Cui,S., Hayashi, Y., Otomo, M., Mano, S., Oikawa, K., Hayashi, M. and Nishimura, M.(2016) Sucrose production mediated by lipid metabolism suppresses physiological interaction of peroxisomes and oil bodies during germination of Arabidopsis thaliana. J. Biol. Chem. 291, 19734-19745.
Kanai, M., Mano, S.,Kondo, M., Hayashi, M. and Nishimura, M. (2016) Extension of oil biosynthesisduring the mid-phase of seed development enhances oil content in Arabidopsisseeds. Plant Biotechnol. J. 14,1241-1250.
Mori,Y., Hayashi, M., Nishimura, M. and Yamamoto, K. T. (2015) A newtemperature-insensitive allele of the Arabidopsis AXR6/CUL1 locus derived froma missense mutation in the C-terminal RBX1 binding region. Plant Signal. Behav. 10, e1078956, 1-4.
Anh Hai Nguyen, A. H., Matsui, A., Tanaka, M., Mizunashi, K., Nakaminami, K., Hayashi, M., Iida, K., Toyoda, T., Nguyen, D. V. and Seki, M. (2015) Loss of Arabidopsis 5’–3’ exoribonuclease AtXRN4 function enhances heat stress tolerance of plants subjected to severe heat stress. Plant Cell Physiol. 56, 1762-1772.
Oikawa, K., Matsunaga, S., Mano, S., Kondo, K., Yamada, K., Hayashi M., Kagawa, T., Kadota, T., 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.
Satoh, M., Tokaji, Y., Nagano, A., Hara-Nishimura, I., Hayashi, M., Nishimura, M., Ohta, H., Masuda, S. (2014) Arabidopsis mutants affecting oxylipin signaling in photo-oxidative stress responses. Plant Physiol Biochem. 81, 90-95.
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. Plant Cell 25, 4956-4966.
Cui, S., Fukao, Y., Mano, S., Yamada, K.,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.
Kanai, M.,Hayashi, M., Kondo, M. and Nishimura, M. (2013) The PlastidicDEAD-box RNA helicase 22, HS3, is essential for plastid functions both in seed development and in seedling growth. Plant Cell Physiol. 54, 1431-1440.
Shibata, M.,Oikawa, K., Yoshimoto, K., Kondo, M., Mano, S., Yamada, K., Hayashi, M.,Sakamoto, W., Ohsumi, Y. and Nishimura, M. (2013) Highly oxidized peroxisomesare selectively degraded via autophagy in Arabidopsis. Plant Cell 25, 4956-4966.
Hayashi, M., Nanba, C.,Saito M., Kondo, M.,Takeda,A.,Watanabe Y. and Nishimura, M.(2012) Lossof XRN4 function can trigger cosuppression in a sequence-dependent manner. Plant Cell Physiol., 53, 1310-1321.
Toyokura, K., Hayashi, M., Nishimura, M. and Okada, K. (2012) Adaxial-abaxial patterning: A novel function of the GABA shunt. Plant Signal. Behav. 7, 705-707.
Kanai, M., Nishimura, M. and Hayashi, M.(2010) A peroxisomal ABC transporter promotes seed germination by inducingpectin degradation under the control of ABI5. Plant J. 62, 936-947.
2005-2009
Yamasaki,H., Hayashi, M., Fukazawa, M., Kobayashi, Y. and Shikanai, T. (2009) SQUAMOSApromoter binding protein-like7 is a central regulator for copper homeostasis in Arabidopsis. Plant Cell 21, 347-361.
Hida, N., Awais,M.,Takeuchi, M., Ueno,N., Tashiro, M., Takagi, C., Singh, T., Hayashi,M., Ohmiya, K. and Ozawa, T. (2009) High-sensitivity real-time imaging ofdual protein-protein interactions in living subjects using multicolorluciferases. PLoS ONE 4, e5868.
Singh,T., Hayashi, M., Mano, S., Arai, Y. and Nishimura, M. (2009) Molecularcomponents required for the targeting of PEX7 to peroxisomes in Arabidopsisthaliana. Plant J. 60, 488-498.
Corpas, F.J., Hayashi, M., Mano, S., Nishimura, M.and Barroso, J.B. (2009) Peroxisomes are required for in vivo nitric oxide (NO) accumulation in the cytosol followingsalinity stress of Arabidopsis plants. Plant physiol. 151 2083-2094.
Kamigaki, A., Kondo, M., Mano, S., Hayashi,M. and Nishimura, M. (2009) Suppression of peroxsiome biogenesis factor 10reduces cuticular wax accumulation by disrupting the ER network in Arabidopsis thaliana. PlantCell Physiol. 50, 2034-2046.
Arai, Y., Hayashi, M. and Nishimura, M. (2008)Proteomic analysis of highly purified peroxisomes from etiolated soybeancotyledons. Plant Cell Physiol. 49, 526-539.
Oshima, Y., Kamigaki, A., Nakamori, C., Mano, S., Hayashi, M.,Nishimura,M. and Esaka, M. (2008) Plant catalase is imported into peroxisomeby Pex5p but distinct from typical PTS1 import. Plant Cell Physiol. 49, 671-677.
Mitsuhashi, N., Kondo, M., Nakaune, S., Ohnishi, M., Hayashi, M.,Hara-Nishimura, I., Richardson, A., Fukaki, H., Nishimura, M. and Mimura, T.(2008) Localization of myo-inositol-1-phosphate synthase to theendosperm in developing seeds of Arabidopsis J. Exp. Bot. 59, 3069-3076.
Kamada-Nobusada,T, Hayashi, M., Fukazawa, M., Sakakibara, H. and Nishimura, M. (2008) A putative peroxisomal polyamine oxidase,AtPAO4, is involved in the polyamine catabolism in Arabidopsis thaliana. Plant Cell Physiol. 49, 1272-1282.
Nagano, A., Fukazawa, M.,Hayashi, M., Ikeuchi, M., Tsukaya, H., Nishimura, M. and Hara-Nishimura, I.(2008) AtMap1: a DNA Microarray for Genomic Deletion Mapping in Arabidopsis thaliana. Plant J. 56, 1058-1065.
Arai, Y., Hayashi, M. and Nishimura, M. (2008)Proteomic identification and characterization of a novel peroxisomal adeninenucleotide transporter supplying ATP for fatty acid β-oxidationin soybean and Arabidopsis. Plant Cell 20, 3227-3240.
Nito, K., Kamigaki, A., Kondo, M., Hayashi,M. and Nishimura, M. (2007) Functional classification of Arabidopsisperoxisome biogenesis factors proposed from analyses of knockdown mutants. PlantCell Phyisol. 48, 763-774.
Yamada, K.,Fukao, Y., Hayashi, M., Fukazawa, I., Suzuki, I. and Nishimura, M. (2007) Cytosolic HSP90 regulates the heat shock response that isresponsible for heat acclimation in Arabidopsis thaliana. J. Biol.Chem. 282, 37794-37804.
Hayashi, M., Yagi, M., Nito, K., Kamada, T.and Nishimura, M. (2005) Differential contribution of two peroxisomalprotein receptors to the maintenance of peroxisomal functions in Arabidopsis. J. Biol. Chem. 280, 14829-14835.
2000-2004
Mano, S., Nakamori, C., Kondo, M., Hayashi, M. and Nishimura, M. (2004) An Arabidopsis dynamin-related protein, DRP3A, controls both peroxisomal andmitochondrial division. Plant J. 38, 487-498.
Kamigaki, A., Mano, S., Terauchi, K., Nishi,Y., Tachibe-Kinoshita, Y., Nito, K., Hayashi, M., Nishimura, M. and Esaka,M. (2003) Identification of peroxisomal targetingsignal of pumpkin catalase and the binding analysis with PTS1 receptor. Plant J. 33, 161-175.
Fukao, Y., Hayashi, M. and Nishimura, M. (2003) Novel glyoxysomal protein kinase, GPK1, identified by proteomic analysisof glyoxysomes in etiolated cotyledons of Arabidopsis thaliana. Plant Cell Physiol. 44, 1002-1012.
Kamada, T., Nito, K.,Hayashi, H., Mano, S., Hayashi, M. and Nishimura, M. (2003) Functional differentiation of peroxisomesrevealed by expression profiles of peroxisomal genes in Arabidopsis thaliana. Plant Cell Physiol. 44, 1275-1289.
Hayashi, M., Nito, K., Takei-Hoshi, R., Yagi,M., Kondo, M., Suenaga, A., Yamaya, T. and Nishimura, M. (2002) Ped3p is a peroxisomal ATP-binding cassette transporter that might supply substrates for fatty acid β-oxidation. Plant Cell Physiol. 43, 1-11.
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.
Nito, K., Hayashi, M. and Nishimura, M. (2002) Direct interaction and determination of binding domains amongperoxisomal import factors in Arabidopsis thaliana. Plant Cell Physiol.43, 355-366
Fukao, Y., Hayashi, M. and Nishimura, M. (2002) Proteomic analysis of leaf peroxisomal proteins in green cotyledons of Arabidopsis thaliana. Plant Cell Physiol. 43, 689-696.
Hayashi, H., DeBellis, L., Hayashi, Y., Nito, K., Kato, A., Hayashi, M., Hara-Nishimura, I.and Nishimura, M. (2002) Molecular characterization of an Arabidopsis acyl CoA synthetase localized on glyoxysomal membranes. Plant Physiol.130, 2019-2026.
Nito, K., Yamaguchi, K., Hayashi, M. and Nishimura, M. (2001) Pumpkin peroxisomal ascorbate peroxidase is localized onperoxisomal membranes and unknown membranous structures. Plant Cell Physiol. 42, 20-27.
Obara, M., Kajiura, M., Fukuta,Y., Yano, M., Hayashi, M., Yamaya, T. and Sato, T. (2001) Mapping of QTLs associated with cytosolicglutamine synthetase and NADH-glutamate synthase in rice (Oryza sativaL.). J. Exp. Bot. 52, 1209-1217.
Fukao, Y., Hayashi, Y., Mano, M., Hayashi, M.and Nishimura, M. (2001) Developmental analysis of a putative ATP/ADP carrierprotein localized on glyoxysomal membranes during the peroxisome transition in pumpkin cotyledons. Plant Cell Physiol. 42, 835-841.
Hayashi Y., Hayashi, M., Hayashi H., Hara-Nishimura, I. and Nishimura, M. (2001) Direct interactionbetween glyoxysomes and lipid bodies in cotyledons of Arabidopsis thaliana ped1 mutant. Protoplasma. 218, 83-94.
Soichi, K., Hanzawa, S., Hayakawa, T., Hayashi, M. and Yamaya, T. (2000) Nucleotide sequence of a genomic DNA(Accession No. AB037664) and a cDNA (Accession No.AB037595) encoding cytosolicglutamine synthetase in sasanishiki, a leading cultivar of rice (Oryza sativaL) in Northern Japan,Plant Physiol 122, 1459.
De Bellis, L., Gonzali, S., Alpi, A.,Hayashi, H., Hayashi, M. and Nishimura M. (2000) Purification and characterization of a novelpumpkin short-chain acyl-CoA oxidase with structural similarity to acyl-CoA dehydrogenases Plant Physiol. 123, 327-334.
Takemoto,D., Hayashi, M., Doke, N., Nishimura, M. and Kawakita, K. (2000) Isolation of the gene for EILP, an elicitor-inducible LRR receptor-like protein, from tobacco by differential display. Plant Cell Physiol. 41, 458-464.
Hayashi, M., Nito, K., Toriyama-Kato, K.,Kondo, M., Yamaya, T. and Nishimura, M. (2000) AtPex14p maintainsperoxisomal functions by determining protein targeting to three kinds of plantperoxisomes. EMBO J. 19, 5701-5710.
1995-1999
Mano, S., Hayashi, M. and Nishimura, M.(1999) Light regulates alternative splicing of hydroxypyruvate reductase in pumpkin. Plant J. 17, 309-320.
Hayashi, M., Toriyama, K., Kondo, M.Hara-Nishimura, I. and Nishimura, M. (1999) Accumulation of a fusionprotein containing 2S albumin induces novel vesicles in vegetative cells of Arabidopsis. Plant Cell Physiol. 40, 263-272.
Hayashi, H., De Bellis, L., Ciurili, A.,Kondo, M., Hayashi, M. and Nishimura, M. (1999) A novel oxidase thatcatalyzes oxidation of short-chain acyl CoA in plant peroxisomes.J. Biol. Chem. 274, 12715-12721.
Kato, A., Hayashi, M. and Nishimura M. (1999) Oligomeric proteins containing N-terminal targeting signals are imported intoperoxisomes in transgenic Arabidopsis. Plant Cell Physiol. 40, 586-591.
De Bellis L., Giuntini, P, Hayashi, H.,Hayashi, M. and Nishimura, M. (1999) Purification and characterization ofpumpkin long-chain acyl-CoA oxidase. Physiol.Plant. 106, 170-176.
Takemoto, D., Hayashi, M., Doke, N., Nishimura,M. and Kawakita, K. (1999) Molecular cloning for a defense-response-relatedcytochrome p-450 gene from tobacco.Plant CellPhysiol. 40, 1232-1242.
Kato, A., Takeda-Yoshikawa, Y., Hayashi, M.,Kondo, M. Hara-Nishimura, I. and Nishimura, M. (1998) Glyoxysomal malatedehydrogenase in pumpkin: cloning of a cDNA and functional analyses of its presequence.Plant Cell Physiol. 39,186-195.
Hayashi, M., Toriyama, K. Kondo, M. and Nishimura, M. (1998) 2,4-Dichlorophenoxybutyric acid-resistant mutants of Arabidopsis havedefects in glyoxysomal fatty acid β-oxidation.Plant Cell 10, 183-195.
Hayashi, H., De Bellis, L., Yamaguchi, K., Kato, A., Mano, S., Hayashi, M. and Nishimura, M. (1998) Molecular characterization of a glyoxysomal long-chain acyl-CoA oxidase that is synthesized as a precursor of higher molecular mass in pumpkin. J. Biol. Chem. 273, 8301-8307.
Mano, S., Hayashi, M., Kondo, M. and Nishimura, M. (1997) Hydroxypyruvate reductase with a carboxy-terminal targeting singal to microbodies is expressed in Arabidopsis.Plant Cell Physiol. 38, 449-455.
Hayashi, M., Aoki, M., Kondo, M. and Nishimura, M. (1997) Changes in targeting efficiencies of proteins to plantmicrobodies caused by amino acid substitutions in the carboxy-terminal tripeptide. Plant Cell Physiol. 38, 759-768.
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.
Hayashi, M., Tsugeki, R., Kondo, M., Mori, H.and Nishimura, M. (1996) Pumpkin hydroxypyruvate reductases with and without aputative C-terminal signal for targeting to microbodies may be produced by alternative splicing. Plant Mol.Biol. 30, 183-189.
Yamaguchi, K., Hayashi, M. and Nishimura, M.(1996) cDNA cloning of thylakoid-bound ascorbate peroxidase in pumpkin and itscharacterization. Plant Cell Physiol. 37, 405-409.
Hayashi, M., Aoki, M., Kato, A., Kondo, M. and Nishimura, M. (1996) Transport of chimeric proteins that contain acarboxy-terminal targeting signal into plant microbodies. Plant J. 10, 225-234.
Kato, A., Hayashi, M., Takeuchi, Y. and Nishimura, M. (1996) cDNA cloning and expresson of a gene for 3-ketoacyl-CoAthiolase in pumpkin cotyledons. Plant Mol.Biol. 31, 843-852.
Kato, A., Hayashi, M., Kondo, M. and Nishimura M. (1996) Targeting and processing of a chimeric protein with theN-terminal presequence of the precursor to glyoxysomal citrate synthase. Plant Cell 8, 1601-1611.
Mano, S., Hayashi, M., Kondo, M. and Nishimura, M. (1996) cDNA cloning and expression of a gene for isocitrate lyasein pumpkin cotyledons. Plant Cell Physiol. 37, 941-948.
De Bellis, L., Hayashi, M., Nishimura, M. and Alpi, A. (1995) Subcellular and developmental changes in distribution ofaconitase isoforms in pumpkin cotyledons. Planta. 195, 464-468.
Hayashi, M., De Bellis, L., Alpi, A. and Nishimura, M. (1995) Cytosolic aconitase participates in the glyoxylate cyclein etiolated pumpkin cotyledons. Plant CellPhysiol. 36, 669-680.
Kato, A., Hayashi, M., Mori, H. andNishimura, M. (1995) Molecular characterization of a glyoxysomal citratesynthase that is synthesized as a precursor of higher molecular mass in pumpkin. Plant Mol. Biol. 27, 377-390.
1987-1994
DeBellis, L., Hayashi, M., Biagi, P.P., Hara-Nishimura, I., Alpi, A. andNishimura, M. (1994) Immunological analysis of aconitase in pumpkin cotyledons:the absence of aconitase in glyoxysomes. Physiol. Plant. 90, 757-762.
Tezuka, K., Hayashi, M., Ishihara, H.,Nishimura, M., Onozaki, K. and Takahashi, N. (1993) Purification and substrate specificity of β-xylosidase from sycamore cell (Acer pseudoplatanusL.): Application for structural analysis ofxylose-containing N-linked oligosaccharides. Anal. Biochem. 211, 205-209.
Tezuka, K., Hayashi, M., Ishihara, H.,Nishimura, M., Onozaki, K. and Takahashi, N. (1993) Occurrence of heterogeneity of N-linked oligosaccharides attachedto sycamore (Acer pseudoplatanus L.) laccase after excretion. Biochem. Mol.Biol. International. 29, 395-402.
Tezuka, K., Hayashi, M., Ishihara, H.,Akazawa, T. and Takahashi, N. (1992)Studies on synthetic pathway of xylose-containing N-linked oligosaccharidesdeduced from substrate specificities of the processing enzymes in sycamorecells (Acer pseudoplatanusL.). Eur. J. Biochem. 203,401-413.
Hayashi,M., Tsuru, A., Mitsui, T., Takahashi, N., Hanzawa, H., Arata, Y. and Akazawa,T. (1990) Structure and biosynthesis of the xylose-containing carbohydrate moiety of rice α-amylase. Eur. J. Biochem. 191, 287-295.
Hayashi, M., Mitsui, T. and Akazawa, T.(1989) Regulatory role of Ca2+ on the level of α-amylase mRNA in rice seed. Plant Physiol. Biochem.27, 349-354.
Hayashi, M., Akazawa, T., Nishimura, M. andHara-Nishimura, I. (1988) Effect of monensin on intracellular transport andposttranslational processing of 11S globulin precursors in developing pumpkincotyledons. FEBS Lett. 238,197-200.
Hayashi, M., Mori, H., Nishimura, M.,Hara-Nishimura, I. and Akazawa, T. (1988) Nucleotide sequence of cloned cDNAcoding for pumpkin 11-S globulin β subunit. Eur. J. Biochem. 172, 627-632.
Hara-Nishimura, I., Hayashi, M., Nishimura,M. and Akazawa, T. (1987) Biogenesis of protein bodies by budding from vacuolesin developing pumpkin cotyledons. Protoplasma 136,49-55.