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Heterozygous Point Mutations (heterozygous + point_mutation)

Distribution by Scientific Domains
Medical Sciences50%
Life Sciences50%

Selected Abstracts

Tibial muscular dystrophy in a Belgian family

ANNALS OF NEUROLOGY, Issue 2 2003
Peter Y. K. Van den Bergh
We report a Belgian family with autosomal dominant, late-onset, distal myopathy with selective foot extensor muscle involvement of the lower legs. Linkage to the tibial muscular dystrophy (TMD) locus 2q31 was not evident at first because of incomplete disease penetrance in a 50-year-old asymptomatic family member. An abnormal tibialis anterior muscle biopsy established her subclinical status and linkage of the family to the TMD locus. Mutation analysis showed a disease-specific, heterozygous point mutation in the last exon, Mex6, of the titin gene. This is the third mutation found in TMD and the second European family with TMD outside the Finnish population, suggesting that titinopathies may occur in various populations. Ann Neurol 2003 [source]

Episodic ataxia type 1 mutations in the KCNA1 gene impair the fast inactivation properties of the human potassium channels Kv1.4-1.1/Kv,1.1 and Kv1.4-1.1/Kv,1.2

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 11 2006
Paola Imbrici
Abstract Episodic ataxia type 1 (EA1) is an autosomal dominant neurological disorder characterized by constant muscle rippling movements (myokymia) and episodic attacks of ataxia. Several heterozygous point mutations have been found in the coding sequence of the voltage-gated potassium channel gene KCNA1 (hKv1.1), which alter the delayed-rectifier function of the channel. Shaker -like channels of different cell types may be formed by unique hetero-oligomeric complexes comprising Kv1.1, Kv1.4 and Kv,1.x subunits. Here we show that the human Kv,1.1 and Kv,1.2 subunits modulated the functional properties of tandemly linked Kv1.4-1.1 wild-type channels expressed in Xenopus laevis oocytes by (i) increasing the rate and amount of N-type inactivation, (ii) slowing the recovery rate from inactivation, (iii) accelerating the cumulative inactivation of the channel and (iv) negatively shifting the voltage dependence of inactivation. To date, the role of the human Kv1.4-1.1, Kv1.4-1.1/Kv,1.1 and Kv1.4-1.1/Kv,1.2 channels in the aetiopathogenesis of EA1 has not been investigated. Here we also show that the EA1 mutations E325D, V404I and V408A, which line the ion-conducting pore, and I177N, which resides within the S1 segment, alter the fast inactivation and repriming properties of the channels by decreasing both the rate and degree of N-type inactivation and by accelerating the recovery from fast inactivation. Furthermore, the E325D, V404I and I177N mutations shifted the voltage dependence of the steady-state inactivation to more positive potentials. The results demonstrate that the human Kv,1.1 and Kv,1.2 subunits regulate the proportion of wild-type Kv1.4-1.1 channels that are available to open. Furthermore, EA1 mutations alter heteromeric channel availability which probably modifies the integration properties and firing patterns of neurones controlling cognitive processes and body movements. [source]

Hot spot mutations in keratin 2e suggest a correlation between genotype and phenotype in patients with ichthyosis bullosa of Siemens

EXPERIMENTAL DERMATOLOGY, Issue 1 2000
Y. Suga
Abstract: Ichthyosis bullosa of Siemens (IBS) is a rare disorder of cornification characterized by blister formation in the upper suprabasal layers of the epidermis. Molecular analysis of IBS has identified mutations in the keratin 2e (K2e) gene, which is located in the type II keratin gene cluster on chromosome 12q. We have studied two IBS families and have identified heterozygous point mutations in codon 493 of the K2e gene in both families. Whereas a non-conservative amino acid substitution at position 117 of the 2B region of K2e (E117K) was associated with a severe phenotype in family 1, family 2 showed mild clinical features as a result of a conservative substitution (E117D). These data suggest a phenotype,genotype correlation in these families. [source]

p63 gene analysis in Mexican patients with syndromic and non-syndromic ectrodactyly

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 1 2004
V. Berdón-Zapata
Abstract Ectrodactyly is a congenital limb malformation that involves a central reduction defect of the hands and/or feet which is frequently associated with other phenotypic abnormalities. The condition appears to be genetically heterogeneous and recently it has been demonstrated that mutations in the p63 gene, a homoiogue of the tumor suppressor gene p53, are the cause of at least four autosomal dominant genetic syndromes which feature ectrodactyly: ectrodactyly, ectodermal dysplasia, and facial clefting (EEC), split hand/split foot malformation (SHFM), limb-mammary syndrome (LMS), and acro-dermato-ungual-lacrimal-tooth syndrome (ADULT). In this study, genetic analysis of the p63 gene in a group of 13 patients with ectrodactyly (syndromic and isolated) was performed. Four patients with syndromic ectrodactyly had p63 heterozygous point mutations that affect the DNA binding domain of the protein. One of these subjects exhibited the typical features of EEC syndrome as well as ankyloblepharon being, to our knowledge, the first case combining these traits. This finding supports the view of a clinical overlap in this group of autosomal dominant syndromes caused by p63 mutations and demonstrates that there are exceptions in the previously established p63 genotype-phenotype correlation. © 2003 Orthopaedic Research Society. Published by Elsevier Ltd. All rights reserved. [source]