発表論文/著書 Research Papers/Books
Publications / 全研究業績一覧
(西暦) 2024年1月1日現在
* These authors contributed equally to this study.† Corresponding author
Books / 著書
5) Matsukura, C.† : Chapter 9. Sugar accumulation in tomato fruit and its modification by molecular breeding techniques. Ed., Ezura H., T., Ariizumi, J., Garcia-Mas, J., Rose, Functional Genomics and Biotechnology in Solanaceae and Cucurbitaceae Crops, Springer., NewYork, pp. 141-154, 2016.
4) Saito, T., C. Matsukura† : Chapter 1: Effect of salt stress on the growth and fruit quality of tomato Plants, Part I, Stress physiology and molecular biology in horticultural plants, Ed., Kanayama, Y., Kochetov, A., Abiotic Stress Biology in Horticultural Plants, Springer Japan, Tokyo, pp. 3-16, 2015.
3) 松倉千昭†: 第7章 接ぎ木による新しい遺伝子組換え技術の開発,植物育種技術を理解しよう−NBT (new breeding technology)−, 江面浩, 大澤良 監修, 国際文献印刷, pp. 67-78, 2013.
2) 山口淳二, 松倉千昭 : 19. 作物の発育, 発芽. 新編農学大事典, 山崎耕宇, 石原邦 他監修, 養賢堂, pp. 686-691, 2004.
1) 山口 淳二, 松倉千昭 : α-アミラーゼの誘導. ・植物ホルモンと細胞の形, 今関英雅, 柴岡弘郎編, 学会出版センター, pp. 43-52, 1998.
Research Articles・Reviews / 原著論文・総説
45) Yin Y-G, Sanuki A, Goto Y, Suzui N, Kawachi N, Matsukura C† : ADP-glucose pyrophosphorylase genes are differentially regulated in sugar-dependent or -independent manners in tomato (Solanum lycopersicum L.) fruit. Plant Biotechnology, doi: 10.5511/plantbiotechnology.23.1004a, 2023.
44) Moalla R, Baldet P, Gibon Y, Matsukura C, Ariizumi T, Ezura H, Fukuda N : Differences of blossom-end rot resistance in tomato cultivars associates with total ascorbate rather than calcium concentration in the distal end part of fruits per se. Horticultural Journal, doi: 10.2503/hortj.OKD-150, 2018.
43) NONAKA S., C. ARAI, M. TAKAYAMA, C. Matsukura, H. Ezura : Efcient increase of γ-aminobutyric acid (GABA) content in tomato fruits by targeted mutagenesis. Scientific Reports, 7: 7057 DOI:10.1038/s41598-017-06400-y, 2017.
42) TAKAYAMA M., C. Matsukura, T. Ariizumi, H. Ezura : Activating glutamate decarboxylase activity by removing the autoinhibitory domain leads to hyper γ-aminobutyric acid (GABA) accumulation in tomato fruit. Plant Cell Report, 36: 103-116, 2017.
41) Lu Y., S. Yasuda, X-G. Li, Y. Fukao, T. Tohge, AR. Fernie, C. Matsukura, H. Ezura, J. Yamaguchi : Characterization of ubiquitin ligase SlATL31 and proteomic analysisof 14-3-3 targets in tomato fruit tissue (Solanum lycopersicum L.). Journal of Proteomics, 143: 254-264, 2016.
40) Thagun C., S. Imanishi, T. Kudo, R. Nakabayashi, K. Ohyama, T. Mori, K. Kawamoto, Y. Nakamura, M. Katayama, S. Nonaka, C. Matsukura, K. Yano, H. Ezura, K. Saito, T. Hashimoto, T. Shoji : Jasmonate-Responsive ERF Transcription Factors Regulate Steroidal Glycoalkaloid Biosynthesis in Tomato. Plant Cell Physiology, 57(5): 961-975, 2016.
39) Suzuki R., S. Ota, T. Yamazaki, A. Toyoda, S. Nonaka, C. Matsukura, K. Kuwano, S. Kawano : Morphological changes of giant mitochondria in the unicellular to multicellular phase during parthenogenesis of Ulva partita (Ulvophyceae) revealed by expression of mitochondrial targeting GFP and PEG transformation. Phycological Research, 64(3): 176-184, 2016.
38) Huang Y-X., Y. Gotoi, S. Nonaka, N. Fukuda, H. Ezura, C. Matsukura† : Overexpression of the phosphoenolpyruvate carboxykinase gene (SlPEPCK) promotes soluble sugar accumulation in fruit and post-germination growth of tomato (Solanum lycopersicum L.) Plant Biotechnology, 32: 281-289, 2015.
37) Huang Y-X., Y-G. Yin, A. Sanuki, N. Fukuda, H. Ezura, C. Matsukura† : Phosphoenolpyruvate carboxykinase (PEPCK) deficiency affects the germination, growth and fruit sugar content in tomato (Solanum lycopersicum L.). Plant Physiology and Biochemistry, 96: 417-425, 2015.
36) Takayama M., S. Koike, M. Kusano, C. Matsukura, K. Saito, T. Ariizumi, H. Ezura : Tomato glutamate decarboxylase genes SlGAD2 and SlGAD3 play key roles in regulating γ-aminobutyric acid levels in tomato (Solanum lycopersicum). Plant Cell Physiology, 56:1533-1545, 2015.
35) Goto Y., S. Nonaka, Y-G. Yin, T. Koiwa, E. Asamizu, H. Ezura, C. Matsukura† : Isolation and characterisation of the ADP-glucose pyrophosphorylase small subunit gene (AgpS1) promoter in tomato (Solanum lycopersicum L.). Plant Biotechnology, 30: 279-286, 2013.
34) Koike S, Matsukura C, Takayama M, Asamizu E, Ezura H. : Suppression of γ-aminobutyric acid (GABA) transaminases induces prominent GABA accumulation, dwarfism and infertility in the tomato (Solanum lycopersicum L.). Plant Cell Physiology, 54: 793-807, 2013.
33) Aouini A., M. Hernould, T. Ariizumi, C. Matsukura, H. Ezura, E. Asamizu Overexpression of the tomato glutamate receptor-like genes SlGLR1.1 and SlGLR3.5 hinders Ca2+ utilization and promotes hypersensitivity to Na+ and K+ stresses. Plant Biotechnology, 29: 229-235, 2012.
32) Mae M., Y. Makino, S. Oshita, Y. Kawagoe, A. Tanaka, K. Aoki, A. Kurabayashi, T. Akihiro, K. Akama, S. Koike, M. Takayama, C. Matsukura, H. Ezura : Accumulation mechanism of γ-aminobutyric acid in tomatoes (Solanum lycopersicum L.) under low O2 with and without CO2. J. Agri. Food Chem., 60: 1013-1019, 2012.
31) Aouini A., C. Matsukura, H. Ezura, E. Asamizu : Characterisation of 13 glutamate receptor-like genes encoded in the tomato genome by structure, phylogeny and expression profiles. Gene, 493: 36-43, 2012.
30) Nakaune M., K. Tsukazawa, H. Uga, E. Asamizu, S. Imanishi, C. Matsukura, H. Ezura : Low sodium chloride priming increases seedling vigor and stress tolerance to Ralstonia solanacearum in tomato. Plant Biotechnology, 29: 9-18, 2012.
29) Nakaune M., A. Hanada, Y-G. Yin, C. Matsukura, S. Yamaguchi, H. Ezura : Molecular and physiological dissection of enhanced seed germination using short-term low-concentration salt seed priming in tomato. Plant Physiology and Biochemistry, 52: 28-37, 2012.
28) Saito T., Y.-G. Yin, M. Matsuoka, S. Watanabe, C. Matsukura, N. Fukuda : An investigation of differences in fruit yield and components contributing to increased fruit yield in Japanese and Dutch tomato cultivars. Plant Biotechnology, 28: 455-461, 2011.
27) Okabe Y., E. Asamizu, T. Saito, C. Matsukura, T. Ariizumi, C. Bres, C. Rothan, T. Mizoguchi, H. Ezura : Tomato TILLING technology: Development of a reverse genetics tool for the efficient isolation of mutants from Micro-Tom mutant libraries. Plant Cell Physiology, 52: 1994-2005, 2011.
26) Neily M.H., P. Baldet, I. Arfaoui, T. Saito, Q.-L. Li, E. Asamizu, C. Matsukura, T. Moriguchi, H. Ezura : Overexpression of apple spermidine synthase 1 (MdSPDS1) leads to significant salt tolerance in tomato plants. Plant Biotechnology, 28: 33-42, 2011.
25) Neily M.H., C. Matsukura, M. Maucourt, S. Bernillon, C. Deborde, A. Moing, Y.-G. Yin, T. Saito, K. Mori, E. Asamizu, D. Rolin, T. Moriguchi, H. Ezura : Enhanced Polyamine Accumulation Alters Carotenoid Metabolism at the Transcriptional Level in Tomato Fruit Over-expressing Spermidine Synthase. J. Plant Physiol. 168: 242-252, 2011.
24) Mae N., Y. Makino, S. Oshita, Y. Kawagoe, A. Tanaka, T. Akihiro, K. Akama, S. Koike, C. Matsukura, H. Ezura : Stimulation of γ-aminobutylic acid production in vine-ripened tomato (Solanum lycopersicum L.) fruits under an adjusted aerobic atmosphere. Journal of Packaging Science & Technology, Japan. 19: 375-381, 2010.
23) Yin Y.-G., T. Tominaga, Y. Iijima, K. Aoki, D. Shibata, H. Ashihara, S. Nishimura, H. Ezura, C. Matsukura† : Metabolic Alterations in Organic Acids and γ-amino Butyric Acid in Developing Tomato (Solanum lycopersicum L.) Fruits. Plant Cell Physiology, 51: 1300?1314, 2010.
22) Yin Y.-G., Y. Kobayashi, A. Sanuki, S. Kondo, N. Fukuda, H. Ezura, S. Sugaya, C. Matsukura† : Salinity induces carbohydrate accumulation and sugar- regulated starch biosynthetic genes in tomato (Solanum lycopersicum L. cv. Micro-Tom) fruits in ABA- and osmotic stress-independent manner. J. Exp. Bot., 61: 563-574, 2010.
21) Yoshimura, M., T. Toyoshi, A. Sano, T. Izumi, T. Fujii, C. Konishi, S. Inai, C. Matsukura, N. Fukuda, H. Ezura, A. Obata : Antihypertensive effect of a gamma-aminobutyric acid rich tomato cultivar ‘DG03-9’ in spontaneously hypertensive rats. J. Agri. Food Chem., 58: 615-619, 2010.
20) Saito, T., N. Fukuda, C. Matsukura, S. Nishimura : Effect of the salinity treatment on the distribution of photosynthates and the carbohydrate metabolism of the hydroponically grown tomato fruits. J. Japan. Soc. Hort. Sci., 78: 90-96, 2009.
19) Saito, T., E. Asamizu, T. Mizoguchi, N. Fukuda, C. Matsukura, H. Ezura: Mutant resources for the miniature tomato (Solanum lycopersicum L.) ‘Micro-Tom’. J. Japan. Soc. Hort. Sci., 78: 6-13, 2009.
18) Matsukura, C., K. Aoki, N. Fukuda, T. Mizoguchi, E. Asamizu, T. Saito, D. Shibata, H. Ezura: Comprehensive resources for tomato functional genomics based on the miniature model tomato Micro-Tom. Current Genomics, 9: 436-443, 2008.
17) Akihiro, T., S. Koike, R. Tani,, T. Tominaga, S. Watanabe, Y. Iijima, K. Aoki,, D. Shibata, H. Ashihara, C. Matsukura, K. Akama, T. Fujimura, H. Ezura : Biochemical mechanism on GABA accumulation during fruit development in tomato. Plant Cell Physiology 49: 1378-1389, 2008.
16) Saito, T.*, C. Matsukura*, M. Sugiyama, A. Watahiki, I. Ohshima, Y. Iijima, C. Konishi, T. Fujii, S. Inai, N. Fukuda, S. Nishimura, H. Ezura : Screening for γ-aminobutyric acid (GABA)-rich tomato varieties. J. Japan. Soc. Hort. Sci., 77: 242-250, 2008.
15) Saito, T.*, C. Matsukura*, Y. Ban, K. Shoji, M. Sugiyama, N. Fukuda, S. Nishimura : Salinity stress affects assimilate metabolism at the gene-expression level during fruit development and improves fruit quality in tomato (Solanum lycopersicum L.). J. Japan. Soc. Hort. Sci., 77: 61-68, 2008.
14) Matsukura, C., I. Yamaguchi, M. Inamura, Y. Ban, Y. Kobayashi, Y.-G. Yin, T. Saito, C. Kuwata, S. Imanishi, S. Nishimura : Generation of gamma irradiation-induced mutant lines of the miniature tomato (Solanum lycopersicum L.) cultivar ‘Micro-Tom’. Plant Biotechnology, 24: 39-44, 2007.
13) Aoki, K., K. Yano, N. Sakurai, T. Tsugane, M. Watanabe, Y-G. Yin, C. Matsukura, D. Shibata : Expressed-based approach toward functional characterization of tomato genes that have no or weak similarity to Arabidopsis genes. Acta Horticulture, 745: 457-464, 2007.
12) Takeda, T., K. Toyofuku, C. Matsukura, J. Yamaguchi : Sugar transporters involved in flowering and grain development of rice. Journal of Plant Physiology 158: 465-470, 2001.
11) Shimazu, J., C. Matsukura, M. Senda, R, Ishikawa, S. Akada, T. Harada, S. Tabata, M. Niizeki : Characterization of a DMC1 homologue, RiLIM15, in meiotic panicles, mitotic cultured cells and mature leaves of rice (Oryza sativa L.). Theoretical and Applied Genetics, 102: 1159-1163, 2001.
10) Otsuki, S., C. Matsukura, J. Yamaguchi : The expression of a gene encoding Ca2+-binding motif, EF-hand, is induced by sugars in rice embryos. Rice Genetics Newsletter, 17: 92-94, 2000.
9) Loreti, E., C. Matsukura, F. Gubler, A. Alpi, J. Yamaguchi, P. Perata : Glucose repression of α-amylase in barley embryos is independent of GAMYB transcription. Plant Molecular Biology, 44: 85-90, 2000.
8) Matsukura, C.*, T. Saitoh*, T. Hirose, R. Ohsugi, P. Perata, J. Yamaguchi : Sugar uptake and transport in rice embryo. Expression of companion cell-specific sucrose transporter (OsSUT1) induced by sugar and light. Plant Physiology, 124: 85-93, 2000.
7) Matsukura, C., M. Kawai, K. Toyofuku, R. A. Barrero, H. Uchimiya, J. Yamaguchi : Transverse vein differentiation associated with gas space formation - Fate of the middle cell layer in leaf sheath development of rice. Annals of Botany, 85: 19-27, 2000.
6) Shimazu, J., M. Niizeki, C. Matsukura, S. Tabata, R. Ishikawa, T. Harada, M. Senda, S. Akada : Miosis-specific gene RiLIM15 expressed in rice cultured cells. Rice Genetics Newsletter, 15: 171-173, 1998.
5) Matsukura, C., J. Yamaguchi : Starch degradation during gibberellin-induced leaf sheath growth in rice. Rice Genetics Newsletter, 15: 114-117, 1998.
4) Matsukura, C., S. Itoh, K. Nemoto, E. Tanimoto, J. Yamaguchi. : Promotion of leaf sheath growth by gibberellic acid in a dwarf mutant of rice. Planta, 205: 145-152, 1998.
3) Perata, P., C. Matsukura, P. Vernieri, J. Yamaguchi : Sugar repression of a gibberellin-dependent signaling pathway in barley embryos. Plant Cell, 9: 2197-2208, 1997.
2) Matsukura, C., J. Yamaguchi : The first leaf growth promoted by gibberellins in dwarf mutant of rice. Rice Genetics Newsletter, 14: 153-155, 1997.
1) Watanabe, H., C. Matsukura, R. Ishikawa, T. Harada, M. Niizeki : Somaclonal variation of rice calli-clones regenerated after different periods of callus culture. Rice Genetics Newsletter, 13: 145-146, 1996.
Proceedings・Academic Reports・Translations / 報文・学術雑誌記事・翻訳等
7) 松倉 千昭† : フルーツトマトのメカニズムを探る 〜 塩ストレスとデンプンの甘い関係 〜, ハイドロポニックス (日本養液栽培研究会会誌), 28: 32-33, 2015.
6) 奥野 功一, 佐瀬 卓也, 実吉 敬二, 末木 啓介, 富田 悟, 桧垣 正吾, 廣田 昌大, 松倉 千昭, 三好 弘一, 森 一幸, 矢永誠人 : 福島第一原発事故によって土壌等に付着した放射性物質からの被ばく低減法に関する報告, Isotope news, 696: 99-103, 2012.
5) 松倉 千昭 : 37. 植物における輸送. レーヴン/ジョンソン生物学(原書第7版), P.レーヴィ, G.ジョンソン, J.ロソス, S.シンガー共著, R J Biology翻訳委員会/監訳, 培風館, pp767?779, 2007. (英文邦訳)
4) Matsukura, C., T Saitoh, T Hirose, R Ohsugi, J Yamaguchi : Analyses of sugar transport via the vascular system in rice. Advances in Rice Genetics, Los Baños, Laguna, Philippines, 22-27 October 2000, Ed, GS Khush, DS Brar, B Hardy, World Scientific Publishing Co. Pte. Ltd, pp. 462-464, 2003. (Proceeding)
3) Watanabe, H., C. Matsukura, M. Senda, R. Ishikawa, S. Akada, T. Harada, M. Niizeki : Somaclonal variation used to produce mother plants in rice breeding programs. Bulletin of the Faculty of Agriculture & Life Science, Hirosaki University, 2, 1-6, 2000. (紀要)
2) 松倉千昭, 山口淳二 : 植物の篩管輸送と糖転流 スクローストランスポーターはどのように発現し機能するか. 化学と生物, 37:639-642, 1999.
1) Yamaguchi, J., K. Toyofuku, A. Morita, A. Ikeda, C. Matsukura, P. Perata Sugar repression of α-amylase genes in rice embryos. 8th International Symposium on Pre-harvest Sprouting in Cereals 1998, Ed Weipert, D., Detmold, pp. 136-145, 1999. (Proceeding)
Patents / 特許等
2) 発明の名称 : DG07-1 (トマト新品種登録)
出願人 : 日本デルモンテ株式会社,国立大学法人筑波大学
発明者 : 稲井秀二, 藤井 崇, 小西千秋, 江面 浩, 福田直也, 松倉千昭, 斉藤岳士
品種登録番号 : 第21862号 (登録日 2012年7月26日)
1) 発明の名称 : Rice sucrose transporter gene promoter
出願人 : Japan Tabacco Inc., Syngenta Limited,
発明者 : J. Yamaguchi, C. Matsukura, T. Takeda
Patent number : US 7186821
Filing date : Jan 4, 2002 Issue date : Mar 6, 2007 Application number :10/250,763
国際出願番号 : PCT/JP02/00001
Record of Awards / 受賞歴
6) 2015.3.25 平成26年度 筑波大学生命環境科学研究科長表彰 後藤幸久
5) 2014.8.21 ベストポスター賞 中山 瞳美, 岡部 佳弘, 江面 浩, 松倉 千昭: 日本植物細胞分子生物学会2014(盛岡大会)
4) 2014.3.25 平成25年度 筑波大学生命環境科学研究科長表彰 佐藤未来
3) 2013.11.21 優秀ポスター賞 Y. Goto, S. Nonaka, H. Ezura, C. Matsukura: International Symposium"Diversifying Biological Resources 〜Toward Food Security and Sustainable Society〜"(University of Tsukuba)
2) 2012.3.25 平成23年度 筑波大学生物資源学類長表彰 佐藤未来: 平成23年度卒業論文発表会
1) 2009.3.19 JJSHS2008年年間優秀論文賞 Saito, T., C. Matsukura, Y. Ban, K. Shoji, M. Sugiyama, N. Fukuda, S. Nishimura: 園芸学会平成21年春季大会