Substituted tryptamines: Difference between revisions

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[[File:Substituted_tryptamine.svg|thumb|right|299px|Substitutive structure of a ''tryptamine'' molecule]]

'''Substituted tryptamines''' (also referred to as '''tryptamines''') are a group of organic compounds that are based upon the [[tryptamine]] structure. The class is composed of all the derivative compounds which can be formed by substituting one or more hydrogen atoms in the tryptamine core structure with other substituents.

Natural tryptamines ~~were~~ found in most plants and animals, ~~they originate~~ from the decarboxylation of tryptophan.<ref>{{cite web|title=Tryptamines|url=https://www.sciencedirect.com/topics/neuroscience/tryptamines|archive-url=https://web.archive.org/web/20200110234704/https://www.sciencedirect.com/topics/neuroscience/tryptamines|access-date=January 11, 2020|archive-date=January 11, 2020|publisher=ScienceDirect}}</ref>

Natural tryptamines are found in most plants and animals, forming from the decarboxylation of the amino acid tryptophan.<ref>{{cite web|title=Tryptamines|url=https://www.sciencedirect.com/topics/neuroscience/tryptamines|archive-url=https://web.archive.org/web/20200110234704/https://www.sciencedirect.com/topics/neuroscience/tryptamines|access-date=January 11, 2020|archive-date=January 11, 2020|publisher=ScienceDirect}}</ref>

The chemical class ~~inculdes hormons~~ like [[melatonin]] and [[neurotransmitter~~|neurotransmitters~~]] ~~like~~ [[serotonin]]. ~~Pharmacologically, many~~ substituted tryptamines ~~are known for being able to produce~~ [[~~psychedelic~~]] ~~and~~ [[~~entheogen|entheogenic~~]] ~~effects. Prominent examples include~~ [[~~DMT~~]], [[~~psilocybin~~]], ~~and~~ [[~~ibogaine~~]].

The chemical class encompasses a variety of biologically important compounds such as hormones like [[melatonin]] and the [[neurotransmitter]] [[serotonin]] (5-hydroxytryptamine).

Most of the known substituted tryptamines act as psychedelics (e.g. [[psilocybin]], [[DMT]], [[ibogaine]]), although there are some that have [[entactogenic]] properties (e.g. [[aMT]], [[5-MeO-MiPT]]).

An investigation of dozens of psychoactive tryptamine compounds was published by Ann and [[Alexander Shulgin]] under the name [[TiHKAL]] in 1997.

In terms of [[subjective effects]], substituted tryptamines are generally regarded as producing a significantly stronger and "deeper" psychedelic effect than the other major class of psychedelics, the substituted phenethylamines (e.g. [[mescaline]] or the [[2C-x family]]). The subcategory of [[hallucinogens]] known as [[entheogens]] predominantly consist of substituted tryptamines such as [[DMT]] (including [[ayahuasca]]), [[5-MeO-DMT]] and [[psilocybin]].

An investigation of dozens of psychoactive tryptamine compounds was published by Ann and [[Alexander Shulgin]] under the name [[TiHKAL]] ("Tryptamines I Have Known and Loved") in 1997.

==Chemistry==

The structure of any substituted tryptamine is comprised of an indole ring with attached amino group via a two-carbon sidechain ([[monoamine]] chain) at R3. Ring unsubstituted tryptamines or so called "base ~~tryptamins~~" can have various substitutions at the nitrogen (RN1 and RN2) and at Rα. Ring substituted tryptamines can furthermore be substituted at the R4 and R5 positions at the indole ring.

The structure of any substituted tryptamine is comprised of an indole ring with attached amino group via a two-carbon sidechain ([[monoamine]] chain) at R3. Ring unsubstituted tryptamines or so called "base tryptamines" can have various substitutions at the nitrogen (RN1 and RN2) and at Rα. Ring substituted tryptamines can furthermore be substituted at the R4 and R5 positions at the indole ring.

==List of substituted tryptamines==

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 [[File:Substituted_tryptamine.svg|thumb|right|299px|Substitutive structure of a ''tryptamine'' molecule]]
 '''Substituted tryptamines''' (also referred to as '''tryptamines''') are a group of organic compounds that are based upon the [[tryptamine]] structure. The class is composed of all the derivative compounds which can be formed by substituting one or more hydrogen atoms in the tryptamine core structure with other substituents.
-Natural tryptamines were found in most plants and animals, they originate from the decarboxylation of tryptophan.<ref>{{cite web|title=Tryptamines|url=https://www.sciencedirect.com/topics/neuroscience/tryptamines|archive-url=https://web.archive.org/web/20200110234704/https://www.sciencedirect.com/topics/neuroscience/tryptamines|access-date=January 11, 2020|archive-date=January 11, 2020|publisher=ScienceDirect}}</ref>
+Natural tryptamines are found in most plants and animals, forming from the decarboxylation of the amino acid tryptophan.<ref>{{cite web|title=Tryptamines|url=https://www.sciencedirect.com/topics/neuroscience/tryptamines|archive-url=https://web.archive.org/web/20200110234704/https://www.sciencedirect.com/topics/neuroscience/tryptamines|access-date=January 11, 2020|archive-date=January 11, 2020|publisher=ScienceDirect}}</ref>
-The chemical class inculdes hormons like [[melatonin]] and [[neurotransmitter|neurotransmitters]] like [[serotonin]]. Pharmacologically, many substituted tryptamines are known for being able to produce [[psychedelic]] and [[entheogen|entheogenic]] effects. Prominent examples include [[DMT]], [[psilocybin]], and [[ibogaine]].
+The chemical class encompasses a variety of biologically important compounds such as hormones like [[melatonin]] and the [[neurotransmitter]] [[serotonin]] (5-hydroxytryptamine).
+Most of the known substituted tryptamines act as psychedelics (e.g. [[psilocybin]], [[DMT]], [[ibogaine]]), although there are some that have [[entactogenic]] properties (e.g. [[aMT]], [[5-MeO-MiPT]]).
-An investigation of dozens of psychoactive tryptamine compounds was published by Ann and [[Alexander Shulgin]] under the name [[TiHKAL]] in 1997.
+In terms of [[subjective effects]], substituted tryptamines are generally regarded as producing a significantly stronger and "deeper" psychedelic effect than the other major class of psychedelics, the substituted phenethylamines (e.g. [[mescaline]] or the [[2C-x family]]). The subcategory of [[hallucinogens]] known as [[entheogens]] predominantly consist of substituted tryptamines such as [[DMT]] (including [[ayahuasca]]), [[5-MeO-DMT]] and [[psilocybin]].
+An investigation of dozens of psychoactive tryptamine compounds was published by Ann and [[Alexander Shulgin]] under the name [[TiHKAL]] ("Tryptamines I Have Known and Loved") in 1997.
 ==Chemistry==
-The structure of any substituted tryptamine is comprised of an indole ring with attached amino group via a two-carbon sidechain ([[monoamine]] chain) at R<sub>3</sub>. Ring unsubstituted tryptamines or so called "base tryptamins" can have various substitutions at the nitrogen (R<sub>N1</sub> and R<sub>N2</sub>) and at R<sub>α</sub>. Ring substituted tryptamines can furthermore be substituted at the R<sub>4</sub> and R<sub>5</sub> positions at the indole ring.
+The structure of any substituted tryptamine is comprised of an indole ring with attached amino group via a two-carbon sidechain ([[monoamine]] chain) at R<sub>3</sub>. Ring unsubstituted tryptamines or so called "base tryptamines" can have various substitutions at the nitrogen (R<sub>N1</sub> and R<sub>N2</sub>) and at R<sub>α</sub>. Ring substituted tryptamines can furthermore be substituted at the R<sub>4</sub> and R<sub>5</sub> positions at the indole ring.
 ==List of substituted tryptamines==