A glial DEG/ENaC channel functions with neuronal channel DEG-1 to mediate specific sensory functions in C. elegans.

Mammalian neuronal DEG/ENaC channels known as ASICs (acid-sensing ion channels) mediate sensory perception and memory formation. ASICS are closed at rest and are gated by protons. Members of the DEG/ENaC family expressed in epithelial tissues are called ENaCs and mediate Na(+) transport across epithelia.

Clinical, genetic, and electrophysiologic characteristics of a new PAS-domain HERG mutation (M124R) causing Long QT syndrome.

Objectives: To describe the clinical, genetic, and electrophysiologic characteristics of a new PAS-domain HERG mutation (M124R) that has been identified in a single large Jewish family with Long QT syndrome (LQTS).

Background: Many previously reported HERG mutations causing LQTS are located either in the C-terminus, or in the pore region. Relatively fewer clinical data are available on N-terminus (PAS-domain) mutation carriers.

Epigenetic ontogeny of the Igk locus during B cell development.

To become accessible for rearrangement, the immunoglobulin kappa locus must undergo a series of epigenetic changes. This begins in pro-B cells with the relocation of both immunoglobulin kappa alleles from the periphery to the center of the nucleus. In pre-B cells, one allele became preferentially packaged into an active chromatin structure characterized by histone acetylation and methylation of histone H3 lysine 4, while the other allele was recruited to heterochromatin, where it was associated with heterochromatin protein-gamma and Ikaros.

Monoallelic gene expression: a repertoire of recurrent themes.

The development of mature B and T cells in the lymphoid system involves a series of molecular decisions that culminate in the expression of a single antigen receptor on the cell surface, a phenomenon termed allelic exclusion. While feedback inhibition of the recombinase-activation gene proteins evidently plays an important role in the maintenance of allelic exclusion, the initial restriction of rearrangement to only one allele in each cell seems to be achieved through monoallelic epigenetic changes. Epigenetic mechanisms involved in the establishment of allelic exclusion also play a central role in other types of monoallelic expression, including X-chromosome inactivation in female cells, and parental imprinting.

Differential accessibility at the kappa chain locus plays a role in allelic exclusion.

Gene rearrangement in the immune system is always preceded by DNA demethylation and increased chromatin accessibility. Using a model system in which rearrangement of the endogenous immunoglobulin kappa locus is prevented, we demonstrate that these epigenetic and chromatin changes actually occur on one allele with a higher probability than the other. It may be this process that, together with feedback inhibition, serves as the basis for allelic exclusion.