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Data from: Independent acquisition of sodium selectivity in bacterial and animal sodium channels
- 负责人:
- DOI:
- doi:10.5061/dryad.t8f5m
- 摘要:
- the channel — its method of ‘gating’. The voltage-gated sodium (Nav) and calcium channels (Cav), which drive the upstroke of action potentials and transduce
Data from: Convergent adaptation to dangerous prey proceeds through the same first-step mutation in the garter snake Thamnophis sirtalis
- 负责人:
- DOI:
- doi:10.5061/dryad.3k15h
- 摘要:
- s can confer TTX resistance while maintaining the conserved function of voltage-gated sodium channels.
Data from: Fitness costs of key point mutations that underlie acaricide target-site resistance in the two-spotted spider mite Tetranychus urticae
- 负责人:
- Bajda, Sabina
- 关键词:
- target-site resistance fitness cost cytochrome b chitin synthase I voltage gated sodium channels glutamate gated chloride channels acaricide resistance management
- DOI:
- doi:10.5061/dryad.32ht688
- 摘要:
- in the mitochondrial cytochrome b, the combined G314D and G326E substitutions in the glutamate-gated chloride channels, L1024V in the voltage gated sodium channel
Data from: Historical contingency in a multigene family facilitates adaptive evolution of toxin resistance
- 负责人:
- DOI:
- doi:10.5061/dryad.tm65d
- 摘要:
- of snakes through coevolutionary arms races with toxic amphibian prey, which select for TTX-resistant voltage-gated sodium channels (Nav) [ 12–16 ]. Her
Data from: Large-effect mutations generate trade-off between predatory and locomotor ability during arms race coevolution with deadly prey
- 负责人:
- DOI:
- doi:10.5061/dryad.7f1h767
- 摘要:
- amino acid substitutions. We tested for trade-offs associated with beneficial mutations that confer tetrodotoxin (TTX) resistance in the voltage-gated sodium channel (NaV1
Data from: Mutations of the calcium channel gene cacophony suppress seizures in Drosophila
- 负责人:
- DOI:
- doi:10.5061/dryad.nc763
- 摘要:
- sorders such as epilepsy. The BS mutant parabss1, caused by a gain-of-function mutation of the voltage-gated Na+ channel gene, is extremely seizure-sensitive
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