<原著論文>
Kanai, M., Sugiyama, M., Kondo, M., Yamada, K., Nishimura, M., and Mano, S. (2023). Fusing the 3’UTR of seed storage protein genes leads to massive recombinant protein accumulation in seeds. Sci. Rep.13, 12217. [open access]
Kanai, M., Hikino, K., and Mano, S. (2023). Cloning and functional verification of endogenous U6 promoters for the establishment of efficient CRISPR/Cas9-based genome editing in Castor (Ricinus communis). Genes 14, 1327 [open access]
Oikawa, K., Goto-Yamada, S., Hayashi, Y., Takahashi, D., Kimori, Y., Shibata, M., Yoshimoto, K., Takemiya, A., Kondo, M., Hikino, K., Kato, A., Shimoda, K., Ueda, H., Uemura, M., Numata, K., Ohsumi, Y., Hara-Nishimura, I., Mano, S., Yamada, K., and Nishimura, M. (2022). Pexophagy suppresses ROS-induced damage in leaf cells under high-intensity light. Nat. Commun. 7, 7493. [open access]
Minamino, N., Norizuki, T., Mano, S., Ebine, K., and Ueda, T. (2022). Remodeling of organelles and microtubules during spermiogenesis in the liverwort Marchantia polymorpha. Development 149, dev200951. [open access]
Mano, S., Hayashi, Y., Hikino, K., Otomo, M., Kanai, M., and Nishimura, M. (2022). Ubiquitin-conjugating activity by PEX4 is required for efficient protein transport to peroxisomes in Arabidopsis thaliana. J. Biol. Chem. 298, 102038. [open access]
Kozuka, T., Sawada, Y., Imai, H., Kanai, M., Yokota-Hirai, M., Mano, S., Uemura, M., Nishimura, M., Kusaba, M., and Nagatani, A. (2020). Regulation of sugar and storage oil metabolism by phytochrome during de-etiolation. Plant Physiol. 182, 1114-1129.
Goto-Yamada, S., Oikawa, K., Bizan, J., Shigenobu, S., Yamaguchi, K., Mano, S., Hayashi, M., Ueda, H., Hara-Nishimura, I., Nishimura, M., and Yamada, K. (2019). Sucrose starvation induces microautophagy in plant root cells. Front. Plant Sci. 10, 1604. [open access]
Watanabe, E., Mano, S., Nishimura, M., and Yamada, K. (2019). AtUBL5 regulates growth and development through pre-mRNA splicing in Arabidopsis thaliana. PLOS ONE, 14, e0224795. [open access]
Yamauchi, S., Mano, S., Oikawa, K., Hikino, K., Teshima, M.K., Kimori, Y., Nishimura, M., Shimazaki, K., and Takemiya, A. (2019). Autophagy controls reactive oxygen species homeostasis in guard cells that is essential for stomatal opening. Proc. Natl. Acad. Sci. USA. 116, 19187-19192
Kanai, M., Yamada, T., Hayashi, M., Mano, S., and Nishimura, M. (2019). Soybean (Glycine max L.) triacylglycerol lipase GmSDP1 regulates the quality and quantity of seed oil. Sci. Rep. 9, 8924. [open access]
Sultana, M.M., Dutta, A.K., Tanaka, Y., Aboulela, M., Nishimura, K., Sugiura, S., Niwa, T., Maeo, K., Goto-Yamada, S., Kimura, T., Ishiguro, S., Mano, S., and Nakagawa, T. (2019). Gateway binary vectors with organelle-targeted fluorescent proteins for highly sensitive reporter assay in gene expression analysis of plants. J. Biotechnol. 297, 19-27.
Fujikawa, Y., Suekawa, M., Endo, S., Fukami, Y., Mano, S., Nishimura, M., and Esaka, M. (2018). Effect of mutation of C-terminal and heme binding region of Arabidopsis catalase on the import to peroxisomes. Biosci. Biotechnol. Biochem. 83, 322-325.
Mano, S., Nishihama, R., Ishida, S., Hikino, K., Kondo, M., Nishimura, M., Yamato, T.K., Kohchi, K., and Nakagawa, T. (2018). Novel gateway binary vectors for rapid tripartite DNA assembly and promoter analysis with various reporters and tags in the liverwort Marchantia polymorpha. PLOS ONE 13(10), e0204964. [Open access]
Watanabe, E., Mano, S., Yamada, K., Nishimura, M., Iuchi, S., Kobayashi, M., Uemura, M., and Kawamura, Y. (2017). Physiological analysis of Arabidopsis ecotype to investigate the freezing tolerance after cold acclimation process. Cyrobiol. Cryotechnol. 63, 161-164.
Aboulela, M., Tanaka, Y., Nishimura, K., Mano, S., Kimura, T., and Nakagawa, T. (2017). A dual-site gateway cloning system for simultaneous cloning of two genes for plant transformation. Plasmid 92, 1-11.
Hayashi, M., Tanaka, M. Yamamoto, S., Nakagawa, T., Kanai, M., Anegawa, A., Ohnishi, M., Mimura, T., and Nishimura, M. (2017). Plastidial folate prevents starch biosynthesis triggered by sugar influx into non-photosynthetic plastids of Arabidopsis. Plant Cell Physiol. 58, 1328-1338. [open access]
Aboulela, M., Tanaka, Y., Nishimura, K., Mano, S., Nishimura, M., Ishiguro, S., Kimura, T., and Nakagawa, T. (2017). Development of an R4 dual-site (R4DS) gateway cloning system enabling the efficient simultaneous cloning of two desired sets of promoters and open reading frames in a binary vector for plant research. PLOS ONE 12, e0177889. [open access]
Kanai, M., Mano, S., and Nishimura, M. (2017). An efficient method for the isolation of highly purified RNA from seeds for use in quantitative transcriptome analysis. J. Vis. Exp. (119), e55008.
Watanabe, E., Mano, S., Nomoto, M., Tada, Y., Hara-Nishimura, I., Nishimura, M., and Yamada, K. (2016). HSP90 stabilizes auxin-responsive phenotypes by masking a mutation in the auxin receptor TIR1. Plant Cell Physiol. 57, 2245-2254.
Oikawa, K., Mano, S., Hosokawa, Y, and Nishimura, M. (2016). Analysis of physical interaction between peroxisomes and chloroplast induced by dynamic morphological changes of peroxisomes using femtosecond laser impulsive force. Plant Morphol. 28, 29-34.
Cui, S., Hayashi, Y., Otomo, M., Mano, S., Oikawa, K., Hayashi, M., and Nishimura, M. (2016). Sucrose production mediated by lipid metabolism suppresses physical interaction of peroxisomes and oil bodies during germination of Arabidopsis thaliana. J. Biol. Chem. 291, 19734-19745.
Kamigaki, A., Nito, K., Hikino, K., Goto-Yamada, S., Nishimura, M., Nakagawa, T., and Mano, S. (2016). Gateway vectors for simultaneous detection of multiple protein−protein interactions in plant cells using bimolecular fluorescence complementation. PLOS ONE 11, e0160717. [open access]
Hosokawa, Y., Iino, T., Oikawa, K., Mano, S., Yamada, K., and Nishimura, M. (2016). Quantification of the adhesion strength between peroxisomes and chloroplasts by femtosecond laser technology. Bio-Protoc. 6, e1834. [open access]
Kanai, M., Mano, S., Kondo, M., Hayashi, M., and Nishimura, M. (2016). Extension of oil biosynthesis during the mid-phase of seed development enhances oil content in Arabidopsis seeds. Plant Biotechnol. J. 14, 1241-1250. [open access]
Oikawa, K., Mano, S., Yamada, K., Hosokawa, Y., and Nishimura, M. (2016). Measuring the interactions between peroxisomes and chloroplasts by in situ laser analysis. Bio-Protoc. 6, e1790. [open access]
Ueda, H., Yokota, E., Kuwata, K., Kutsuna, N., Mano, S., Shimada, T., Tamura, K., Stefano, G., Fukao, Y., Brandizzi, F., Shimmen, T., Nishimura, M., and Hara-Nishimura, I. (2016). Phosphorylation of the C-terminus of RHD3 has a critical role in homotypic ER membrane fusion in Arabidopsis. Plant Physiol. 170, 867-880.
Kimori, Y., Hikino, K., Nishimura, M., and Mano, S. (2016). Quantifying morphological features of actin cytoskeletal filaments in plant cells based on mathematical morphology. J. Theor. Biol. 389, 123-131.
Oikawa, K., Matsunaga, S., Mano, S., Kondo, M., Yamada, K., Hayashi, M., Kagawa, T., Kadota, A., Sakamoto, W., Higashi, S., Watanabe, M., Mitsui, T., Shigemasa, A., Iino, T., Hosokawa, Y., and Nishimura, M. (2015). Physical interaction between peroxisomes and chloroplasts elucidated by in situ laser analysis. Nature Plants 1, 15035.
Motomura, K, Le, Q.T.N., Hamada, T, Kutsuna, N, Mano, S, Nishimura, M, and Watanabe, Y. (2015). Diffuse DCP2 accumulates in DCP1 foci under heat stress in Arabidopsis thaliana. Plant Cell Physiol. 56, 107-115.
Shibata, M., Oikawa, K., Mano, S., and Nishimura, M. (2014). Measurement of the number of peroxisomes. Bio-Protoc. 4, e1284. [open access]
Goto-Yamada, S., Mano, S., Nakamori, C., Kondo, M., Yamawaki, R., Kato A., and Nishimura, M. (2014). Chaperone and protease functions of LON protease 2 modulate the peroxisomal transition and degradation with autophagy. Plant Cell Physiol. 55, 482-496. [open access by Editor's choice]
Mano, S., Nakamura, T., Kondo, M., Miwa, T., Nishikawa, S., Mimura, T., Nagatani, A., and Nishimura, M. (2014). The Plant Organelles Database 3 (PODB3) update 2014: integrating electron micrographs and new options for plant organelle research. Plant Cell Physiol. 55, e1. [open access]
Shibata, M., Oikawa, K., Yoshimoto, K., Kondo, M., Mano, S., Yamada, K., Hayashi, M., Sakamoto, W., Ohsumi, Y., and Nishimura, M. (2013). Highly oxidized peroxisomes are selectively degraded via autophagy in Arabidopsis thaliana. Plant Cell. 25, 4967-4983.
Cui, S., Fukao, Y., Mano, S., Yamada, Y., Hayashi, M., and Nishimura, M. (2013). Proteomic analysis reveals that the Rab GTPase RabE1c is involved in the degradation of the peroxisomal protein receptor PEROXIN 7. J. Biol. Chem. 288, 6014-6023.
Negishi, T., Oshima, K., Hattori, M., Kanai, M., Mano, S., Nishimura, M., and Yoshida, K. (2012). Tonoplast- and plasma membrane-localized aquaporin-family transporters in blue hydrangeasepals of aluminum hyperaccumulating plant. PLoS One 7, e43189. [open access]
Mano, S., Nakamori, C., Fukao, Y., Araki, M., Matsuda, A., Kondo, M., and Nishimura, M. (2011). A defect of peroxisomal membrane protein 38 causes enlargement of peroxisomes. Plant Cell Physiol. 52, 2157-2172.
Hino, T., Tanaka, Y., Kawamukai, M., Nishimura, K., Mano, S., and Nakagawa, T. (2011). Two Sec13p homologs, AtSec13A and AtSec13B, redundantly contribute to formation of COPII transport vesicles in Arabidopsis thaliana. Biosci. Biotechnol. Biochem. 75, 1848-1852.
Goto, S., Mano, S., Nakamori C., and Nishimura, M. (2011). Arabidopsis ABERRANT PEROXISOME MORPHOLOGY 9 is a peroxin that recruits the PEX1-PEX6 complex to peroxisomes. Plant Cell 23, 1573-1587.
Mano, S., Miwa, T., Nishikawa, S., Mimura, T., and Nishimura, M. (2011). The Plant Organelles Database 2 (PODB2): An updated resource containing movie data of plant organelle dynamics. Plant Cell Physiol. 52, 244-253. [open access]
Nakamura, S., Mano, S., Tanaka, Y., Ohnishi, M., Nakamori, C., Araki, M., Niwa, T., Nishimura, M., Kaminaka, H., Nakagawa, T., Sato, Y., and Ishiguro, S. (2010). Gateway binary vectors with the bialaphos resistance gene, bar, as a selection marker for plant transformation. Biosci. Biotechnol. Biochem. 74, 1315-1319.
Kamigaki, A., Kondo, M., Mano, S., Hayashi, M., and Nishimura, M. (2009). Suppression of peroxisome biogenesis factor 10 reduces cuticular wax accumulation by disrupting the ER network in Arabidopsis thaliana. Plant Cell Physiol. 50, 2034-2046.
Corpas, J.F., Hayashi, M., Mano, S., Nishimura, M., and Barroso, B.J. (2009). Peroxisomes are required for in vivo nitric oxide (NO) accumulation in the cytosol following salinity stress of Arabidopsis plants. Plant Physiol. 151, 2083-2094.
Singh, T., Hayashi, M., Mano, S., Arai, Y., Goto, S., and Nishimura, M. (2009). Molecular components required for the targeting of PEX7 to peroxisomes in Arabidopsis thaliana. Plant J. 60, 488-498.
Momonoi, K., Yoshida, K., Mano, S., Takahashi, H., Nakamori, C., Shoji, K., Nitta, A., and Nishimura, M. (2009) A vacuolar iron transporter in tulip, TgVit1, is responsible for blue coloration in petal cells through iron accumulation. Plant J. 59, 437-447.
Fujimoto, M., Arimura, S., Mano, S., Kondo, M., Saito, C., Ueda, T., Nakazono, M., Nakano, A., Nishimura, M., and Tsutsumi, N. (2009). Arabidopsis dynamin-related proteins DRP3A and DRP3B are functionally redundant in mitochondrial fission but have distinct roles in peroxisomal fission. Plant J. 58, 388-400.
Hashimoto, K., Igarashi, H., Mano, S., Takenaka, C., Shiina, T., Yamaguchi, M., Demura, T., Nishimura, M., Shimmen, T., and Yokota, E. (2008). An isoform of Arabidopsis myosin XI interacts with small GTPases in its C-terminal tail region. J. Exp. Bot. 59, 3523–3531.
Oshima, Y., Kamigaki, A., Nakamori, C., Mano, S., Hayashi, M., Nishimura, M., and Esaka, M. (2008). Plant catalase is imported into peroxisome by Pex5p but distinct from typical PTS1 import. Plant Cell Physiol. 49, 671-677.
Mano, S., Miwa, T., Nishikawa, S., Mimura, T., and Nishimura, M. (2008). The Plant Organelles Database (PODB): a collection of visualized plant organelles and protocols for plant organelle research. Nucleic Acids Res. 36, D929-D937.
Mano, S., Nakamori, C., Nito, K., Kondo, M., and Nishimura, M. (2006). The Arabidopsis pex12 and pex13 mutants are defective in both PTS1- and PTS2-dependent protein transport to peroxisomes. Plant J. 47, 604-618.
Hashimoto, K., Igarashi, H., Mano, S., Nishimura, M., Shimmen, T., and Yokota E. (2005) Peroxisomal localization of a myosin XI isoform in Arabidopsis thaliana. Plant Cell Physiol. 46, 782-789.
Morikami, A., Matsunaga, R., Tanaka, Y., Suzuki, S., Mano, S., and Nakamura, K. (2005). Two cis-acting regulatory elements are involved in the sucrose-inducible expression of the sporamin gene promoter from sweet potato in transgenic tobacco. Mol. Gen. Genomics 272, 690-699.
Mano, S., Nakamori, C., Kondo, M., Hayashi, M., and Nishimura, M. (2004). An Arabidopsis dynamin-related protein, DRP3A, controls both peroxisomal and mitochondrial division. Plant J. 38, 487-498.
Kamada, T., Nito, K., Hayashi, H., Mano, S., Hayashi, M., and Nishimura, M. (2003). Functional differentiation of peroxisomes revealed by expression profiles of peroxisomal genes in Arabidopsis thaliana. Plant Cell Physiol. 44, 1275-1289.
Kamigaki, A., Mano, S., Terauchi, K., Nishi, Y., Tachibe-Kinoshita, Y., Nito, K., Kondo, M., Hayashi, M., Nishimura, M., and Esaka, M. (2003). Identification of peroxisomal targeting signal of pumpkin catalase and the binding analysis with PTS1 receptor. Plant J. 33, 161-175.
Mano, S., Nakamori, C., Hayashi, M., Kato, A., Kondo, M., and Nishimura, M. (2002). Distribution and characterization of peroxisomes in Arabidopsis by visualization with GFP: Dynamic morphology and actin-dependent movement. Plant Cell Physiol. 43, 331-341.
Fukao, Y., Hayashi, Y., Mano, S., Hayashi, M., and Nishimura, M. (2001). Developmental analysis of a putative ATP/ADP carrier protein localized on glyoxysomal membrane during the peroxisome transition in pumpkin cotyledons. Plant Cell Physiol. 42, 835-841.
Mitsuhashi, N., Shimada, T., Mano, S., Nishimura, M., and Hara-Nishimura, I. (2000). Characterization of organelles in the vacuolar-sorting pathway by visualization with GFP in tobacco BY-2 cells. Plant Cell Physiol. 41, 993-1001.
Mano, S., Hayashi, M., and Nishimura, M. (1999). Light regulates alternative splicing of hydroxypyruvate reductase in pumpkin. Plant J. 17, 309-320.
Mano, S., Hayashi, M., Kondo, M., and Nishimura, M. (1997). Hydroxypyruvate reductase with a carboxy-terminal targeting signal to microbodies is expressed in Arabidopsis. Plant Cell Physiol. 38, 449-455.
Mano, S., Yamaguchi, K., Hayashi, M., and Nishimura, M. (1997). Stromal and thylakoid-bound ascorbate peroxidases are produced by alternative splicing in pumpkin. FEBS Lett. 413, 21-26.
Mano, S., Hayashi, M., Kondo, M., and Nishimura, M. (1996). cDNA cloning and expression of a gene for isocitrate lyase in pumpkin cotyledons. Plant Cell Physiol. 37, 941-948.
Takeda, S., Mano, S., Ohto, M., and Nakamura, K. (1994). Inhibitors of protein phosphatases 1 and 2A block the sugar-inducible gene expression in plants. Plant Physiol. 106, 567-574.
Goto-Yamada, S., Oikawa, K., Hayashi Y., Mano, S., Yamada, S. and, Nishimura, M. (2023). Pexophagy in plants: a mechanism to remit cells from oxidative damage caused under high-intensity light. Autophagy 19, 1611-1613.
Goto-Yamada, S., Oikawa, K., Yamato, KT., Kanai, M., Hikino, K., Nishimura, M. and Mano, S. (2022). Image-based analysis revealing the molecular mechanism of peroxisome dynamics in plants. Front. Cell Dev. Biol. 10, 883491. [open access]
Watanabe, E., Mano, S., Hara-Nishimura, I., Nishimura, M. and Yamada, K. (2017). HSP90 stabilizes auxin receptor TIR1 and ensures plasticity of auxin responses. Plant Signal. Behav. 12, e1311439.
Goto-Yamada, S., Mano, S., Yamada, K., Oikawa, K., Hosokawa, Y., Hara-Nishimura, I., and Nishimura, M. (2015). Dynamics of the light-dependent transition of plant peroxisomes. Plant Cell Physiol. 56, 1264-1271. [open access]
Goto-Yamada, S., Mano, S., and Nishimura, M. (2014). Interaction between chaperone and protease functions of LON2, and autophagy during the functional transition of peroxisomes. Plant Signal. Behav. 9, e28838. [open access]
Shibata, M., Oikawa, K., Yoshimoto, K., Goto-Yamada, S., Mano, S., Yamada, K., Kondo, M., Hayashi, M., Sakamoto, W., Ohsumi Y., and Nishimura, M. (2014). Plant autophagy is responsible for peroxisomal transition and plays an important role in the maintenance of peroxisomal quality. Autophagy10, 936-937. [open access]
Cui, S., Mano, S., Yamada, K., Hayashi, M., and Nishimura, M. (2013). Novel proteins interacting with peroxisomal protein receptor PEX7 in Arabidopsis thaliana. Plant Signal. Behav. 8, e26829. [open access]
Mano, S., Miwa, T., Nishikawa, S., Mimura, T., and Nishimura, M. (2009). Seeing is believing: On the use of image databases for visually exploring plant organelle dynamics. Plant Cell Physiol. 50, 2000-2014. [open access]
Mano, S., Hayashi, M., and Nishimura, M. (2000). A leaf-peroxisomal protein, hydroxypyruvate reductase, is produced by light-regulated alternative splicing. Cell Biochem. Biophys. 32, 147-154.
Hayashi, M., Toriyama, K., Kondo, M., Kato A., Mano, S., De Bellis, L., Hayashi-Ishimaru, Y., Yamaguchi, K., Hayashi, H., and Nishimura, M. (2000). Functional transformation of plant peroxisomes. Cell Biochem. Biophys. 32, 295-304.
Nishimura, M., Hayashi, M., Kato, A., Mano, S., Hayashi, H., Yamaguchi, K., Nito, K., and Fukao, Y. (1999). Genes for degradation of storage oil and their application to oil biotechnology. 13th Symposium on Plant Biotech. 13, 37-40.
Nishimura, M., Hayashi, M., Toriyama, K., Kato A., Mano, S., Yamaguchi, K., Kondo, M., and Hayashi, H. (1998). Microbody defective mutants of Arabidopsis. J. Plant Res. 111, 329-332.
Nishimura, M., Hayashi, M., Kato A., Yamaguchi, K., and Mano, S. (1996) Functional transformation of microbodies in higher plant cells. Cell Struc. Func. 21, 387-393.
<図書>
Mano, S., Hikino, K., and Kanai, M. (2024). Ubiquitination on the peroxisomal membrane for protein transport in plants. In Modifications in Biomacromolecules - Edited by Zhan, X., and Jabbari, A. IntechOpen pp.27-49 10.5772/intechopen.112092. [open access]
Kanai, M., Tamura, K., Tarnawska-Glatt, K., Goto-Yamada, S., Yamada, K., and Mano, S. (2022). Plant organellar omics. In Plant Omics. Advances in big data biology - Edited by Ohyanagi, H., Yamamoto, E., Kitazumi, A., and Yano, K. CABI pp.108-123.
Goto-Yamada, S., Hikino, K., Nishimura, M., Nakagawa, T., and Mano, S. (2018). Bimolecular fluorescence complementation with improved gateway-compatible vectors to visualize protein–protein interactions in plant cells. In Methods in Molecular Biology. Two-Hybrid Systems. Methods and Protocol. - Edited by Oñate-Sánchez, L. Springer. pp.245-258.
Kanai, M., Mano, S., Hayashi, M., and Nishimura, M. (2016). Designing novel breeding strategies for producing high-oil crops based on a molecular understanding of triacylglycerol metabolism. In New Challenges in Seed Biology - Basic and Translational Research Driving Seed Technology – Edited by Susana Araújo and Alma Balestrazzi, InTech, pp.137-153. [open access]
真野昌二、後藤志野、坂本亘 (2014) 受精と細胞内小器官、DOJIN BIOSCIENCE SERIES「受精の生物学」 (化学同人、監修:澤田均)、pp.301-317
Goto-Yamada, S., Mano, S., and Nishimura, M. (2014). The role of peroxisomes in plant reproductive processes. In Sexual reproduction in animals and plants. – Edited by Sawada, H., Inoue, N., and Iwano, M. Springer Japan, pp.419-429. [open access]
Mano, S., Kimori, Y., Takeda, T., Miwa, T., Nishikawa, S., Mimura, T., Nagatani, A., and Nishimura, M. (2013). Using image-based resources: databases for plant organelle dynamics and applications based on image information. In Image and Video Processing - An Introductory Guide. Edited by Mishra, A., Nawaz, Z. and Shahid, Z .iConcept Press, pp.83-109. [open access]
Tanaka, Y., Kimura, T., Hikino, K., Goto, S., Nishimura, M., Mano, S., and Nakagawa, T. (2012). Gateway vectors for plant genetic engineering: overview of plant vectors, application for bimolecular fluorescence complementation (BiFC) and multigene construction. In Genetic Engineering – Basics, New Applications and Responsibilities – Edited by Hugo A. Barrera-Saldaña, InTech, pp.35-58. [open access]
Photobook 植物細胞の知られざる世界 (2010) 監修 (化学同人、監修:西村幹夫、三村徹郎、西村いくこ、真野昌二)
真野昌二 (2006) ペルオキシソーム、細胞工学別冊、植物細胞工学シリーズ22 「新版 植物の細胞を観る実験プロトコール―顕微鏡観察の基本から最新バイオイメージング技術まで」(秀潤社 監修:福田裕穂、西村幹夫、中野明彦)、pp.176-184
Mano, S., and Nishimura, M. (2005). Plant peroxisomes. In Plant Hormones, Vitamins and Hormones. Gerald Litwack ed., (Elsevier Academic Press) 72, pp.111-154.
真野昌二 西村幹夫 (2002) 植物細胞の機能と構造のダイナミクス、朝倉植物生理学講座1、植物細胞 (朝倉書店、編集:西村幹夫)、pp.4-15
真野昌二 西村幹夫 (2002) ペルオキシソームの起源と機能転換、遺伝別冊、細胞のミクロコスモス-進化とゲノムからその素顔にせまる- (裳華房、監修:黒岩常祥、中野明彦)、pp.55-67
真野昌二 (1997) GFPを用いたタンパク質輸送の観察法2 培養細胞を材料とする方法、細胞工学別冊、植物細胞工学シリーズ6「植物の細胞を観る実験プロトコール―遺伝子発現から細胞内構造・機能まで」 (秀潤社、監修:福田裕穂、西村幹夫、中村研三)、pp.125-129