Gomez, Christopher M. | Profiles RNS

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Christopher M. Gomez to Receptors, Cholinergic

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This is a "connection" page, showing publications Christopher M. Gomez has written about Receptors, Cholinergic.

Christopher M. Gomez

Connection Strength

1.803

Receptors, Cholinergic

Macroscopic properties of spontaneous mutations in slow-channel syndrome: correlation by domain and disease severity. Synapse. 2006 Nov; 60(6):441-9.
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Score: 0.277
Activation of apoptotic pathways at muscle fiber synapses is circumscribed and reversible in a slow-channel syndrome model. Neurobiol Dis. 2006 Aug; 23(2):462-70.
View in: PubMed

Score: 0.271
Genetic manipulation of AChR responses suggests multiple causes of weakness in slow-channel syndrome. Ann N Y Acad Sci. 1998 May 13; 841:167-80.
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Score: 0.154
Desensitization of mutant acetylcholine receptors in transgenic mice reduces the amplitude of neuromuscular synaptic currents. Synapse. 1997 Dec; 27(4):367-77.
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Score: 0.149
A beta-subunit mutation in the acetylcholine receptor channel gate causes severe slow-channel syndrome. Ann Neurol. 1996 Jun; 39(6):712-23.
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Score: 0.135
A transgenic mouse model of the slow-channel syndrome. Muscle Nerve. 1996 Jan; 19(1):79-87.
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Score: 0.131
A leucine-to-phenylalanine substitution in the acetylcholine receptor ion channel in a family with the slow-channel syndrome. Neurology. 1995 May; 45(5):982-5.
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Score: 0.125
Skeletal muscle IP3R1 receptors amplify physiological and pathological synaptic calcium signals. J Neurosci. 2011 Oct 26; 31(43):15269-83.
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Score: 0.098
Inositol-1,4,5-triphosphate receptors mediate activity-induced synaptic Ca2+ signals in muscle fibers and Ca2+ overload in slow-channel syndrome. Cell Calcium. 2007 Apr; 41(4):343-52.
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Score: 0.069
Monoclonal anti-acetylcholine receptor antibodies with differing capacities to induce experimental autoimmune myasthenia gravis. J Immunol. 1985 Jul; 135(1):234-41.
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Score: 0.063
Focal caspase activation underlies the endplate myopathy in slow-channel syndrome. Ann Neurol. 2004 Mar; 55(3):347-52.
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Score: 0.058
Induction of the morphologic changes of both acute and chronic experimental myasthenia by monoclonal antibody directed against acetylcholine receptor. Acta Neuropathol. 1984; 63(2):131-43.
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Score: 0.057
Anti-acetylcholine receptor antibodies directed against the alpha-bungarotoxin binding site induce a unique form of experimental myasthenia. Proc Natl Acad Sci U S A. 1983 Jul; 80(13):4089-93.
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Score: 0.055
Active calcium accumulation underlies severe weakness in a panel of mice with slow-channel syndrome. J Neurosci. 2002 Aug 01; 22(15):6447-57.
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Score: 0.052
Monoclonal hybridoma anti-acetylcholine receptor antibodies: antibody specificity and effect of passive transfer. Ann N Y Acad Sci. 1981; 377:97-109.
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Score: 0.046
Slow-channel transgenic mice: a model of postsynaptic organellar degeneration at the neuromuscular junction. J Neurosci. 1997 Jun 01; 17(11):4170-9.
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Score: 0.036
Myasthenia induced by monoclonal anti-acetylcholine receptor antibodies: clinical and electrophysiological aspects. Ann Neurol. 1981 Jun; 9(6):563-8.
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Score: 0.012
Monoclonal anti-acetylcholine receptor antibodies can cause experimental myasthenia. Nature. 1980 Aug 14; 286(5774):738-9.
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Score: 0.011
Use of monoclonal antiacetylcholine receptor antibodies to investigate the macrophage inflammation of acute experimental myasthenia gravis: refractoriness to a second episode of acute disease. Neurology. 1985 Oct; 35(10):1455-60.
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Score: 0.004

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