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Makoto Hayashi

Makoto Hayashi

National Institute for Basic Biology
Japan

Overview

What is he best known for?

The fields of study he is best known for:

Gene
Enzyme
Amino acid

Makoto Hayashi focuses on Peroxisome, Biochemistry, Arabidopsis, Glyoxysome and Arabidopsis thaliana. His Peroxisome study combines topics in areas such as Dehydrogenase, Enzyme, Mutant and Cell biology. His studies deal with areas such as Wild type and Catalase as well as Cell biology.

His study in Amino acid and Hydroxypyruvate reductase falls under the purview of Biochemistry. His study explores the link between Glyoxysome and topics such as Fatty acid that cross with problems in Peptide sequence, Peroxisomal targeting signal and Mutagenesis. His Arabidopsis thaliana research is multidisciplinary, incorporating elements of Spermidine, Polyamine oxidase, Polyamine Catabolism, Spermine and Polyamine.

His most cited work include:

2,4-Dichlorophenoxybutyric Acid–Resistant Mutants of Arabidopsis Have Defects in Glyoxysomal Fatty Acid β-Oxidation (260 citations)
Distribution and Characterization of Peroxisomes in Arabidopsis by Visualization with GFP: Dynamic Morphology and Actin-Dependent Movement (171 citations)
Ped3p is a peroxisomal ATP-binding cassette transporter that might supply substrates for fatty acid β-oxidation (162 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Biochemistry, Peroxisome, Glyoxysome, Arabidopsis and Cell biology. Microbody, Complementary DNA, Amino acid, Arabidopsis thaliana and Mutant are among the areas of Biochemistry where Makoto Hayashi concentrates his study. His work on Peroxisomal targeting signal as part of general Peroxisome study is frequently linked to Fusion protein, therefore connecting diverse disciplines of science.

The study incorporates disciplines such as Oxidase test, Peptide sequence and Thiolase in addition to Glyoxysome. His study on Arabidopsis also encompasses disciplines like

Peroxisomal matrix which intersects with area such as Wax and PEX10,
Catalase that connect with fields like Wild type. His work in Cell biology addresses issues such as Gene, which are connected to fields such as Cell wall.

He most often published in these fields:

Biochemistry (101.11%)
Peroxisome (77.78%)
Glyoxysome (45.56%)

What were the highlights of his more recent work (between 2006-2019)?

Peroxisome (77.78%)
Biochemistry (101.11%)
Arabidopsis (34.44%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Peroxisome, Biochemistry, Arabidopsis, Cell biology and Arabidopsis thaliana. His Peroxisome research includes elements of Chloroplast, Organelle and Actin. His study in Transport protein, Peroxisomal targeting signal, Yellow fluorescent protein, Protein–protein interaction and Transcription factor is done as part of Biochemistry.

Makoto Hayashi interconnects Catalase, Peroxisomal Targeting Signal 1, Peroxisomal matrix, Cytosol and Metabolic pathway in the investigation of issues within Arabidopsis. In his work, DNA microarray is strongly intertwined with Mutant, which is a subfield of Cell biology. His Arabidopsis thaliana research is multidisciplinary, incorporating perspectives in Spermidine, Polyamine oxidase, Polyamine Catabolism, Spermine and Polyamine.

Between 2006 and 2019, his most popular works were:

A Putative Peroxisomal Polyamine Oxidase, AtPAO4, is Involved in Polyamine Catabolism in Arabidopsis thaliana (137 citations)
A Putative Peroxisomal Polyamine Oxidase, AtPAO4, is Involved in Polyamine Catabolism in Arabidopsis thaliana (137 citations)
Highly Oxidized Peroxisomes Are Selectively Degraded via Autophagy in Arabidopsis (137 citations)

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

2,4-Dichlorophenoxybutyric Acid–Resistant Mutants of Arabidopsis Have Defects in Glyoxysomal Fatty Acid β-Oxidation

Makoto Hayashi;Kanako Toriyama;Maki Kondo;Mikio Nishimura.
The Plant Cell (1998)

396 Citations

Distribution and Characterization of Peroxisomes in Arabidopsis by Visualization with GFP: Dynamic Morphology and Actin-Dependent Movement

Shoji Mano;Chihiro Nakamori;Makoto Hayashi;Akira Kato.
Plant and Cell Physiology (2002)

259 Citations

Ped3p is a peroxisomal ATP-binding cassette transporter that might supply substrates for fatty acid β-oxidation

Makoto Hayashi;Kazumasa Nito;Rie Takei-Hoshi;Mina Yagi.
Plant and Cell Physiology (2002)

243 Citations

A Putative Peroxisomal Polyamine Oxidase, AtPAO4, is Involved in Polyamine Catabolism in Arabidopsis thaliana

Tomoe Kamada-Nobusada;Makoto Hayashi;Makoto Hayashi;Mitsue Fukazawa;Hitoshi Sakakibara.
Plant and Cell Physiology (2008)

211 Citations

Proteomic analysis of leaf peroxisomal proteins in greening cotyledons of Arabidopsis thaliana.

Youichiro Fukao;Makoto Hayashi;Mikio Nishimura;Mikio Nishimura.
Plant and Cell Physiology (2002)

178 Citations

Highly Oxidized Peroxisomes Are Selectively Degraded via Autophagy in Arabidopsis

Michitaro Shibata;Michitaro Shibata;Kazusato Oikawa;Kohki Yoshimoto;Kohki Yoshimoto;Maki Kondo.
The Plant Cell (2013)

177 Citations

A Novel Acyl-CoA Oxidase That Can Oxidize Short-chain Acyl-CoA in Plant Peroxisomes

Hiroshi Hayashi;Hiroshi Hayashi;Luigi De Bellis;Adriana Ciurli;Maki Kondo.
Journal of Biological Chemistry (1999)

161 Citations

Peroxisomes are required for in vivo nitric oxide accumulation in the cytosol following salinity stress of Arabidopsis plants.

Francisco J. Corpas;Makoto Hayashi;Shoji Mano;Mikio Nishimura.
Plant Physiology (2009)

160 Citations

Light regulates alternative splicing of hydroxypyruvate reductase in pumpkin.

Shoji Mano;Makoto Hayashi;Makoto Hayashi;Mikio Nishimura;Mikio Nishimura.
Plant Journal (1999)

147 Citations

AtPex14p maintains peroxisomal functions by determining protein targeting to three kinds of plant peroxisomes.

Makoto Hayashi;Makoto Hayashi;Kazumasa Nito;Kanako Toriyama-Kato;Maki Kondo.
The EMBO Journal (2000)

145 Citations

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Frequent Co-Authors

External Links

Personal Website for Makoto Hayashi