Amines organolithium reagents

Addition of Grignard and organolithium reagents to imines 2. derived from enantiomerically pure (S)-valinol (1), provides a-substituted phenethylamines 3 in moderate to good yield and excellent diastereoselectivity (in each case only one diastereomer can be detected by NMR)15. By appropriate selection of imine and organometallic reagent both diastereomeric amines are accessible (see also refs 16 and 17). 

Table 5. Addition of Organolithium Reagents R2Li to Oxime Ethers 4 and Reduction of the Resulting Alkoxyamines 5 to Amines 6"...

Nucleophilic reagents such as secondary amines, alcohols or organolithium reagents convert NSF3 into monosubstituted derivatives NSF2R (R=R 2N, R O, Ar) with retention of the N = S bond.162... 

Dimethylpyrimido[4,5-f]pyridazine-5,7-dione 23 and its derivatives undergo attack at both C-3 and C-4. Under conditions of kinetic control, addition occurs preferentially at the more electron-deficient C, whereas thermodynamic control conditions, or the use of bulkier nucleophiles, favor addition at the less hindered position 3. This duality is illustrated by the addition of Grignard and organolithium reagents to C of 3-chloro analogue 24 (Equation 9), whereas stabilized nucleophiles such as the anion of nitromethane add at C-3 (Scheme 10) <2000CHE975>. Displacement of the 3-chloride occurs also upon treatment of 24 with amines (Equation 10) <2000CHE1213>. 

Although substrate-induced diastereoselection can be conveniently achieved when the alkenylmetal was coordinated by an oxygen atom, other heteroatoms such as sulfur and nitrogen resulted in high inductions as illustrated by the crotylzincation of the organolithium reagents derived from the allylic sulfide 238 or the tertiary amine 239 (equation 117)154. 

We have found that the primary amine moiety can be protected from organolithium reagents and polymers by use of the N,N-bis(trimethylsilyl)amine, -N(TMS)p, protecting group. In turn, the N(TMS)2 substituted4 polymers can be converted to primary amine polymers by simple hydrolysis (Eqs. 12-14 (14.52). 

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