For the past year we have been starting peptidomimetic chemistry up as a new research area in our group. Many chemists believe that peptide chemistry is easy and that peptide chemists aren't "real chemists". However, let me tell you from personal experience that there is absolutely nothing trivial about peptide chemistry. Even short sequences with normal alpha amino acids can be a nightmare to make, troubleshooting is complicated, purification can be a major pain and yields that a small molecule chemist would consider a total fail is generally acceptable in this area of research. Some years ago I was working with a Post Doc that came from Dieter Seebach's lab at ETH. He introduced me to beta amino acids and ever since I have been fascinated by the use of these building blocks in peptidomimetic research. Inspired by the work of Samuel Gellman we are focusing on the use of beta-3 amino acids in combination with alpha amino acids. Consequently, we synthesise beta-3 amino acids to incorporate these in our peptides.
The last step, the Wolff rearrangement, is carried out by sonicating the diazoketone in the presence of a silver catalyst (in the dark). Because nitrogen is evolved during the course of the reaction we normally have an empty balloon fitted on the flask to avoid pressure build up. I rather like the feature that the balloon slowly gets inflated during the course of the reaction as shown in the picture below.
Silver catalysed Wolff rearragement in a sonicator. Left t = 0 hr; Right t = 2 hr. |
Notice that diazomethane is always handled in solution. The neat stuff is known to explode unpredictably so don't even think about doing that. Because of the way that diazomethane is produced it is hard to add an exact number of equivalents to a reaction. For the synthesis of diazoketones we simply go for an excess of diazomethane (approximately 2-3 equivalents based on a 70% yield of diazomethane). We commonly distill the diazomethan directly into the reaction flask to minimise handling. For the synthesis of beta-3 amino acids the alpha amino acid is first transformed into a mixed anhydride which is exposed directly to an excess of diazomethane.
Diazoinsane clear seal distillation kit purchased from Sigma-Aldrich. |
If you think that playing around with beta-3 amino acids could be fun I can recommend the company Anand Chem based in Slovakia. They produce almost all beta-3 amino acids with the proteinogenic side chains of excellent quality at a highly competitive price. Depending on what they have in stock you may have to wait a couple of weeks for the stuff but it is worth the wait considering the quality and the price. D!
Awesome.
ReplyDeleteI've always thought using aspartate to make β3-peptide analogues was rather clever, as that sidesteps the need for diazomethane.
(ex. http://www.sciencedirect.com/science/article/pii/S1570963908000113)
Having done a few esterifications with diazomethane, I have to say I just love this reagent! You titrate your acid until the solution stays yellow (does not work if you have colored substance or impurities) and destroy the excess with AcOH.
ReplyDeleteThere are procedures that do not require destillation, I used N-methyl-N-nitroso urea (add to ice cold aqueous KOH stirred with ether, the diazomethane goes into the ether and you simply remove the ether layer with a pipette).
ChristianPFC
@ChristianPFC, Cool that your are using diazomethane but your really should not pipette the solution. The edge of a pipette is enough to make it go off. It's only a question of time before it happens. Instead you should use a clear seal joint sep. funnel. Remove the aqueous layer and then add the ether solution directly from the sep. funnel, please! I know of pasteur pipette induced diazomethan explosions so it is a real risk and not a theoretical one. Moreover, for the synthesis of methylesters you could consider using commercially available TMS-diazomethane that works really well for this transformation. D!
ReplyDeleteHello,
ReplyDeleteDo you have experience in using TMSCHN2 (conditions?) for diazoketone synthesis from the chloroformate activated carboxylic acids? I would love to plan an Arndt-Eistert homologation, and would like to use TMSCHN2 if possible. (just to be sure on the safety part :-) )
Some years ago I have used TMSCHN2 to make diazoketones from acid chlorides (works well!), but the current molecules won't allow such activation...
Thanks,
Jurgen C
@Jurgen, Dammit for some reason Blogger stopped notifying me of comments so I'm only seeing your question now. We have very poor experience with TMS-diazomethane. Generally, we find that if it works it is very messy. The only smooth reaction with this stuff we had was in making methylesters. So we gave up on the stuff years ago and just use diazomethane instead. D!
ReplyDelete