1994
DOI: 10.1002/neu.480251214
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Long‐term survival followed by degradation of neurofilament proteins in severed Mauthner axons of goldfish

Abstract: The morphology and protein composition of intact and severed Mauthner axons (M-axons) from goldfish were examined on electron micrographs, sodium dodecyl sulfate gels, and immunoblots. Neurofilaments were the most common cytoskeletal element on electron micrographs, and neurofilament proteins (NFPs) were the most intensely silver-stained bands in M-axoplasm microdissected from control M-axons. NFPs at about 235, 145, 123, 105, 80, and 60 kD in M-axoplasm were identified with four monoclonal and three polyclona… Show more

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Cited by 10 publications
(31 citation statements)
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“…This assumption is supported by data showing that a distal axonal segment severed from its cell body in mammals typically degenerates within hours to days [10]. However, when axons are severed from their cell bodies in invertebrates [2] or lower vertebrates such as the goldfish [18], the distal axonal segment often survives for months to years. Proteins in an axon isolated from its cell body could be maintained only through some combination of (1) Although often regarded as a particularly unlikely mechanism to maintain axonai proteins [2,16], axoplasmic protein synthesis has been reported for squid giant axons [7] and goldfish Mauthner axons (M-axons) [14].…”
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confidence: 91%
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“…This assumption is supported by data showing that a distal axonal segment severed from its cell body in mammals typically degenerates within hours to days [10]. However, when axons are severed from their cell bodies in invertebrates [2] or lower vertebrates such as the goldfish [18], the distal axonal segment often survives for months to years. Proteins in an axon isolated from its cell body could be maintained only through some combination of (1) Although often regarded as a particularly unlikely mechanism to maintain axonai proteins [2,16], axoplasmic protein synthesis has been reported for squid giant axons [7] and goldfish Mauthner axons (M-axons) [14].…”
mentioning
confidence: 91%
“…In addition to published data on the presence of all basic components of the translational machinery, other benefits of the goldfish M-axon as an experimental system to examine protein synthetic capabilities in a vertebrate axon include (1) its long length (5-8 cm) and large diameter (50-80μm) provide a large amount of axoplasm per cell for biochemical analysis; (2) its high axonal viscosity and large axonal diameter permit a clean separation of its axoplasm (M-axoplasm) from its surrounding glial sheath (M-sheath) [14,18]; and (3) the availability of goldfish cDNA sequences from distinctly neuronal (NF-M) mRNA transcripts and distinctly glial mRNA transcripts (glial filament acidic protein; GFAP) permits sensitive PCR-based contamination controls to verify clean axonal isolation.…”
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confidence: 99%
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