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ab76442 は 53 報の論文で使用されています。

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  • Fasolino M  et al. Distinct cellular and molecular environments support aging-related DNA methylation changes in the substantia nigra. Epigenomics 9:21-31 (2017). PubMed: 27981856
  • Estakhr J  et al. Differential Control of Dopaminergic Excitability and Locomotion by Cholinergic Inputs in Mouse Substantia Nigra. Curr Biol 27:1900-1914.e4 (2017). PubMed: 28648825
  • Morales I  et al. Striatal astrocytes engulf dopaminergic debris in Parkinson's disease: A study in an animal model. PLoS One 12:e0185989 (2017). PubMed: 29028815
  • Volta M  et al. Initial elevations in glutamate and dopamine neurotransmission decline with age, as does exploratory behavior, in LRRK2 G2019S knock-in mice. Elife 6:N/A (2017). IHC-FoFr ; Mouse . PubMed: 28930069
  • Hammond SL  et al. Cellular selectivity of AAV serotypes for gene delivery in neurons and astrocytes by neonatal intracerebroventricular injection. PLoS One 12:e0188830 (2017). PubMed: 29244806
  • Fischer DL  et al. Subthalamic Nucleus Deep Brain Stimulation Does Not Modify the Functional Deficits or Axonopathy Induced by Nigrostriatal a-Synuclein Overexpression. Sci Rep 7:16356 (2017). PubMed: 29180681
  • Arima Y  et al. Brain micro-inflammation at specific vessels dysregulates organ-homeostasis via the activation of a new neural circuit. Elife 6:N/A (2017). PubMed: 28809157
  • Zhang T  et al. MPTP-Induced Dopamine Depletion in Basolateral AmygdalaviaDecrease of D2R Activation Suppresses GABAAReceptors Expression and LTD Induction Leading to Anxiety-Like Behaviors. Front Mol Neurosci 10:247 (2017). IHC-P ; Mouse . PubMed: 28824377
  • Shiba-Fukushima K  et al. Evidence that phosphorylated ubiquitin signaling is involved in the etiology of Parkinson's disease. Hum Mol Genet 26:3172-3185 (2017). PubMed: 28541509
  • Bal NC  et al. Both brown adipose tissue and skeletal muscle thermogenesis processes are activated during mild to severe cold adaptation in mice. J Biol Chem 292:16616-16625 (2017). PubMed: 28794154
  • Ouk K  et al. Attenuated pupillary light responses and downregulation of opsin expression parallel decline in circadian disruption in two different mouse models of Huntington's disease. Hum Mol Genet 25:N/A (2016). PubMed: 28031289
  • de Kloet AD  et al. Reporter mouse strain provides a novel look at angiotensin type-2 receptor distribution in the central nervous system. Brain Struct Funct 221:891-912 (2016). PubMed: 25427952
  • Szpunar MJ  et al. Sympathetic innervation, norepinephrine content, and norepinephrine turnover in orthotopic and spontaneous models of breast cancer. Brain Behav Immun 53:223-233 (2016). PubMed: 26718447
  • Morales I  et al. The astrocytic response to the dopaminergic denervation of the striatum. J Neurochem 139:81-95 (2016). PubMed: 27230040
  • Schmitt D  et al. Initial characterization of a Syap1 knock-out mouse and distribution of Syap1 in mouse brain and cultured motoneurons. Histochem Cell Biol 146:489-512 (2016). ICC/IF . PubMed: 27344443
  • Zhou Q  et al. Impairment of PARK14-dependent Ca(2+) signalling is a novel determinant of Parkinson's disease. Nat Commun 7:10332 (2016). ICC/IF, IHC-FoFr ; Mouse . PubMed: 26755131
  • Yun H  et al. A Central Role for Sympathetic Nerves in Herpes Stromal Keratitis in Mice. Invest Ophthalmol Vis Sci 57:1749-56 (2016). IHC ; Mouse . PubMed: 27070108
  • Hughes S  et al. Characterisation of light responses in the retina of mice lacking principle components of rod, cone and melanopsin phototransduction signalling pathways. Sci Rep 6:28086 (2016). PubMed: 27301998
  • De Miranda BR  et al. Novel para-phenyl substituted diindolylmethanes protect against MPTP neurotoxicity and suppress glial activation in a mouse model of Parkinson's disease. Toxicol Sci 143:360-73 (2015). PubMed: 25406165
  • Park J  et al. Pain perception in acute model mice of Parkinson's disease induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). Mol Pain 11:28 (2015). IHC-P ; Mouse . PubMed: 25981600
  • Hickman TT  et al. Adenomatous Polyposis Coli Protein Deletion in Efferent Olivocochlear Neurons Perturbs Afferent Synaptic Maturation and Reduces the Dynamic Range of Hearing. J Neurosci 35:9236-45 (2015). PubMed: 26085645
  • Freeman K  et al. In situ three-dimensional reconstruction of mouse heart sympathetic innervation by two-photon excitation fluorescence imaging. J Neurosci Methods 221:48-61 (2014). PubMed: 24056230
  • McNamara CG  et al. Dopaminergic neurons promote hippocampal reactivation and spatial memory persistence. Nat Neurosci 17:1658-60 (2014). ICC . PubMed: 25326690
  • Betts JF  et al. D-amino acid oxidase is expressed in the ventral tegmental area and modulates cortical dopamine. Front Synaptic Neurosci 6:11 (2014). IHC-FoFr ; Rat . PubMed: 24822045
  • Bricker-Anthony C  et al. Molecular changes and vision loss in a mouse model of closed-globe blast trauma. Invest Ophthalmol Vis Sci 55:4853-62 (2014). Mouse . PubMed: 24994864
  • Althoff K  et al. A Cre-conditional MYCN-driven neuroblastoma mouse model as an improved tool for preclinical studies. Oncogene N/A:N/A (2014). PubMed: 25174395
  • Lee DE  et al. Imaging dopaminergic dysfunction as a surrogate marker of neuropathology in a small-animal model of HIV. Mol Imaging 13:N/A (2014). PubMed: 25248756
  • Fu YY  et al. 3-D imaging and illustration of mouse intestinal neurovascular complex. Am J Physiol Gastrointest Liver Physiol 304:G1-11 (2013). IHC (PFA fixed) ; Mouse . PubMed: 23086917
  • Peng X  et al. Conversion of rat embryonic stem cells into neural precursors in chemical-defined medium. Biochem Biophys Res Commun 431:783-7 (2013). PubMed: 23321306
  • Ke MT  et al. SeeDB: a simple and morphology-preserving optical clearing agent for neuronal circuit reconstruction. Nat Neurosci 16:1154-61 (2013). PubMed: 23792946
  • Yoon S & Baik JH Dopamine D2 receptor-mediated epidermal growth factor receptor transactivation through a disintegrin and metalloprotease regulates dopaminergic neuron development via extracellular signal-related kinase activation. J Biol Chem 288:28435-46 (2013). IHC-Fr ; Mouse . PubMed: 23955337
  • Mousa SA  et al. Developmental expression of d-opioid receptors during maturation of the parasympathetic, sympathetic, and sensory innervations of the neonatal heart: early targets for opioid regulation of autonomic control. J Comp Neurol 519:957-71 (2011). WB, IHC-FoFr ; Rat . PubMed: 21280046
  • Mousa SA  et al. Identification of mu- and kappa-opioid receptors as potential targets to regulate parasympathetic, sympathetic, and sensory neurons within rat intracardiac ganglia. J Comp Neurol 518:3836-47 (2010). WB, IHC-FoFr ; Rat . PubMed: 20653037
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