Amines propargylic compounds

An alternative method of modifying proteins to contain alkynyl groups is to use the propargyl-PEGj-NHS ester compound described in Chapter 18, Section 2. This reagent will react spontaneously with available amine groups in proteins to form an amide bond without the need to use EDC, as in the following protocol. 

A number of alkyl-substituted propargylic amines have been isomerized in that way [186, 191, 248-251], occasionally also providing alkynylamines as side-products. Compound 106 shows a recent example of a selective isomerization [252] (Scheme 1.46). 

The acidity of the propargylic proton of the starting compound 18 allows the equilibration with the allene 19 induced by bases such as tertiary amines or alcoholates (Scheme 7.4). Such prototropic rearrangements furnish the title compounds 19 with at least one proton at the terminal carbon atom, often in good yields. The EWG group involves carboxylic acids [33], esters [34], ketones [35, 36], isonitriles [37], sul-fones [38], sulfoxides [39, 40] and phosphonates [41], The oxidation of easily accessi-... 

Scheme 2.15 Coupling of an allenylidene ligand with a propargylic amine or a diazo-compound.

Nevertheless, chiral propargylic amines remain interesting substrates for achieving the diastereoselective addition of substituted allylic organozinc compounds to metallated alkynes. Besides crotylzincation, one example of diastereoselective addition of zincated allyl ethyl ether to 328 has also been reported183. 

The most conspicuous property of aliphatic amines, apart from their fishy smell, is their high basicity, which usually precludes N-alkylations under acidic reaction conditions (last reaction, Scheme 6.3). Hence, alkylation of amines with tertiary alkyl groups is not usually possible without the use of highly stabilized carbocations which can be formed under basic reaction conditions. Rare exceptions are N-alkyla-tions of amines via radicals (Scheme 4.2), copper-catalyzed propargylations (Scheme 6.3), and the addition of amines to some Michael acceptors and allyl palladium or iridium complexes. Better strategies for the preparation of tert-alkylamines include the addition of Grignard reagents to ketone-derived imines [13] or the reduction of tert-alkyl nitro compounds. 

The reaction of primary or secondary alcohols with thionyl chloride is a general method for preparing the corresponding chloro compounds. In the first step a chlorosulfne ROSOC) is formed from which S02 is eliminated in a relatively slow step. This decomposition is facilitated by a tertiary amine, e.g. pyridine. The ammonium salt RO-SON+.Cl— formed from the chlorosulftte is subsequently attacked on carbon (in R) by CF. Since nucleophilic substitutions on propargylic carbon proceed more easily than on carbon in saturated compounds, it may be expected that the conversion of propargylic chlorosulfites into the chlorides will take place under relatively mild conditions. 

A ruthenium-catalyzed three-component reaction between propargylic alcohols, 1,3-dicarbonyl compounds, and primary amines leading to fully substituted pyrroles was developed <07CEJ9973>. Cyclohexa[a]pyrroles ( azabicyclo[4.3.0] systems ) were formed by a three-component sequence involving allenic ketones, primary amines, and acryloyl chloride <07SL431>. An oxidative dimerization sequence involving arylpyruvates in the presence of ammonia was the key step in an approach to the pyrrole natural product, lukianol A <07S608>. 

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