Axonal transport in neurons is essential for cargo movement between the cell body and synapses. Caenorhabditis elegans UNC-104 and its homolog KIF1A are kinesin-3 motors that anterogradely transport precursors of synaptic vesicles (pre-SVs) and are degraded at synapses. However, in C.
View Article and Find Full Text PDFBackground: Kinesin motor proteins transport intracellular cargo, including mRNA, proteins, and organelles. Pathogenic variants in kinesin-related genes have been implicated in neurodevelopmental disorders and skeletal dysplasias. We identified de novo, heterozygous variants in KIF5B, encoding a kinesin-1 subunit, in four individuals with osteogenesis imperfecta.
View Article and Find Full Text PDFThe γ-aminobutyric acid-mediated (GABAergic) system participates in many aspects of organismal physiology and disease, including proteostasis, neuronal dysfunction, and life-span extension. Many of these phenotypes are also regulated by reactive oxygen species (ROS), but the redox mechanisms linking the GABAergic system to these phenotypes are not well defined. Here, we report that GABAergic redox signaling cell nonautonomously activates many stress response pathways in and enhances vulnerability to proteostasis disease in the absence of oxidative stress.
View Article and Find Full Text PDFTransgenic worms are a key resource for researchers dissecting molecular pathways using this simple metazoan model system. Transgenes provide an avenue to visualize developmental events, cellular processes as well as real-time signal events in live animals using genetically encoded sensors. Generation of these tools has become increasingly efficient with the advent of numerous integration methods including transposon, CRISPR and recombinase-mediated integration.
View Article and Find Full Text PDFI outline a streamlined method to insert large, single-copy transgenes into the Caenorhabditis elegans genome using recombination-mediated cassette exchange (RMCE) that relies solely on drug selection yielding a homozygous fluorescent protein (FP) marked transgene in 3 generations (8 days) at high efficiency (>1 insertion per 2 injected P0 animals). Landing sites for this approach are available on four chromosomes in several configurations which yield lines marked in distinct cell types. An array of vectors permit creating transgenes using a variety of selection methods (HygR, NeoR, PuroR, and unc-119) that yield lines expressing different colored FPs (BFP, GFP, mNG, and Scarlet).
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