2017
Matsuoka, J., Ishizuna, F., Kurumisawa, K., Morohashi, K., Ogawa, T., Hidaka,
M., Saito, K., Ezawa, T., Aono, T. (2017) A putative TetR-type transcription
factor AZC_3265 from the legume symbiont Azorhizobium caulinodans represes the production of R-bodies that are toxic to eukaryotic cells.
Soil Science and Plant Nutrition. 63, 452-459. [Taylor & Francis Online]
Matsuoka, J., Ishizuna, F., Kurumisawa, K., Morohashi, K., Ogawa, T., Hidaka,
M., Saito, K., Ezawa, T., Aono, T. (2017) Stringent expression control
of pathogenic R-body production in legume symbiont Azorhizobium caulinodans. mBio. 8, e00715-00717. [PubMed]
Sugimura, Y., Saito, K. (2017) Comparative transcriptome analysis between
Solanum lycopersicum L. and Lotus japonicus L. during arbuscular mycorrhizal development. Soil Science and Plant Nutrition. 63(2), 127-136. [Taylor & Francis Online]
(トマトとミヤコグサの菌根について遺伝子発現プロファイルを比較した。両植物間で共通の菌根応答遺伝子がある一方で、植物独自の菌根応答性遺伝子も多く存在した。)
Sugimura, Y., Saito, K. (2017) 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. Mycorrhiza 27(2), 139-146. [PubMed]
(高濃度リン酸による菌根抑制時に、菌根菌の細胞周期関連遺伝子と分泌タンパク質遺伝子の発現が低下することを明らかにした。)
2016
Kikuchi, Y., Hijikata, N., Ohtomo, R., Handa, Y., Kawaguchi, M., Saito,
K., Masuta, C., Ezawa, T. (2016) Aquaporin-mediated long-distance polyphosphate
translocation directed towards the host in arbuscular mycorrhizal symbiosis:
application of virus-induced gene silencing. New Phytologist 211(4), 1202-1208. [PubMed]
2015
Handa, Y., Nishide, H., Takeda, N., Suzuki, Y., Kawaguchi, M., Saito, K. (2015) RNA-seq transcriptional profiling of an arbuscular mycorrhiza provides insights into regulated and coordinated gene expression in Lotus japonicus and Rhizophagus irregularis. Plant and Cell Physiology. 56(8), 1490-1511. [PubMed]
(トランスクリプトーム解析から菌根共生に関与すると思われる遺伝子をリストアップした。)
Kobae, Y., Kawachi, M., Saito, K., Kikuchi, Y., Ezawa, T., Maeshima, M., Hata, S., Fujiwara, T. (2015) Up-regulation of genes involved in N-acetylglucosamine uptake and metabolism suggestes a recycling mode of
chitin in intraradical mycelium of arbuscular mycorrhizal fungi. Mycorrhiza. 25(5), 411-417. [PubMed]
Funamoto, R., K. Saito, H. Oyaizu, T. Aono, and M. Saito (2015) Vacuolar
pH of living hyphae of an arbuscular mycorrhizal fungus, Gigaspora margarita. Mycorrhiza. 25(1), 55-60. [PubMed]
(アーバスキュラー菌根菌の液胞pHを明らかにした。)
2014
Chungopast, S., H. Hirakawa, S. Sato, Y. Handa, K. Saito, M. Kawaguchi, S. Tajima, M. Nomura (2014) Transcriptomic profiles of nodule senescence in Lotus japonicus and Mesorhizobium loti symbiosis. Plant Biotechnology. 31, 345-349. [J-Stage]
Kikuchi, Y., N. Hijikata, K. Yokoyama, R. Ohtomo, Y. Handa, M. Kawaguchi,
K. Saito, and T. Ezawa (2014) Polyphosphate accumulation is driven by transcriptome
alterations that lead to near-synchronous and -equivalent uptake of inorganic
cations in an arbuscular mycorrhizal fungus. New Phytlogist. 204(3), 638-649. [PubMed]
Kojima, T., K. Saito, H. Oba, Y. Yoshida, J. Terasawa, Y. Umehara, N. Suganuma, M. Kawaguchi, and R. Ohtomo (2014) Isolation and phenotypic characterization of Lotus japonicus mutants specifically defective in arbuscular mycorrhizal formation. Plant and Cell Physiology. 55(5), 928-941. [PubMed]
(ミヤコグサの菌根共生変異体を単離した。)
2013
Tisserant, E., Malbreil, M., Kuo, A., Kohler, A., Symeonidi, A., Balestrini, R., Charron, P., Duensing, N., dit Frey, N. F., Gianinazzi-Pearson, V., Gilbert, B., Handa, Y., Herr, J., Hijri, M., Koul, R., Kawaguchi, M., Krajinski, F., Lammers, P., Masclaux, F. G., Murat, C., Morin, E., Ndikumana, S., Pagni, M., Petitpierre, D., Requena, N., Rosikiewicz, P., Riley, R., Saito, K., Clemente, H. S., Shapiro, H., van Tuinen, D., Bécard, G., Bonfante, P., Paszkowski, U., Shachar-Hill, Y., Tuskan, G. A., Young, J. P. W., Sanders, I. R., Henrissat, B., Rensing, S. A., Grigoriev, I. V., Corradi, N., Roux, C. and Martin, F. (2013) The genome of an arbuscular mycorrhizal fungus provides insights into the oldest plant symbiosis. Proceedings of the National Academy of Sciences of the United States of America. 110(50), 20117-20122. [PubMed]
(アーバスキュラー菌根菌のゲノム配列を決定した。)
2012
Gomes, F. M., Carvalho, D. B., Peron, A. C., Saito, K., Miranda, K., and
E. A. Machado. (2012) Inorganic polyphosphates are stored in spherites
within the midgut of Anticarsia gemmatalis and play a role in copper detoxification. Journal of Insect Physiology. 58(2), 211-219.[PubMed]
2011
Ramos, I., Gomes, F., Koeller, C. M., Saito, K., Heise, N., Masuda, H.,
Decampo, R., de Souza, W., Machado, E. A., and K. Miranda. (2011) Acidocalcisomes
as calcium- and polyphosphate-storage compartments during embryogenesis
of the insect Rhodnius prolixus Stahl. PLoS One. 6(11), e27276. [PLoS One]
2008
Kuga Y., K. Saito, K. Nayuki, R. L. Peterson, and M. Saito. (2008) Ultrastructure
of rapidly-frozen and freeze-substituted germ tubes of an arbuscular mycorrhizal
fungus and localization of polyphosphate. New Phytologist. 178(1), 189-200. [PubMed]
(アーバスキュラー菌根菌の微細構造とポリリン酸の局在を明らかにした。)
Mishima E., A. Hosokawa, H. Imaizumi-Anraku, K. Saito, M. Kawaguchi, and K. Saeki. (2008) Requirement of Mesorhizobium loti ornithine transcarbamoylase for successful symbiosis with Lotus japonicus as revealed by an unexpected long-range genome deletion. Plant & Cell Physiology. 49(3), 301-313 [PubMed]
2007
Funamoto R, K. Saito, H. Oyaizu, M. Saito, and T. Aono. (2007) Simulataneous
in situ detection of alkaline phosphatase activity and polyphosphate in
arbuscules within arbuscular mycorrhizal roots. Functional Plant Biology. 34(9), 803-810. [CSIRO Publishing]
(ミヤコグサの菌根誘導性リン酸トランスポーターLjPT3の発現を抑制すると、樹枝状体にポリリン酸が蓄積する。)
Saito K., M. Yoshikawa, K. Yano, H. Miwa, H. Uchida, E. Asamizu, S. Sato,
S. Tabata, H. Imaizumi-Anraku, Y. Umehara, H. Kochi, Y. Murooka, K. Szczyglowski,
J. A. Downie, M. Parniske, M. Hayashi, and M. Kawaguchi. (2007) NUCLEOPORIN85
is required for calcium spiking, fungal and bacterial symbioses and seed
production in Lotus japonicus. Plant Cell. 19(2), 610-624. [PubMed]
(菌根と根粒の形成に必須の遺伝子であるミヤコグサのNUP85を同定した。)
2006
Saito K., Y. Kuga-Uetake, M. Saito and R. L. Peterson. (2006) Vacuolar localization of phosphorus in hyphae of Phialocephala fortinii, a dark septate fungal root endophyte. Canadian Journal of Microbiology. 53(7), 643-650. [PubMed]
(エンドファイトの液胞の構造とポリリン酸蓄積を明らかにした。雑誌の表紙を飾る。)
佐藤航一・斎藤勝晴・菅原和夫(2006)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.日本草地学会誌.51(4),
333-340.
Nishikawa K., H. Machida, Y. Yamakoshi, R. Ohtomo, K. Saito, M. Saito,
and N. Tominaga. (2006) Polyphosphate metabolism in an acidophila alga
Chlamydomonas acidophila KT-1 (Chlorophyta) under phosphate stress. Plant Science. 170(2), 307-313. [ScienceDirect]
Sandal N., T. R. Petersen, J. Murray, Y. Umehara, B. Karas, K. Yano, H.
Kumagai, M. Yoshikawa, K. Saito, M. Hayashi, Y. Murakami, X. Wang, T. Hakoyama,
H. Imaizumi-Anraku, S. Sato, T. Kato, W. Chen, Md. S. Hossain, S. Shibata,
T. Wang, K. Yokota, K. Larsen, N. Kanamori, E. Madsen, S. Radutoiu, L.
H. Madsen, T. G. Radu, L. Krusell, Y. Ooki, M. Banba, M. Betti, N. Rispail,
L. Skøt, E. Tuck, J. Perry, S. Yoshida, K. Vickers, J. Pike, L. Mulder,
M. Charpentier, J. Müller, R. Ohtomo, T. Kojima, S. Ando, A. J. Marquez,
P. M. 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. (2006) Genetics of symbiosis in Lotus japonicus: recombinant inbred lines, comparative genetic maps and map position of
35 symbiotic loci. Molecular Plant-Microbe Interactions. 19(1), 80-91. [PubMed]
2005
Saito K., R. Ohtomo, Y. Kuga-Uetake, T. Aono and M. Saito. (2005) Direct
labeling of polyphosphate at the ultrastructural level in Saccharomyces cerevisiae using an affinity of polyphosphate binding domain of Escherichia coli exopolyphosphatase. Applied and Environmental Microbiology. 71(10), 5692-5701. [PubMed] [SOAR]
(ポリリン酸の細胞内局在を視覚化する方法を開発)
Kawaguchi M., A. Pedrosa-Harand, K. Yano, M. Hayashi, Y. Murooka, K. Saito,
K. Namai, H. Nishida, D. Shibata, S. Sato, S. Tabata, M. Hayashi, K. Harada,
N. Sandal, J. Stougaard, A. Bachmair, and W. F. Grant. (2005) Lotus burttii takes a position of the third corner in the Lotus molecular genetics triangle. DNA Research. 12(1), 69-77. [PubMed]
2004
Saito K., Y. Suyama, S. Sato and K. Sugawara. (2004) Defoliation effects
on the community structure of arbuscular mycorrhizal fungi based on 18S
rDNA sequences. Mycorrhiza. 14(6), 363-373. [PubMed]
(野草地のアーバスキュラー菌根菌の群集構造を明らかにした。)
Saito K., Y. Uetake and M. Saito. (2004) Acidic vesicles in living hyphae of an arbuscular mycorrhizal fungus, Gigaspora margarita. Plant and Soil. 261(1-2), 231-237. [SpringerLink]
(アーバスキュラー菌根菌の菌糸内に酸性を示す小胞が多く存在することを明らかにした。)
2003
烏恩・斎藤勝晴・佐藤衆介・菅原和夫(2003)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.日本草地学会誌.49(1), 52-54.
2002
烏恩・斎藤勝晴・佐藤衆介・菅原和夫(2002)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.日本草地学会誌.48(3), 248-253.
2001
Saito K., A. Nishiwaki and K. Sugawara. (2001) Nested PCR amplification
of arbuscular mycorrhizal fungal 18S rRNA genes from field-collected roots.
Grassland Science. 47(1), 1-8.
2000
Saito K., A. Nishiwaki and K. Sugawara. (2000) DNA extraction from arbuscular
mycorrhizal roots of Miscanthus sinensis Anderss. collected in the native grassland. Grassland Science. 46(2), 182-184.
亀岡啓・齋藤勝晴・川口正代司・秋山康紀(2020)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.バイオサイエンスとインダストリー.78, 8-13.
齋藤勝晴(2019)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.日本草地学会誌.64, 276-283.
菅原幸哉・山下雅幸・齋藤勝晴(2019)植生をめぐる微生物の生態学ーはじめにー.日本草地学会誌.64, 263-265.
Saito, K. (2018) Toward assessing the contribution of arbuscular mycorrhizal symbiosis to plant P nutrition. Journal of Integrated Field Science. 15, 26-30.
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 (2014) 菌根共生からみる植物栄養の新時代.土壌肥料科学雑誌.85(3), 279-284.
齋藤勝晴(2014)草地・耕地生態系の菌根の生理生態と利用 -はじめに-.日本草地学会誌.59(4), 261-262.
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(2012)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.日本土壌肥料学会誌.83(2), 216-221.
齋藤勝晴・林誠(2011)アーバスキュラー菌根菌との共生.細胞工学.30(2), 149-154.
Saito K. and K. Sugawara (2010) Seasonal variation of arubuscular mycorrhizal
fungal colonization for coexisitng plant species in Miscanthus-type semi-natural grassland. Journal of Integrated Field Science. 7, 29-35
齋藤勝晴(2008)菌根菌.日本土壌肥料学雑誌.79(6), 555-557
斎藤勝晴・久我ゆかり・斎藤雅典(2007)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.土と微生物.61(1), 79-82.
斎藤勝晴・田島賢(2006)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.土と微生物.60(1), 71-73.
大場広輔・斎藤勝晴・藤吉正明(2006)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.土と微生物.60(1), 57-61.
江沢辰広・斎藤勝晴・青野俊裕 (2004)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.日本土壌肥料科学雑誌.75(6), 737-746.
斎藤勝晴・菅原和夫(1998)Arbuscular菌根研究へのDNAマーカーの応用.東北草地研究会誌.11, 49-56.