The effects of tricaine mesylate on arthropods: crayfish, crab and Drosophila.
Catherine E StanleyRebecca AdamsJeremy NadolskiEllora AmritMatthew BarrettCatherine BohnettKelsey CampbellKeegan DeweeseSabbyasachi DharBarbara GillisCarson HillMorgan InksKatrina KozakAlexa LarsonIbraheem MurtazaDestaneh NicholsRafael RobertsHannah TygerCourtney WaterburyRobin Lewis CooperPublished in: Invertebrate neuroscience : IN (2020)
Tricaine mesylate, also known as MS-222, was investigated to characterize its effects on sensory neurons, synaptic transmission at the neuromuscular junction, and heart rate in invertebrates. Three species were examined: Drosophila melanogaster, blue crab (Callinectes sapidus), and red swamp crayfish (Procambarus clarkii). Intracellular measures of action potentials in motor neurons of the crayfish demonstrated that MS-222 dampened the amplitude, suggesting that voltage-gated Na + channels are blocked by MS-222. This is likely the mechanism behind the reduced activity measured in sensory neurons and depressed synaptic transmission in all three species as well as reduced cardiac function in the larval Drosophila. To address public access to data, a group effort was used for analysis of given data sets, blind to the experimental design, to gauge analytical accuracy. The determination of a threshold in analysis for measuring extracellular recorded sensory events is critical and is not easily performed with commercial software.
Keyphrases
- heart rate
- drosophila melanogaster
- mass spectrometry
- multiple sclerosis
- ms ms
- spinal cord
- heart rate variability
- electronic health record
- blood pressure
- liquid chromatography
- big data
- data analysis
- healthcare
- chronic myeloid leukemia
- solid phase extraction
- reactive oxygen species
- machine learning
- spinal cord injury
- atomic force microscopy
- zika virus
- emergency department
- molecularly imprinted
- functional connectivity