The inner membrane of the ATP-producing organelles of endosymbiotic origin,
mitochondria, has long been considered to be poorly permeable to cations and anions …

We have previously shown that the mitochondrial potassium channel Kv1. 3 (mtKv1. 3) in T
lymphocytes is a novel target of Bax. Mutation of Bax at lysine 128 (BaxK128E) abrogates its …

Background: The voltage gated K+ channel Kv1. 5 participates in the repolarization of a
wide variety of cell types. Kv1. 5 is downregulated during hypoxia, which is known to …

Voltage-dependent K+ channels (Kv) are involved in the proliferation and differentiation of
mammalian cells, since Kv antagonists impair cell cycle progression. Although myofibers are …

Because Kv1. 3 and Kv1. 5 K+ channels are remodeled during tumorigenesis and
participate in skeletal muscle proliferation, we analyzed their expression in human skeletal …

Background Sensory deprivation induces dramatic morphological and neurochemical
changes in the olfactory bulb (OB) that are largely restricted to glomerular and granule layer …

Precise axon pathfinding is crucial for establishment of the initial neuronal network during
development. Pioneer axons navigate without the help of preexisting axons and pave the …

Numerous studies have documented the effects of chronic N-methyl-D-aspartate receptor
(NMDAR) blockade on excitatory circuits, but the effects on inhibitory circuitry are not well …

In this study, we aimed to increase the sensitivity of protein labeling using 1.4 nm gold
nanoparticles and glutamate δ2 receptor (GluD2) from the postsynaptic membrane of the …

Voltage-gated Kv1. 5 channels are expressed in a wide variety of tissues including cardiac
myocytes, smooth muscle and tumor cells. Kv1. 5 channel activity is modified by N-cadherin …