Platinum—Amine Complexes

Table 3.21 7(l95Pt-l5N) values (Hz) for platinum(II) amine complexes... 

DNA polymerases, 5, 1007 Trans effect, 1,16, 26, 315 metal complexes, 2, 705, palladium(II) amine complexes, 5, 1115 platinum complexes, 5, 353, 493 six-coordinate compounds. 1, 49 T ransestcrification metal alkoxide synthesis, 2, 340 Transferases zinc, S, 1002... 

The generalized application of the aminolysis of halophosphanes has been the method of choice for the preparation of a wide variety of chiral phosphinous amides by starting from enantioenriched primary amines [36]. The aminolysis reaction occurs efficiently even when the halophosphane is placed in the coordination sphere of a metal, as in the palladium and platinum complexes of the type ds-M(Ph2PCl2)2Cl (M=Pd, Pt) [37,38]. 

Aldol reactions of isocyanides with aldehydes are catalyzed by cationic platinum complexes having P-C-P or N-C-N ligands in the presence of a catalytic amount of an amine base to give 2-oxazolines (Equation (126)) 48S>485a>485b Platinum-coordinated a-isocyano carbanions presumably serve as nucleophiles toward aldehydes. Low to moderate enantioselectivities were obtained by using chiral platinum complexes.485 4853... 

Chelate complexes of the type [PdX2(diene)] (X = Cl, Br) are readily formed by the dienes hexa-1,5-diene (124), bicyclo 2,2,lJhepta-2,5-diene (1, 7) tricyclo[4,2,2,0]-deca-triene and -diene derivatives (10), cyclo-octa-1,5-diene and dicyclopentadiene, but not dipentene (43). These may be converted to complexes of the types [Pd2X2(dieneOR)2] and [PdCl(dieneOR)-(amine)] (R = alkyl) (43), and their properties indicate that they have similar structures to the platinum complexes (XXXI) and (XXXIII). 

A wide range of multidentate amine ligands coordinate to platinum. The conformational analysis of chelate ring systems by NMR has been reviewed by Hawkins, and platinum complexes are included in this work.959 Amine ligands with sulfur groups can also act as chelates, and this subject has also been reviewed.960... 

The hydroxyalkyl- and aminoalkylpyridines are also almost totally unexplored. The oxidation of various hydroxyalkylpyridines was studied by voltammetry at a platinum anode.122 The ring substituents had no effect on the position of the discharge wave. Oxidation of the metal-complexed amine 147 to the imine 148 was quantitative.209... 

Such an example has been demonstrated by Johnson and Sames, who chose a platinum-mediated dehydrogenation as a key step in the synthesis of the antimitotic rhazinilam 33 (Scheme 6) [20], The key intermediate 27 was converted into the imine 28, which was allowed to react with Me Pt(//-SMe2)]2 to afford the platinum complex 29. Subsequent treatment with triflic acid resulted in elimination of methane and furnished the cationic complex 30. Upon thermolysis in trifluoroethanol, the complex lost a second methane molecule, which resulted in the activation of the ethyl group. A subsequent /1-hydride elimination gave the hydrido-Pt(n) complex 31. Treatment with aqueous KCN followed by hydrox-ylamine removed the platinum and yielded the liberated amine 32. Johnson and Sames added a homologization and a macrolactamization and completed the total synthesis of rhazinilam (33) by removal of the carboxyl group. 

In general terms, both steric effects and electronic factors are expected to play a role in determinating the reactivity of square-planar platinum complexes. The presence of planar amine ligands in cis- or /ran.y-Pt(anion )2 complexes and their orientation with respect to the coordination plane, as well as their substituents, can reduce the rates of DNA binding or thio binding compared to aliphatic ammine and amine complexes. Especially, substituents close to the coordination site should be expected to slow down axial substitution reactions at Pt. As there is now little doubt that DNA platina-tion is a key event (or THE key event) in the mechanism of action of platinum anticancer drugs, attention to the process of formation of the major adduct (GG) as an intrastrand cross-link between N(7) atoms of two adjacent guanine (G) residues, will remain important. 

The first enantioselective alkylation of l,3-diphenylprop-2-enyl ethylcarbonate 19 with sodio dimethyl malonate using a ruthenium-based catalyst has been reported [113]. As shown in Eq. 2, a planar-chiral cyclopentadienylruthenium complex 35 catalyses the addition in excellent yield and enantioselectivity. The complex also catalyzed the amination although in lower ee (74%). Other derivatives of the complex also gave excellent results. Interesting selectivity (90-95% ee) has been obtained with platinum complexes though the conversions are low (25-39%) [114,115]. 

R. G. Denning, and L. M. Venanzi, Platinum Complexes with Unsaturated Amines. Part... 

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