neurotransmitter
agonists Chemical substances that mimic or enhance the effects of a neurotransmitter on the receptor sites of the next cell, increasing or decreasing the activity of that cell. Drug that enhances the effects of a particular neurotransmitter.
To know what properties go with what effects the choices for both will need to e given. Not knowing what the properties or effects are will not allow someone to know the answer.
It has few or no side effects in humans. it kills different types of harmful bacteria. It doesn't kill good bacteria.
Receptor proteins.
LSD mainly affects the Cerebral Cortex. LSD is a serotonin receptor agonist and much of its hallucinogenic effects are thought to result from binding to the 5-HT2A serotonin receptor in particular. LSD also affects all subtypes of dopamine receptor and all subtypes of adrenoreceptor.
No. They have entirely different chemistry, structure, properties, effects.
They inhibit the expression of dopamine.
The effects are extremely variant, depending on the person involved. Everybody is different, therefore everybody will feel different effects.
antipsychotics
agonists Chemical substances that mimic or enhance the effects of a neurotransmitter on the receptor sites of the next cell, increasing or decreasing the activity of that cell. Drug that enhances the effects of a particular neurotransmitter.
antipsychotic drugs
To know what properties go with what effects the choices for both will need to e given. Not knowing what the properties or effects are will not allow someone to know the answer.
Alcohol is a depressant and it disinhibits people. So depending on the person, you may get a different reaction.
It has few or no side effects in humans. it kills different types of harmful bacteria. It doesn't kill good bacteria.
GHB has effects characteristic of both a depressant and a empathogenic stimulant. The drug acts on two distinct receptors in the brain: the GABAB receptor, and the GHB receptor. Its action on the GABAB receptor produces a powerful sedative, CNS inhibitory effect similar to alcohol or benzodiazepines. Through its action on the GHB receptor it exerts a excitatory effect on the brain leading to subjective effects of empathogenesis similar to MDMA. Its influence on this receptor is also responsible for the convulsions observed in GHB overdoses. GHB's effects are said to resemble a combination of alcohol and ecstasy.
the number of electrons
neutrons, electrons, and protons