Publications by authors named "Edwin Murenzi"
Article Synopsis
- Microtransplantation of neurolemma tissue from mammalian brains into Xenopus laevis oocytes allows researchers to study the structure and function of ion channels and receptors related to the central nervous system, particularly in the context of channelopathies and diseases.* -
- An experiment revealed that adult rat neurolemma had 2.5 times higher expression of voltage-sensitive sodium channels (VSSCs) compared to juvenile neurolemma, with the main isoform identified being Na1.2.* -
- The study found that VSSCs from juvenile neurolemma were more sensitive to the pesticide deltamethrin, but overall showed less sensitivity than those from adult neurolemma when exposed to certain chemicals and electrical depolarization.*
Microtransplantation of mammalian brain neurolemma into the plasma membrane of Xenopus oocytes is used to study ion channels in their native form as they appear in the central nervous system. Use of microtransplanted neurolemma is advantageous for various reasons: tissue can be obtained from various sources and at different developmental stages; ion channels and receptors are present in their native configuration in their proper lipid environment along with appropriate auxiliary subunits; allowing the evaluation of numerous channelpathies caused by neurotoxicants in an ex vivo state. Here we show that Xenopus oocytes injected with post-natal day 90 (PND90) rat brain neurolemma fragments successfully express functional ion channels.
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