Browsing by Author Morsch, Marco

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Showing results 1 to 15 of 15
Issue DateTitleAuthor(s)Citation
2014Clinical and scientific aspects of muscle-specific tyrosine kinase-related myasthenia gravisPhillips, William; Reddel, Stephen; Morsch, Marco; School of Medical Sciences: Physiology; Concord Clinical School: ANZAC Research InstituteClinical and scientific aspects of muscle-specific tyrosine kinase-related myasthenia gravis, Current Opinion In Neurology, vol.27, 5, 2014,pp 558-565
2015The effects of high-fat feeding on physical function and skeletal muscle extracellular matrixMarkovic, Tania; McLennan, Susan; Power, James; Tam, Charmaine; Twigg, Stephen; Yee, Christine; Morsch, Marco; Boden Institute; Central Clinical School: Medicine; Economics Faculty Admin; Biological Sciences; Central Clinical School: Medicine; Central Clinical School: Centenary InstituteThe effects of high-fat feeding on physical function and skeletal muscle extracellular matrix, Nutrition and Diabetes, vol.5, N/A, 2015,pp 1-4
2015The effects of high-fat feeding on physical function and skeletal muscle extracellular matrixMcLennan, Susan; Power, Joseph; Tam, Charmaine; Twigg, Stephen; Yee, Christine; Markovic, T; Morsch, Marco; Central Clinical School: Medicine; Concord Clinical School: Psychological Medicine; School of Biological Sciences; Central Clinical School: Medicine; Central Clinical School: Centenary InstituteThe effects of high-fat feeding on physical function and skeletal muscle extracellular matrix, Nutrition and Diabetes, vol.5, 12, 2015,pp 1-4
2014Effects of the Beta2-Adrenoceptor Agonist, Albuterol, in a Mouse Model of Anti-MuSK myasthenia GravisGhazanfari, Nazanin; Morsch, Marco; Phillips, William; Tse, Nigel Pang Lon; Reddel, Stephen; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; Not knownEffects of the Beta2-Adrenoceptor Agonist, Albuterol, in a Mouse Model of Anti-MuSK myasthenia Gravis, PloS One, vol.9, 2, 2014,pp 1-11
2015Electrophysiological analysis of neuromuscular synaptic function in myasthenia gravis patients and animal modelsPhillips, William; Morsch, Marco; Plomp, Jaap J; Verschuuren, Jan J G M; School of Medical Sciences: PhysiologyElectrophysiological analysis of neuromuscular synaptic function in myasthenia gravis patients and animal models, Experimental Neurology, vol.270, N/A, 2015,pp 41-54
2017Expression of ALS/FTD-linked mutant CCNF in zebrafish leads to increased cell death in the spinal cord and an aberrant motor phenotypeNicholson, Garth; Don, E; et al, Various; Fifita, Jennifer A; Hogan, A; Laird, Angela; Lee, Albert; Morsch, Marco; Rayner, Stephanie; Tarr, I; Watchon, Maxinne; Winnick, Claire G; Concord Clinical School: ANZAC Research InstituteExpression of ALS/FTD-linked mutant CCNF in zebrafish leads to increased cell death in the spinal cord and an aberrant motor phenotype, Human Molecular Genetics, vol.26, 14, 2017,pp 2616-2626
2015Forced expression of muscle specific kinase slows postsynaptic acetylcholine receptor loss in a mouse model of MuSK myasthenia gravisGhazanfari, Nazanin; Linsao, Erna Lin Thryzza; Morsch, Marco; Phillips, William; Trajanovska, Sofie; Gregorevic, Paul; Liang, Simon; Reddel, Stephen; School of Medical Sciences: Physiology; School of Medical Sciences: Bosch Institute; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologyForced expression of muscle specific kinase slows postsynaptic acetylcholine receptor loss in a mouse model of MuSK myasthenia gravis, Physiological Reports, vol.3, 12, 2015,pp 1-15
2014Muscle Specific Kinase (MuSK) autoantibodies suppress the MuSK pathway and ACh receptor retention at the mouse neuromuscular junctionGhazanfari, Nazanin; Morsch, Marco; Phillips, William; Liang, Simon; Reddel, Stephen; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologyMuscle Specific Kinase (MuSK) autoantibodies suppress the MuSK pathway and ACh receptor retention at the mouse neuromuscular junction, The Journal of Physiology, vol.592, 13, 2014,pp 2881-2897
2012Muscle specific kinase autoantibodies cause synaptic failure through progressive wastage of postsynaptic acetylcholine receptorsGhazanfari, Nazanin; Morsch, Marco; Phillips, William; Reddel, Stephen; Toyka, Klaus; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologyMuscle specific kinase autoantibodies cause synaptic failure through progressive wastage of postsynaptic acetylcholine receptors, Experimental Neurology, vol.237, 2, 2012,pp 286-295
2011Muscle Specific Kinase: Organiser of synaptic membrane domainsFernandez, Kristine; Ghazanfari, Nazanin; Morsch, Marco; Murata, Yui; Phillips, William; Reddel, Stephen; Ngo, Shyuan T.; Noakes, Peter G.; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; Concord Clinical School: ANZAC Research InstituteMuscle Specific Kinase: Organiser of synaptic membrane domains, The International Journal of Biochemistry & Cell Biology, vol.43, 3, 2011,pp 295-298
2014The Neuromuscular Junction: Measuring Synapse Size, Fragmentation and Changes in Synaptic Protein Density Using Confocal Fluorescence MicroscopyCole, Louise; Ghazanfari, Nazanin; Leamey, Catherine; Phillips, William; Tse, Nigel; Visvanathan, Archunan; Morsch, Marco; School of Medical Sciences: School of Medical Sciences; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Bosch Institute; PsychologyThe Neuromuscular Junction: Measuring Synapse Size, Fragmentation and Changes in Synaptic Protein Density Using Confocal Fluorescence Microscopy, Journal of Visualized Experiments, vol.94, N/A, 2014,pp 1-16
2013Pyridostigmine but not 3,4-diaminopyridine exacerbates ACh receptor loss and myasthenia induced in mice by muscle specific kinase autoantibodyGhazanfari, Nazanin; Morsch, Marco; Phillips, William; Reddel, Stephen; Toyka, Klaus; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologyPyridostigmine but not 3,4-diaminopyridine exacerbates ACh receptor loss and myasthenia induced in mice by muscle specific kinase autoantibody, The Journal of Physiology, vol.591, 10, 2013,pp 2747-2762
2018Selective spatio-temporal vulnerability of central nervous system neurons to pathological TAR DNA-binding protein 43 in aged transgenic miceHalliday, Glenda; Kiernan, Matthew; Piguet, Olivier; Asih, Prita; Bi, Mian; Butler, Troy; Chan, Gabriella; Chung, Roger S.; Ippati, Stefania; Ittner, Lars; Ke, Yazi D.; Lee, Wei S.; Morsch, Marco; Przybyla, Magdalena; Suh, Lisa; van der Hoven, Julia; van Hummel, Annika; Central Clinical School: Medicine; Central Clinical School: Medicine; PsychologySelective spatio-temporal vulnerability of central nervous system neurons to pathological TAR DNA-binding protein 43 in aged transgenic mice, American Journal of Pathology, vol.188, 6, 2018,pp 1447-1456
2013Sequence of Age-Associated Changes to the Mouse Neuromuscular Junction and the Protective Effects of Voluntary ExerciseCheng, Anson; Ghazanfari, Nazanin; Morsch, Marco; Murata, Yui; Phillips, William; Reddel, Stephen; Not known; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: Physiology; School of Medical Sciences: PhysiologySequence of Age-Associated Changes to the Mouse Neuromuscular Junction and the Protective Effects of Voluntary Exercise, PLoS One, vol.8, 7, 2013,pp 1-8
2016Ultrastructural Mapping of the Zebrafish Gastrointestinal System as a Basis for Experimental Drug StudiesBraet, Filip; Cheng, Delfine; Shami, Gerald; Chung, Roger S.; Morsch, Marco; School of Medical Sciences: Anatomy & Histology; School of Medical Sciences: Bosch Institute; School of Medical Sciences: Bosch InstituteUltrastructural Mapping of the Zebrafish Gastrointestinal System as a Basis for Experimental Drug Studies, BioMed Research International, vol.2016, N/A, 2016,pp 1-13