Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917816 (mental retardation)
 15,867 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myotonic dystrophy (MyD) is a neuromuscular disease that is autosomal dominant and the most common form of muscular dystrophy affecting adults. The clinical features of MyD include a multisystemic disorder characterized by myotonia, progressive muscle weakness and wasting, cataracts, premature balding and mental retardation. The most severe type of MyD is classified as congenital MyD (CMyD). The muscle weakness in CMyD is very severe, but muscle development can be observed in the period of growth. However, no clinical case of this type has been reported yet. Therefore, we report on a girl with CMyD who had an increase in muscle strength over a four-year period. The girl with CMyD participated in this study from the age of 9 to the age of 12. The measurement of muscle strength was recorded as the maximum score of grip strength with the use of dynamometers. Grip strength was assessed once a year by the same two physical therapists. Grip strength of CMyD for each year was markedly weak when compared with the normal controls, but muscle strength changed within some specific growth areas. The muscle weakness in CMyD was remarkable, but the result showed that specific muscle strength of CMyD in childhood was actually increased.
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PMID:The Change of Grip Strength in a Patient with Congenital Myotonic Dystrophy Over a 4-year Period. 2579 86

More than 40 diseases, most of which primarily affect the nervous system, are caused by expansions of simple sequence repeats dispersed throughout the human genome. Expanded trinucleotide repeat diseases were discovered first and remain the most frequent. More recently tetra-, penta-, hexa-, and even dodeca-nucleotide repeat expansions have been identified as the cause of human disease, including some of the most common genetic disorders seen by neurologists. Repeat expansion diseases include both causes of myotonic dystrophy (DM1 and DM2), the most common genetic cause of amyotrophic lateral sclerosis/frontotemporal dementia (C9ORF72), Huntington disease, and eight other polyglutamine disorders, including the most common forms of dominantly inherited ataxia, the most common recessive ataxia (Friedreich ataxia), and the most common heritable mental retardation (fragile X syndrome). Here I review distinctive features of this group of diseases that stem from the unusual, dynamic nature of the underlying mutations. These features include marked clinical heterogeneity and the phenomenon of clinical anticipation. I then discuss the diverse molecular mechanisms driving disease pathogenesis, which vary depending on the repeat sequence, size, and location within the disease gene, and whether the repeat is translated into protein. I conclude with a brief clinical and genetic description of individual repeat expansion diseases that are most relevant to neurologists.
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PMID:Repeat expansion diseases. 2932 6

Nucleosomes are not uniformly distributed along DNA and their positioning (termed "nucleosomal landscape") can be derived using data available for several genomes. In this study we analyzed DNA helical rise profiles through a tetranucleotide code, and we defined the nucleosomal landscape of several sequences forming dinucleosomes and of the sequences of huntingtin, myotonic dystrophy type 1 and fragile mental retardation 2 genes, which contained several repeated sequences. We also analyzed the profiles of some sequences interacting with transcription factors or with RNA polymerase II. In the genomes of Cenorhabditis elegans, Mus musculus and Homo sapiens we found profiles with extremely low helical rise values, characteristic of nucleosome free regions. We defined these regions as "holes" and found that their presence correlates with lamina associated domains sequences. Altogether, this study shows that DNA helical rise profile may have a role in gene expression modulation and in shaping chromosomal structure.
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PMID:A study of the impact of DNA helical rise on protein-DNA interaction. 3045 62


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