M
Masatoshi Yamaguchi
Researcher at Saitama University
Publications - 59
Citations - 4772
Masatoshi Yamaguchi is an academic researcher from Saitama University. The author has contributed to research in topics: Arabidopsis & Transcription factor. The author has an hindex of 26, co-authored 53 publications receiving 4136 citations. Previous affiliations of Masatoshi Yamaguchi include University of Tokyo & National Presto Industries.
Papers
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Journal ArticleDOI
Transcription switches for protoxylem and metaxylem vessel formation
Minoru Kubo,Makiko Udagawa,Nobuyuki Nishikubo,Gorou Horiguchi,Masatoshi Yamaguchi,Jun Ito,Tetsuro Mimura,Hiroo Fukuda,Taku Demura +8 more
TL;DR: Findings suggest that VND6 and VND7 genes are transcription switches for plant metaxylem and protoxylem vessel formation.
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Ara6, a plant-unique novel type Rab GTPase, functions in the endocytic pathway of Arabidopsis thaliana.
TL;DR: Examination of green fluorescent protein (GFP)‐tagged proteins indicates that both Ara6 and Ara7 are distributed on a subpopulation of endosomes and suggests their roles in endosomal fusion.
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VASCULAR‐RELATED NAC‐DOMAIN7 is involved in the differentiation of all types of xylem vessels in Arabidopsis roots and shoots
TL;DR: Examining the mechanisms underscoring the function of VND7 in vessel differentiation in more detail suggest that VND 7 regulates the differentiation of all types of vessels in roots and shoots, possibly in cooperation with VND2 to VND5 and other regulatory proteins.
Journal ArticleDOI
NAC-MYB-based transcriptional regulation of secondary cell wall biosynthesis in land plants
Yoshimi Nakano,Masatoshi Yamaguchi,Masatoshi Yamaguchi,Hitoshi Endo,Nur Ardiyana Rejab,Nur Ardiyana Rejab,Misato Ohtani +6 more
TL;DR: Focusing on the NAC-MYB-based transcriptional network, this review discusses the regulatory systems that evolved in land plants to modify the cell wall to serve as a key component of structures that conduct water and provide mechanical support.
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VASCULAR-RELATED NAC-DOMAIN7 directly regulates the expression of a broad range of genes for xylem vessel formation.
TL;DR: Findings indicated that VND7 upregulates, directly and/or indirectly, many genes involved in a wide range of processes in xylem vessel differentiation, and that its target genes are partially different from those of NSTs.