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  • 1
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    Ubiquitin is phosphorylated by PINK1 to activate parkin (2014)
    Nature Publishing Group (NPG)
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    Publication Date: 2014-05-03
    Description: PINK1 (PTEN induced putative kinase 1) and PARKIN (also known as PARK2) have been identified as the causal genes responsible for hereditary recessive early-onset Parkinsonism. PINK1 is a Ser/Thr kinase that specifically accumulates on depolarized mitochondria, whereas parkin is an E3 ubiquitin ligase that catalyses ubiquitin transfer to mitochondrial substrates. PINK1 acts as an upstream factor for parkin and is essential both for the activation of latent E3 parkin activity and for recruiting parkin onto depolarized mitochondria. Recently, mechanistic insights into mitochondrial quality control mediated by PINK1 and parkin have been revealed, and PINK1-dependent phosphorylation of parkin has been reported. However, the requirement of PINK1 for parkin activation was not bypassed by phosphomimetic parkin mutation, and how PINK1 accelerates the E3 activity of parkin on damaged mitochondria is still obscure. Here we report that ubiquitin is the genuine substrate of PINK1. PINK1 phosphorylated ubiquitin at Ser 65 both in vitro and in cells, and a Ser 65 phosphopeptide derived from endogenous ubiquitin was only detected in cells in the presence of PINK1 and following a decrease in mitochondrial membrane potential. Unexpectedly, phosphomimetic ubiquitin bypassed PINK1-dependent activation of a phosphomimetic parkin mutant in cells. Furthermore, phosphomimetic ubiquitin accelerates discharge of the thioester conjugate formed by UBCH7 (also known as UBE2L3) and ubiquitin (UBCH7 approximately ubiquitin) in the presence of parkin in vitro, indicating that it acts allosterically. The phosphorylation-dependent interaction between ubiquitin and parkin suggests that phosphorylated ubiquitin unlocks autoinhibition of the catalytic cysteine. Our results show that PINK1-dependent phosphorylation of both parkin and ubiquitin is sufficient for full activation of parkin E3 activity. These findings demonstrate that phosphorylated ubiquitin is a parkin activator.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Koyano, Fumika -- Okatsu, Kei -- Kosako, Hidetaka -- Tamura, Yasushi -- Go, Etsu -- Kimura, Mayumi -- Kimura, Yoko -- Tsuchiya, Hikaru -- Yoshihara, Hidehito -- Hirokawa, Takatsugu -- Endo, Toshiya -- Fon, Edward A -- Trempe, Jean-Francois -- Saeki, Yasushi -- Tanaka, Keiji -- Matsuda, Noriyuki -- Canadian Institutes of Health Research/Canada -- England -- Nature. 2014 Jun 5;510(7503):162-6. doi: 10.1038/nature13392. Epub 2014 Jun 4.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉1] Laboratory of Protein Metabolism, Tokyo Metropolitan Institute of Medical Science, Setagaya-ku, Tokyo 156-8506, Japan [2] Graduate School of Frontier Sciences, The University of Tokyo, Kashiwa, Chiba 277-8561, Japan. ; Division of Cell Signaling, Fujii Memorial Institute of Medical Sciences, The University of Tokushima, Tokushima 770-8503, Japan. ; Research Center for Materials Science, Nagoya University, Nagoya, Aichi 464-8602, Japan. ; Laboratory of Protein Metabolism, Tokyo Metropolitan Institute of Medical Science, Setagaya-ku, Tokyo 156-8506, Japan. ; 1] Laboratory of Protein Metabolism, Tokyo Metropolitan Institute of Medical Science, Setagaya-ku, Tokyo 156-8506, Japan [2] Graduate School of Agriculture, Shizuoka University, 836 Ohya, Shizuoka 422-8529, Japan. ; Molecular Profiling Research Center for Drug Discovery, National Institute of Advanced Industrial Science and Technology, 2-4-7 Aomi, Koto-ku, Tokyo 135-0064, Japan. ; 1] JST-CREST/Department of Chemistry, Graduate School of Science, Nagoya University, Chikusa-ku, Nagoya 464-8602, Japan [2] JST-CREST/Faculty of Life Sciences, Kyoto Sangyo University, Kamigamo-motoyama, Kita-ku, Kyoto 603-8555, Japan. ; McGill Parkinson Program, Department of Neurology and Neurosurgery, Montreal Neurological Institute and Hospital, McGill University, Montreal, Quebec H3A 2B4, Canada. ; Department of Pharmacology & Therapeutics, McGill University, Montreal, Quebec H3G 1Y6, Canada. ; 1] Laboratory of Protein Metabolism, Tokyo Metropolitan Institute of Medical Science, Setagaya-ku, Tokyo 156-8506, Japan [2] Protein Metabolism Project, Tokyo Metropolitan Institute of Medical Science, Setagaya-ku, Tokyo 156-8506, Japan.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/24784582" target="_blank"〉PubMed〈/a〉
    Keywords: Animals ; Enzyme Activation ; Fibroblasts ; HeLa Cells ; Humans ; Membrane Potential, Mitochondrial ; Mice ; Mitochondria/metabolism ; Mutation/genetics ; Parkinson Disease ; Phosphorylation ; Phosphoserine/metabolism ; Protein Kinases/*metabolism ; Ubiquitin/chemistry/*metabolism ; Ubiquitin-Protein Ligases/genetics/*metabolism ; Ubiquitination
    Print ISSN: 0028-0836
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    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
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  • 2
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    Orbital-symmetry-selective spin characterization of Dirac-cone-like state on W(110) (2016)
    American Physical Society (APS)
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    Publication Date: 2016-04-12
    Description: Author(s): K. Miyamoto, H. Wortelen, H. Mirhosseini, T. Okuda, A. Kimura, H. Iwasawa, K. Shimada, J. Henk, and M. Donath The surface of W(110) exhibits a spin-orbit-induced Dirac-cone-like surface state, which is of mainly d z 2 orbital character near Γ ¯ , although it is strongly influenced by the twofold C 2 v surface symmetry. Its distinctive k -dependent spin polarization along Γ ¯ H ¯ is revealed by spin- and angle-resolve… [Phys. Rev. B 93, 161403(R)] Published Fri Apr 08, 2016
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
    Print ISSN: 1098-0121
    Electronic ISSN: 1095-3795
    Topics: Physics
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  • 3
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    Spin-orbit influence on d_{z^{2} } -type surface state at Ta(110) (2015)
    American Physical Society (APS)
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    Publication Date: 2015-10-20
    Description: Author(s): H. Wortelen, K. Miyamoto, H. Mirhosseini, T. Okuda, A. Kimura, D. Thonig, J. Henk, and M. Donath The influence of spin-orbit interaction on an occupied surface state at Ta(110) is investigated with spin- and angle-resolved photoemission and electronic structure calculations. The surface state appears in a symmetry gap at a binding energy of 0.45 eV at Γ ¯ and exhibits a free-electron-like E ( k ∥ ) … [Phys. Rev. B 92, 161408(R)] Published Mon Oct 19, 2015
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
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    Topics: Physics
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  • 4
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    High-quality graphene on SiC(0001[over ¯]) formed through an epitaxial TiC layer (2013)
    American Physical Society (APS)
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    Publication Date: 2013-02-21
    Description: Author(s): Keisuke Kimura, Kentaro Shoji, Yuta Yamamoto, Wataru Norimatsu, and Michiko Kusunoki The formation of large-area homogeneous graphene on a C-terminated SiC (0001̅ ) surface was achieved via decomposition of the SiC (0001̅ ) surface covered with an ultrathin but much more stable TiC layer than the reactive SiC(0001̅ ). By heating the SiC (0001̅ ) surface w... [Phys. Rev. B 87, 075431] Published Wed Feb 20, 2013
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
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    Topics: Physics
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  • 5
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    Coherent control of sub-terahertz confined acoustic nanowaves: Theory and experiments (2011)
    American Physical Society (APS)
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    Publication Date: 2011-09-28
    Description: Author(s): N. D. Lanzillotti-Kimura, A. Fainstein, A. Lemaitre, B. Jusserand, and B. Perrin Recently it has been theoretically proposed that phonons could be used to store and process information. We report coherent control experiments on acoustic-phonon nanocavities in the sub-THz range and discuss the feasibility of using this system as a phononic memory. The nanocavities provide localiz... [Phys. Rev. B 84, 115453] Published Tue Sep 27, 2011
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
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    Topics: Physics
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  • 6
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    Warping effects in the band and angular-momentum structures of the topological insulator Bi_{2}Te_{3} (2011)
    American Physical Society (APS)
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    Publication Date: 2011-12-17
    Description: Author(s): Wonsig Jung, Yeongkwan Kim, Beomyoung Kim, Yoonyoung Koh, Chul Kim, Masaharu Matsunami, Shin-ichi Kimura, Masashi Arita, Kenya Shimada, Jung Hoon Han, Juyoung Kim, Beongki Cho, and Changyoung Kim [Phys. Rev. B 84, 245435] Published Fri Dec 16, 2011
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
    Print ISSN: 1098-0121
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    Topics: Physics
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  • 7
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    Polarization-controlled coherent phonon generation in acoustoplasmonic metasurfaces (2018)
    American Physical Society (APS)
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    Publication Date: 2018-06-05
    Description: Author(s): Norberto D. Lanzillotti-Kimura, Kevin P. O’Brien, Junsuk Rho, Haim Suchowski, Xiaobo Yin, and Xiang Zhang Acoustic vibrations at the nanoscale (GHz-THz frequencies) and their interactions with electrons, photons, and other excitations are the heart of an emerging field in physics: nanophononics. The design of ultrahigh frequency acoustic-phonon transducers, with tunable frequency, and easy to integrate ... [Phys. Rev. B 97, 235403] Published Mon Jun 04, 2018
    Keywords: Surface physics, nanoscale physics, low-dimensional systems
    Print ISSN: 1098-0121
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    Topics: Physics
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  • 8
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    Crystal structure of the human centromeric nucleosome containing CENP-A (2011)
    Nature Publishing Group (NPG)
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    Publication Date: 2011-07-12
    Description: In eukaryotes, accurate chromosome segregation during mitosis and meiosis is coordinated by kinetochores, which are unique chromosomal sites for microtubule attachment. Centromeres specify the kinetochore formation sites on individual chromosomes, and are epigenetically marked by the assembly of nucleosomes containing the centromere-specific histone H3 variant, CENP-A. Although the underlying mechanism is unclear, centromere inheritance is probably dictated by the architecture of the centromeric nucleosome. Here we report the crystal structure of the human centromeric nucleosome containing CENP-A and its cognate alpha-satellite DNA derivative (147 base pairs). In the human CENP-A nucleosome, the DNA is wrapped around the histone octamer, consisting of two each of histones H2A, H2B, H4 and CENP-A, in a left-handed orientation. However, unlike the canonical H3 nucleosome, only the central 121 base pairs of the DNA are visible. The thirteen base pairs from both ends of the DNA are invisible in the crystal structure, and the alphaN helix of CENP-A is shorter than that of H3, which is known to be important for the orientation of the DNA ends in the canonical H3 nucleosome. A structural comparison of the CENP-A and H3 nucleosomes revealed that CENP-A contains two extra amino acid residues (Arg 80 and Gly 81) in the loop 1 region, which is completely exposed to the solvent. Mutations of the CENP-A loop 1 residues reduced CENP-A retention at the centromeres in human cells. Therefore, the CENP-A loop 1 may function in stabilizing the centromeric chromatin containing CENP-A, possibly by providing a binding site for trans-acting factors. The structure provides the first atomic-resolution picture of the centromere-specific nucleosome.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Tachiwana, Hiroaki -- Kagawa, Wataru -- Shiga, Tatsuya -- Osakabe, Akihisa -- Miya, Yuta -- Saito, Kengo -- Hayashi-Takanaka, Yoko -- Oda, Takashi -- Sato, Mamoru -- Park, Sam-Yong -- Kimura, Hiroshi -- Kurumizaka, Hitoshi -- England -- Nature. 2011 Jul 10;476(7359):232-5. doi: 10.1038/nature10258.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉Laboratory of Structural Biology, Graduate School of Advanced Science and Engineering, Waseda University, 2-2 Wakamatsu-cho, Shinjuku-ku, Tokyo 162-8480, Japan.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/21743476" target="_blank"〉PubMed〈/a〉
    Keywords: Amino Acid Sequence ; Autoantigens/*chemistry/metabolism ; Base Sequence ; Chromosomal Proteins, Non-Histone/*chemistry/metabolism ; Crystallography, X-Ray ; DNA/*chemistry/genetics/metabolism ; Histones/*chemistry/metabolism ; Humans ; Models, Molecular ; Molecular Conformation ; Molecular Sequence Data ; Nucleosomes/*chemistry/genetics/metabolism
    Print ISSN: 0028-0836
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    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
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  • 9
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    Crystal structures of the human adiponectin receptors (2015)
    Nature Publishing Group (NPG)
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    Publication Date: 2015-04-10
    Description: Adiponectin stimulation of its receptors, AdipoR1 and AdipoR2, increases the activities of 5' AMP-activated protein kinase (AMPK) and peroxisome proliferator-activated receptor (PPAR), respectively, thereby contributing to healthy longevity as key anti-diabetic molecules. AdipoR1 and AdipoR2 were predicted to contain seven transmembrane helices with the opposite topology to G-protein-coupled receptors. Here we report the crystal structures of human AdipoR1 and AdipoR2 at 2.9 and 2.4 A resolution, respectively, which represent a novel class of receptor structure. The seven-transmembrane helices, conformationally distinct from those of G-protein-coupled receptors, enclose a large cavity where three conserved histidine residues coordinate a zinc ion. The zinc-binding structure may have a role in the adiponectin-stimulated AMPK phosphorylation and UCP2 upregulation. Adiponectin may broadly interact with the extracellular face, rather than the carboxy-terminal tail, of the receptors. The present information will facilitate the understanding of novel structure-function relationships and the development and optimization of AdipoR agonists for the treatment of obesity-related diseases, such as type 2 diabetes.〈br /〉〈br /〉〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4477036/" target="_blank"〉〈img src="https://static.pubmed.gov/portal/portal3rc.fcgi/4089621/img/3977009" border="0"〉〈/a〉   〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4477036/" target="_blank"〉This paper as free author manuscript - peer-reviewed and accepted for publication〈/a〉〈br /〉〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Tanabe, Hiroaki -- Fujii, Yoshifumi -- Okada-Iwabu, Miki -- Iwabu, Masato -- Nakamura, Yoshihiro -- Hosaka, Toshiaki -- Motoyama, Kanna -- Ikeda, Mariko -- Wakiyama, Motoaki -- Terada, Takaho -- Ohsawa, Noboru -- Hato, Masakatsu -- Ogasawara, Satoshi -- Hino, Tomoya -- Murata, Takeshi -- Iwata, So -- Hirata, Kunio -- Kawano, Yoshiaki -- Yamamoto, Masaki -- Kimura-Someya, Tomomi -- Shirouzu, Mikako -- Yamauchi, Toshimasa -- Kadowaki, Takashi -- Yokoyama, Shigeyuki -- 062164/Z/00/Z/Wellcome Trust/United Kingdom -- 089809/Wellcome Trust/United Kingdom -- BB/G02325/1/Biotechnology and Biological Sciences Research Council/United Kingdom -- BB/G023425/1/Biotechnology and Biological Sciences Research Council/United Kingdom -- England -- Nature. 2015 Apr 16;520(7547):312-6. doi: 10.1038/nature14301. Epub 2015 Apr 8.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Department of Biophysics and Biochemistry and Laboratory of Structural Biology, Graduate School of Science, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [3] Division of Structural and Synthetic Biology, RIKEN Center for Life Science Technologies, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [4] RIKEN Structural Biology Laboratory, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] RIKEN Structural Biology Laboratory, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan. ; 1] Department of Diabetes and Metabolic Diseases, Graduate School of Medicine, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [2] Department of Integrated Molecular Science on Metabolic Diseases, 22nd Century Medical and Research Center, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan. ; 1] Department of Diabetes and Metabolic Diseases, Graduate School of Medicine, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [2] Department of Integrated Molecular Science on Metabolic Diseases, 22nd Century Medical and Research Center, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [3] PRESTO, Japan Science and Technology Agency, Kawaguchi, Saitama 332-0012, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Division of Structural and Synthetic Biology, RIKEN Center for Life Science Technologies, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [3] RIKEN Structural Biology Laboratory, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Division of Structural and Synthetic Biology, RIKEN Center for Life Science Technologies, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan. ; RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan. ; Department of Cell Biology, Graduate School of Medicine, Kyoto University, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan. ; 1] Department of Cell Biology, Graduate School of Medicine, Kyoto University, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan [2] JST, Research Acceleration Program, Membrane Protein Crystallography Project, Yoshida-Konoe-cho, Sakyo-ku, Kyoto, 606-8501, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Department of Cell Biology, Graduate School of Medicine, Kyoto University, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan [3] JST, Research Acceleration Program, Membrane Protein Crystallography Project, Yoshida-Konoe-cho, Sakyo-ku, Kyoto, 606-8501, Japan [4] Department of Chemistry, Graduate School of Science, Chiba University, Yayoi-cho, Inage, Chiba 263-8522, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Department of Cell Biology, Graduate School of Medicine, Kyoto University, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan [3] JST, Research Acceleration Program, Membrane Protein Crystallography Project, Yoshida-Konoe-cho, Sakyo-ku, Kyoto, 606-8501, Japan [4] Division of Molecular Biosciences, Membrane Protein Crystallography Group, Imperial College, London SW7 2AZ, UK [5] Diamond Light Source, Harwell Science and Innovation Campus, Chilton, Didcot, Oxfordshire OX11 0DE, UK [6] RIKEN SPring-8 Center, Harima Institute, Kouto, Sayo, Hyogo 679-5148, Japan. ; RIKEN SPring-8 Center, Harima Institute, Kouto, Sayo, Hyogo 679-5148, Japan. ; 1] Department of Diabetes and Metabolic Diseases, Graduate School of Medicine, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [2] Department of Integrated Molecular Science on Metabolic Diseases, 22nd Century Medical and Research Center, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [3] CREST, Japan Science and Technology Agency, Kawaguchi, Saitama 332-0012, Japan. ; 1] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan [2] Department of Biophysics and Biochemistry and Laboratory of Structural Biology, Graduate School of Science, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan [3] RIKEN Structural Biology Laboratory, 1-7-22 Suehiro-cho, Tsurumi-ku, Yokohama 230-0045, Japan.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/25855295" target="_blank"〉PubMed〈/a〉
    Keywords: Amino Acid Sequence ; Binding Sites ; Crystallography, X-Ray ; Histidine/chemistry/metabolism ; Humans ; Models, Molecular ; Molecular Sequence Data ; Protein Conformation ; Receptors, Adiponectin/*chemistry/metabolism ; Structure-Activity Relationship ; Zinc/metabolism
    Print ISSN: 0028-0836
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    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
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  • 10
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    Dysfunction of lipid sensor GPR120 leads to obesity in both mouse and human (2012)
    Nature Publishing Group (NPG)
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    Publication Date: 2012-02-22
    Description: Free fatty acids provide an important energy source as nutrients, and act as signalling molecules in various cellular processes. Several G-protein-coupled receptors have been identified as free-fatty-acid receptors important in physiology as well as in several diseases. GPR120 (also known as O3FAR1) functions as a receptor for unsaturated long-chain free fatty acids and has a critical role in various physiological homeostasis mechanisms such as adipogenesis, regulation of appetite and food preference. Here we show that GPR120-deficient mice fed a high-fat diet develop obesity, glucose intolerance and fatty liver with decreased adipocyte differentiation and lipogenesis and enhanced hepatic lipogenesis. Insulin resistance in such mice is associated with reduced insulin signalling and enhanced inflammation in adipose tissue. In human, we show that GPR120 expression in adipose tissue is significantly higher in obese individuals than in lean controls. GPR120 exon sequencing in obese subjects reveals a deleterious non-synonymous mutation (p.R270H) that inhibits GPR120 signalling activity. Furthermore, the p.R270H variant increases the risk of obesity in European populations. Overall, this study demonstrates that the lipid sensor GPR120 has a key role in sensing dietary fat and, therefore, in the control of energy balance in both humans and rodents.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Ichimura, Atsuhiko -- Hirasawa, Akira -- Poulain-Godefroy, Odile -- Bonnefond, Amelie -- Hara, Takafumi -- Yengo, Loic -- Kimura, Ikuo -- Leloire, Audrey -- Liu, Ning -- Iida, Keiko -- Choquet, Helene -- Besnard, Philippe -- Lecoeur, Cecile -- Vivequin, Sidonie -- Ayukawa, Kumiko -- Takeuchi, Masato -- Ozawa, Kentaro -- Tauber, Maithe -- Maffeis, Claudio -- Morandi, Anita -- Buzzetti, Raffaella -- Elliott, Paul -- Pouta, Anneli -- Jarvelin, Marjo-Riitta -- Korner, Antje -- Kiess, Wieland -- Pigeyre, Marie -- Caiazzo, Roberto -- Van Hul, Wim -- Van Gaal, Luc -- Horber, Fritz -- Balkau, Beverley -- Levy-Marchal, Claire -- Rouskas, Konstantinos -- Kouvatsi, Anastasia -- Hebebrand, Johannes -- Hinney, Anke -- Scherag, Andre -- Pattou, Francois -- Meyre, David -- Koshimizu, Taka-aki -- Wolowczuk, Isabelle -- Tsujimoto, Gozoh -- Froguel, Philippe -- G0500539/Medical Research Council/United Kingdom -- G0600705/Medical Research Council/United Kingdom -- England -- Nature. 2012 Feb 19;483(7389):350-4. doi: 10.1038/nature10798.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉Department of Genomic Drug Discovery Science, Graduate School of Pharmaceutical Sciences, Kyoto University, Kyoto 606-8501, Japan.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/22343897" target="_blank"〉PubMed〈/a〉
    Keywords: Adipocytes/metabolism/pathology ; Adipogenesis ; Adipose Tissue/metabolism/pathology ; Animals ; Calcium Signaling ; Cell Differentiation ; DNA Mutational Analysis ; Diet, High-Fat ; Energy Metabolism ; Europe/ethnology ; European Continental Ancestry Group/genetics ; Exons/genetics ; Fatty Liver/complications/genetics ; Gene Expression Regulation ; Glucagon-Like Peptide 1/secretion ; Glucose/metabolism ; Glucose Intolerance/complications ; Humans ; Insulin/metabolism ; Insulin Resistance ; Lipogenesis ; Liver/metabolism ; Macrophages/metabolism ; Mice ; Mutation/genetics ; Obesity/complications/genetics/*metabolism/pathology ; Receptors, G-Protein-Coupled/deficiency/genetics/*metabolism ; Signal Transduction/genetics
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    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
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