", The 5th International Summer Course Unpad 2022, Nov. 2022, Invited

アーバスキュラー菌根菌の非共生的成長に対するオレイン酸の効果
小澤元輝・齋藤勝晴
日本土壌肥料学会, Sep. 2022

アーバスキュラー菌根菌VTC4はポリリン酸の合成と分解を触媒する
Nguyen Thi Cuc・江沢辰広・齋藤勝晴
植物微生物研究会, Sep. 2022

Utilization of myristate and palmitate as carbon sources in arbuscular mycorrhizal fungi
Sugiura, Y; Akiyama, R; Tanaka, S; Yano, K; Kameoka, H; Marui, S; Saito, M; Kawaguchi, M; Akiyama, K; Saito, K
11th International Conference on Mycorrhiza, Aug. 2022

アーバスキュラー菌根菌VTC4タンパク質のポリリン酸合成・利用反応
Nguyen Thi Cuc・江沢辰広・齋藤勝晴
菌根研究会, Nov. 2021

Stimulation of asymbiotic sporulation in arbuscular mycorrhizal fungi by fatty acids
Kameoka, H., Saito, K., Kawaguchi, M., Akiyama, K.
日本生化学会, Nov. 2021

アーバスキュラー菌根菌における脂肪酸誘導胞子の低温貯蔵性
猪野晃司・齋藤勝晴
日本土壌肥料学会, 14 Sep. 2021

アーバスキュラー菌根菌の純粋培養の可能性
杉浦優太・秋山礼伊・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
日本土壌肥料学会, Sep. 2021

菌根共生で誘導されるパープル酸性ホスファターゼ遺伝子の網羅的探索
大橋実佳・杉村悠作・江沢辰広・齋藤勝晴
日本土壌肥料学会, Sep. 2021

アーバスキュラー菌根菌におけるミリスチン酸の炭素源としての利用
杉浦優太・秋山礼伊・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
植物微生物研究会, Sep. 2021

The cytosolicglycerol-3-phosphate dehydrogenase GPDH3 is required for the mycorrhizal symbiosis in Lotus japonicus.
Yeh, T, Sugimura, Y., Igarashi, T., Katou, S., Saito, K.
植物微生物研究会, Sep. 2021

固定化培養法によるアーバスキュラー菌根菌に非共生的増殖
秋山礼伊・杉浦優太・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
日本菌学会, Aug. 2021

アーバスキュラー菌根菌の非共生的成長に対するミリスチン酸の効果
杉浦優太・秋山礼伊・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
日本土壌微生物学会, Jun. 2021

ストリゴラクトンとジャスモン酸メチルは非共生状態でアーバスキュラー菌根菌R. clarus HR1の増殖を促進する
田中幸子・橋本佳世・小林裕樹・矢野幸司・前田太郎・亀岡啓・江沢辰広・齋藤勝晴・秋山康紀・川口正代司
日本植物生理学会, Mar. 2021

アーバスキュラー菌根菌の脂肪酸の利用性
杉浦優太・秋山礼伊・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
日本土壌肥料学会, Sep. 2020

アーバスキュラー菌根菌におけるミリスチン酸の炭素源としての利用
杉浦優太・秋山礼伊・田中幸子・矢野幸司・亀岡啓・丸井汐里・齋藤雅典・川口正代司・秋山康紀・齋藤勝晴
日本菌学会, Jun. 2020, Not invited

アーバスキュラー菌根のリン酸輸送におけるポリリン酸代謝の役割
150. Nguyen Thi Cuc・齋藤勝晴
植物微生物研究会, Sep. 2019, Not invited

非共生時のアーバスキュラー菌根菌の成長に対する脂肪酸の効果
秋山礼伊・杉浦優太・齋藤勝晴
日本土壌肥料学会, Sep. 2019, Not invited

ミヤコグサH+-ATPase変異体を用いた菌根経路におけるリン酸輸送の解析
Nguyen Thi Cuc・齋藤勝晴
日本土壌肥料学会, Sep. 2019, Not invited

Polyphosphate metabolism in arbuscular mycorrhizal fungi in relation to phosphate transfer to their host
Saito, K.
10th International Conference on Mycorrhiza. Merida, Mexico., Jul. 2019, Invited

Fatty acids promote energy production of arbuscular mycorrhizal fungi under asymbiotic conditions
Akiyama, R., Sugiura, Y., Saito, K.
10th International Conference on Mycorrhiza. Merida, Mexico., Jul. 2019, Not invited

Fungal phosphate export via SYG1 triggers symbiosis-specific lipid biosynthesis in the host of arbuscular mycorrhiza
Maruyama, H., Asaeda, S., Yokoyama, K., Sugimura, Y., Saito, K., Masuta, C., Ezawa, T.
植物生理学会, Mar. 2019, Not invited

Glycerol-3 phosphate dehydrogenase GPDH3 is involved in arbuscule branching in Lotus japonicus
Igarashi, T., Sugimura, Y., Saito, K.
4th International Molecular Mycorrhiza Meeting, Feb. 2019, Not invited

Polyphosphate localization in Rhizophagus irregularis colonizing in a H+-ATPase ha1 mutant of Lotus japonicus
Nguyen, T. C., Saito, K.
4th International Molecular Mycorrhiza Meeting, Feb. 2019, Not invited

菌根菌からのリン酸放出が樹枝状体形成に関わる植物遺伝子群の発現を調節する
丸山隼人・浅枝諭史・横山 楓・杉村悠作・齋藤勝晴・増田 税・江沢辰広
菌根研究会, Dec. 2018, Not invited

樹枝状形成に関与する脂肪合成経路
五十嵐大義・杉村悠作・齋藤勝晴
植物微生物研究会, Sep. 2018, Not invited

樹枝状体形成におけるグリセロール-3-リン酸デヒドロゲナーゼGPDH3の関与
五十嵐大義・杉村悠作・齋藤勝晴
日本土壌肥料学会, Aug. 2018, Not invited

Glycerol-3 phosphate dehydrogenase GPDH3 is required for arbuscule formation in Lotus japonicus
Igarashi, T., Sugimura, Y., Saito, K.
The 23rd International Symposium on Plant Lipids, Jul. 2018, Not invited

Arbuscular mycorrhizal communities in semi-natural grasslands
Saito, K
7th International Symposium on Integrated Field Science, 2009, Not invited

The American Society of Plant Biologists

International Mycorrhiza Society

Japanese Society of Plant Microbe Interactions

Japanese Conference on Mycorrhiza

The Mycological Society of Japan

The Japanese Society of Plant Physiologists

Japanese Society of Soil Microbiology

Japanese Society of Grassland Science

Japanese Society of Soil Science and Plant Nutrition

Phosphate translocation in arbuscular mycorrhizal fungi

Moleculoar mechanism of mycorrhizal development

Inoculum development of arbuscular mycorrhizal fungi

Others
Soil Science and Plant Nutrition, 2023

Others
Frontiers in Plant Science, 2022