Hiroki Yagi scite author profile

Hiroki Yagi

5Publications

19Citation Statements Received

40Citation Statements Given

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133

Affiliations

Konan University, Kyoto University, Tokyo Metropolitan Neurological Hospital

Publications

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Fluorescent protein-based imaging and tissue-specific RNA-seq analysis of Arabidopsis hydathodes

Yagi

Nagano

Kim

et al. 2020

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Hydathodes are typically found at leaf teeth in vascular plants and involved in water release to the outside. Although morphological and physiological analysis of hydathodes has been performed in various plants, little is known about the genes involved in hydathode function. In this study, we performed fluorescent protein-based imaging and tissue-specific RNA-seq analysis in Arabidopsis hydathodes. We used the enhancer trap line E325, which has been reported to express green fluorescent protein (GFP) at its hydathodes. We found that E325-GFP was expressed in small cells found inside its hydathodes (named E cells) that were distributed between the water pores and xylem ends. No fluorescence of the phloem markers pSUC2:GFP and pSEOR1:SEOR1-YFP was observed in the hydathodes. These observations indicate that Arabidopsis hydathodes are composed of three major components: water pores, xylem ends, and E cells. In addition, we performed transcriptome analysis of the hydathode using the E325-GFP line. Microsamples were collected from GFP-positive or negative regions of E325 leaf margins with a needle-based device (~130 µm in diameter). RNA-seq was performed with each single microsample using a high-throughput library preparation method called Lasy-Seq. We identified 72 differentially expressed genes. Among them, 68 genes showed significantly higher expression in the hydathode, while four genes showed significantly lower expression in the hydathode. Our results provide new insights into the molecular basis for hydathode physiology and development.

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Spatiotemporal relationship between auxin dynamics and hydathode development inArabidopsisleaf teeth

Yagi

Tamura

Matsushita

et al. 2021

Plant Signaling & Behavior

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Comparison of Deep Learning and Image Processing for Tracking the Cognitive Motion of a Laboratory Mouse

Lee

Hayakawa

Nishimura

et al. 2019

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Shoot gravitropism and organ straightening cooperate to arrive at a mechanically favorable shape in Arabidopsis

Tsugawa

Miyake

Okamoto

et al. 2023

Sci Rep

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Gravitropism is the plant organ bending in response to gravity, while a straightening mechanism prevents bending beyond the gravitropic set-point angle. The promotion and prevention of bending occur simultaneously around the inflorescence stem tip. How these two opposing forces work together and what part of the stem they affect are unknown. To understand the mechanical forces involved, we rotated wild type and organ-straightening-deficient mutant (myosin xif xik) Arabidopsis plants to a horizontal position to initiate bending. The mutant stems started to bend before the wild-type stems, which led us to hypothesize that the force preventing bending was weaker in mutant. We modeled the wild-type and mutant stems as elastic rods, and evaluated two parameters: an organ-angle-dependent gravitropic-responsive parameter (β) and an organ-curvature-dependent proprioceptive-responsive parameter (γ). Our model showed that these two parameters were lower in mutant than in wild type, implying that, unexpectedly, both promotion and prevention of bending are weak in mutant. Subsequently, finite element method simulations revealed that the compressive stress in the middle of the stem was significantly lower in wild type than in mutant. The results of this study show that myosin-XIk-and-XIf-dependent organ straightening adjusts the stress distribution to achieve a mechanically favorable shape.

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312 Clinical Usefulness of Diagnostic Criteria Based on Magnetic Resonance (MR) Imaging for Uterine Mesenchymal Tumors to Prevent From Missing Sarcoma Cases

Suzuki

Kariya

Fukuhara

et al. 2004

International Journal of Gynecological Cancer

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Hiroki Yagi

Fluorescent protein-based imaging and tissue-specific RNA-seq analysis of Arabidopsis hydathodes

Spatiotemporal relationship between auxin dynamics and hydathode development inArabidopsisleaf teeth

Comparison of Deep Learning and Image Processing for Tracking the Cognitive Motion of a Laboratory Mouse

Shoot gravitropism and organ straightening cooperate to arrive at a mechanically favorable shape in Arabidopsis

312 Clinical Usefulness of Diagnostic Criteria Based on Magnetic Resonance (MR) Imaging for Uterine Mesenchymal Tumors to Prevent From Missing Sarcoma Cases

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