Effects of carbohydrate intake on thermogenic hormone and brown fat activity - Effects of carbohydrate intake on thermogenic hormone and brown fat activity

开始日期2021-12-01

申办/合作机构

Kyoto Prefectural University

JPRN-UMIN000038723

/ CompletedN/AIIT

Effects of soy protein on brown adipose tissue activity - Effects of soy protein on brown adipose tissue activity

开始日期2019-11-06

申办/合作机构

Kyoto Prefectural University

JPRN-UMIN000043857

/ CompletedN/AIIT

Evaluation of effect of Matcha ingestion on human gut microbiota. - Effect of Matcha on human gut microbiota.

开始日期2018-07-01

申办/合作机构

Kyoto Prefectural University

100 项与 Kyoto Prefectural University 相关的临床结果

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0 项与 Kyoto Prefectural University 相关的专利（医药）

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4,621

项与 Kyoto Prefectural University 相关的文献（医药）

2025-04-16·ACS Measurement Science Au

Novel Separation Media with Metal Oxide Nanostructures for Capillary Electrochromatography

Article

作者: Yamada, Sayaka Konishi ; Ishihama, Yasushi ; Yanagida, Takeshi ; Kamei, Ryoma ; Kanao, Eisuke ; Hosomi, Takuro ; Kubo, Takuya ; Nakano, Katsuya

Zinc oxide nanowires (ZnO nanowire, ZnO NWs) are nanostructures that have drawn attention as separation media for efficient biomolecules because of high biological compatibility and low cost. Development of the capillary column (ZnO column) using a ZnO NW to an inner wall has been reported, although there are only a few studies about molecular recognition of a ZnO NW regardless of numerous studies reporting ZnO NWs. In our previous studies, we conducted fundamental research to elucidate molecular recognition of ZnO NW and develop a novel liquid phase separation field. Consequently, we achieved baseline separation of mixed adenosine phosphate analytes using a phosphate buffer in the mobile phase. In this study, to improve the low resistance of ZnO NW toward a solvent, we covered a surface of ZnO NW with titanium oxide (TiO₂) thin layers using atomic layer deposition. As a result, the column (TiO₂ NW column) showed high affinity toward acidic compounds like the ZnO column, strongly interacting with especially phosphate groups. Resistance of ZnO NW to a weak acidic buffer solution was then dramatically improved. This is because multipoint electrostatic interaction between the phosphate groups and the NW surface occurred. Next, we conducted capillary electrochromatography to examine the possibility for application of separation analysis. The elution order of the phosphorylated compound was successfully controlled by the migration solution containing aqueous acetonitrile with weak acids.

2025-04-01·Cell

Channel synapse mediates neurotransmission of airway protective chemoreflexes

Article

作者: Hamada, Shun ; Taruno, Akiyuki ; Sugiyama, Yoichiro ; Suematsu, Naofumi ; Soma, Shogo ; Sherwood, Mark W ; Arizono, Misa ; Okazaki, Yasushi ; Matsumoto, Ichiro ; Iwasaki, Yusaku ; Aoki, Takanori ; Hayatsu, Norihito ; Ohtsuka, Masato ; Asayama, Moe ; Ohbayashi, Kento ; Yamada, Yu ; Murakami, Tatsuro ; Ohno, Nobuhiko ; Nomura, Kengo ; Kaneko, Mami

Neural reflexes to chemicals in the throat protect the airway from aspiration and infection. Mechanistic understanding of these reflexes remains premature, exemplified by chronic cough-a sensitized cough reflex-being a prevalent unmet clinical need. Here, in mice, a whole-body search for channel synapses-featuring CALHM1/3 channel-mediated neurotransmitter release-and single-cell transcriptomics uncovered subclasses of the Pou2f3⁺ chemosensory cell family in the throat communicating with vagal neurons via this synapse. They express G protein-coupled receptors (GPCRs) for noxious chemicals, T2Rs, which upon stimulation trigger swallow and cough-like expulsive reflexes in the hypopharynx and larynx, respectively. These reflexes were abolished by Calhm3 and Pou2f3 knockout and could be triggered by targeted optogenetic stimulation. Furthermore, aeroallergen exposure augmented CALHM3-dependent expulsive reflex. This study identifies Pou2f3⁺ epithelial cells with channel synapses as chemosensory end organs of airway protective reflexes and sites of their hyperresponsiveness, advancing mechanistic understanding of airway defense programs with distinct therapeutic potential.

2025-04-01·iScience

Dnmt3a overexpression disrupts skeletal muscle homeostasis, promotes an aging-like phenotype, and reduces metabolic elasticity

Article

作者: Yoshioka, Kiyoshi ; Yoshizawa, Tatsuya ; Ono, Yusuke ; Fujita, Mariko ; Yukitoshi, Hinako ; Ortuste Quiroga, Huascar Pedro ; Kawaguchi, Runa ; Ishihara, Kengo ; Fukada, So-Ichiro ; Ito, Takashi ; Kamei, Yasutomi ; Araki, Hiromitsu ; Kubo, Atsushi ; Ogawa, Yoshihiro ; Ohira, Yuto ; Hatazawa, Yukino ; Okano, Masaki ; Gotoh, Hitoshi ; Horii, Naoki ; Oyabu, Mamoru ; Hatada, Izuho ; Miura, Fumihito

Mammalian aging is reportedly driven by the loss of epigenetic information; however, its impact on skeletal muscle aging remains unclear. This study shows that aging mouse skeletal muscle exhibits increased DNA methylation, and overexpression of DNA methyltransferase 3a (Dnmt3a) induces an aging-like phenotype. Muscle-specific Dnmt3a overexpression leads to an increase in central nucleus-positive myofibers, predominantly in fast-twitch fibers, a shift toward slow-twitch fibers, elevated inflammatory and senescence markers, mitochondrial OXPHOS complex I reduction, and decreased basal autophagy. Dnmt3a overexpression resulted in reduced muscle mass and strength and impaired endurance exercise capacity with age, accompanied by an enhanced inflammatory signature. In addition, Dnmt3a overexpression reduced not only sensitivity to starvation-induced muscle atrophy but also the restorability from muscle atrophy. These findings suggest that increased DNA methylation disrupts skeletal muscle homeostasis, promotes an aging-like phenotype, and reduces muscle metabolic elasticity.

项与 Kyoto Prefectural University 相关的新闻（医药）

2023-08-11

·Science Daily

High-precision genome sequencing of buckwheat breeds hope for future harvests

Buckwheat's high-precision chromosomal-level genome sequence has been deciphered, a key step toward unraveling the evolution of the buckwheat genome and the origins of the cultivated crop. By altering specific genes using a method independent of common genome-editing techniques, the researchers successfully developed a self-fertile buckwheat variety as well as a new type of the crop with a sticky, mochi-like texture. This breeding method may contribute to a more diverse range of orphan crops than what is possible with existing genome editing technologies. A research group led by Kyoto University's Graduate School of Agriculture has deciphered buckwheat's high-precision chromosomal-level genome sequence, a key step toward unraveling the evolution of the buckwheat genome and the origins of the cultivated crop. By altering specific genes using a method independent of common genome-editing techniques, the researchers successfully developed a self-fertile buckwheat variety as well as a new type of the crop with a sticky, mochi-like texture. This breeding method may contribute to a more diverse range of orphan crops than what is possible with existing genome editing technologies. With the world's population predicted to reach 9.7 billion by 2050, increasing dependence on three major grain crops -- rice, wheat, and corn -- has raised interest in less-common orphan crops. Deciphering these crop genomes using next-generation sequencing technologies may promote their efficient breeding, representing a crucial step toward achieving the United Nations' Sustainable Development Goals of 'Zero Hunger', 'Good Health and Well-Being', and 'Responsible Consumption and Production'. The international research team that made these findings is,led by Yasuo Yasui from the Graduate School of Agriculture at Kyoto University, includes RIKEN, Japan's National Agriculture and Food Research Organization, Chiba University, Kyoto Prefectural University, Kazusa DNA Research Institute, The Graduate University for Advanced Studies or SOKENDAI, Yunnan Agricultural University, and the University of Cambridge.

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100 项与 Kyoto Prefectural University 相关的转化医学

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