Well, phosphindoles are a known family of compounds, and they are stable without the ridiculous stabilizing structures required for things like silabenzenes and borabenzenes. Phosphorus does indeed share some characteristics with nitrogen, and is in the same column on the periodic table. I think you would have much more luck with a phosphindole DMT analogue than a silabenzene DMT analogue (yes, I know I drew some of the homobenzenes a few pages back, but that was more for fun than anything), especially since from my understanding, you would require something like this to stabilize it
[1]:
Now, I'm not going to say that I know 100% that something that looks like that will not be active, but I can say that my level of surety vis-a-vis the inactivity of the aforementioned compound is about as close to certain as anyone could be without actually tasting it. I doubt it would cross the BBB, and if it did, it would almost certainly be too sterically hindered to bind to 5-HT
2A.
The phosphindole, on the other hand, I believe to have much more promise. Considering a similar compound, known as dimemebfe
[2], using oxygen instead of phosphorus in place of the pyrrole nitrogen, has been synthesized, and sampled to positive result
[3]. Similarly, the benzothiophene analogue of various tryptamines has also been synthesized and tasted, to some positive reviews, although I cannot seem to find references to this at the moment, but I will post them once I remember where they are.
All that being said, it seems that the tryptamines are somewhat tolerant to substitution of the nitrogen while retaining affinity for and efficacy at the 5-HT
2A receptor. Therefor, it would seem logical to me that the phosphindole analogues of at least a few well-known tryptamines should at least be considered as candidates for novel psychedelic compounds.
