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Target Concepts:
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Query: UMLS:C0027066 (
myoclonus
)
4,275
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cell-specific RNA-binding proteins (RBPs) are involved in a variety of processes that are critical for appropriate protein expression (e.g., alternative splicing of messenger RNAs and translational control). Perturbation of the normal functions of RBPs has been implicated in a number of clinical disorders. Disease-related RBPs include the CELF proteins, which are believed to play roles in normal heart and skeletal muscle development and in the pathology of
myotonic dystrophy
; the Nova autoimmune antigens, which are neuron-specific proteins involved in the pathogenesis of the neurodegenerative syndrome paraneoplastic opsoclonus-
myoclonus
ataxia; and the alphaCP proteins, which were originally discovered by virtue of their connection to alpha thalassemia. These proteins are representative of a potentially large repertoire of cell-specific RBPs that, together, help to distinguish among the various cell types. Structure/function studies of these RBPs have begun to yield important insights into how they help to shape the protein expression programs unique to heart, skeletal muscle, brain, and other tissues.
...
PMID:Cell-specific RNA-binding proteins in human disease. 1283 81
The m.8344A>G mutation in the mt-tRNA(Lys) gene, first described in myoclonic epilepsy and ragged red fibers (MERRF), accounts for approximately 80% of mutations in individuals with MERRF syndrome. Although originally described in families with a classical syndrome of
myoclonus
, ataxia, epilepsy and ragged red fibers in muscle biopsy, the m.8344A>G mutation is increasingly recognised to exhibit marked phenotypic heterogeneity. This paper describes the clinical, morphological and laboratory features of an unusual phenotype in a patient harboring the m.8344A>G 'MERRF' mutation. We present the case of a middle-aged woman with distal weakness since childhood who also had ptosis and facial weakness and who developed mid-life respiratory insufficiency necessitating non-invasive nocturnal ventilator support. Neurophysiological and acetylcholine receptor antibody analyses excluded myasthenia gravis whilst molecular genetic testing excluded
myotonic dystrophy
, prompting a diagnostic needle muscle biopsy. Mitochondrial histochemical abnormalities including subsarcolemmal mitochondrial accumulation (ragged-red fibers) and in excess of 90% COX-deficient fibers, was seen leading to sequencing of the mitochondrial genome in muscle. This identified the m.8344A>G mutation commonly associated with the MERRF phenotype. This case extends the evolving phenotypic spectrum of the m.8344A>G mutation and emphasizes that it may cause indolent distal weakness with respiratory insufficiency, with marked histochemical defects in muscle. Our findings support consideration of screening of this gene in cases of indolent myopathy resembling distal limb-girdle muscular dystrophy in which screening of the common genes prove negative.
...
PMID:Distal weakness with respiratory insufficiency caused by the m.8344A > G "MERRF" mutation. 2479 23
Myoclonus
is a sudden brief, involuntary muscle jerk. Of all the movement disorders,
myoclonus
is the most difficult to encapsulate into any simple framework. On the one hand, a classification system is required that is clinically useful to aid in guiding diagnosis and treatment. On the other hand, there is need for a system that organizes current knowledge regarding biological mechanisms to guide scientific research. These 2 needs are distinct, making it challenging to develop a robust classification system suitable for all purposes. We attempt to classify
myoclonus
as "epileptic" and "nonepileptic" based on its association with epileptic seizures. Myotonia in people may be divided into 2 clinically and molecularly defined forms: (1) nondystrophic myotonias and (2) myotonic dystrophies. The former are a group of skeletal muscle channelopathies characterized by delayed skeletal muscle relaxation. Many distinct clinical phenotypes are recognized in people, the majority relating to mutations in skeletal muscle voltage-gated chloride (CLCN1) and sodium channel (SCN4A) genes. In dogs, myotonia is associated with mutations in CLCN1. The myotonic dystrophies are considered a multisystem clinical syndrome in people encompassing 2 clinically and molecularly defined forms designated
myotonic dystrophy
types 1 and 2. No mutation has been linked to veterinary muscular dystrophies. We detail veterinary examples of myotonia and attempt classification according to guidelines used in humans. This more precise categorization of
myoclonus
and myotonia aims to promote the search for molecular markers contributing to the phenotypic spectrum of disease. Our work aimed to assist recognition for these 2 enigmatic conditions.
...
PMID:Classification of Involuntary Movements in Dogs: Myoclonus and Myotonia. 2855 61
