This manuscript focuses on the routes, methods and reagents used to synthesize triazinebased dendrimers. Our pursuit of macromolecular architectures for drug deliverydendrimers based on triazines-has been an ongoing effort for 8 years. To date, we have produced complex dendrimers with diverse peripheries as proof-of-concept, less complex molecules tailored for specific applications including DNA and RNA delivery and drugdecorated dendrimers for potential therapeutic applications including infectious disease and cancer. These syntheses have been executed at scales that range from high milligrams to over a kilogram. The routes, reagents and diversity displayed by a target anchors it in time. Early targets derive from convergent synthetic routes while later targets are prepared using divergent syntheses. The core of early dendrimers was a simple diamine, including piperazine, yielding the so-called bow-tie structures, middle period targets boast either a trispiperazinyltriazine core or a 'super-core' with six piperazine groups. Later targets return to the trispiperazinyltriazine core. The choice of linking diamine has also changed. Over time, p-aminobenzylamine was replaced by piperazine and then by aminomethylpiperidine with more exotic diamines sprinkled in throughout. Peripheral group choice has undergone similar variations: from AB 2 to AB 4 to, more recently, AB 3 . The diversity communicated by these groups yields dendrimers ranging from those with a common surface to examples where two groups were presented to those where four orthogonally reactive groups appear. Over time, these groups have grown in complexity from protected amines to tags for biodistribution and drugs like paclitaxel. Herein, strategies adopted and lessons learned are reviewed, intuitions relayed and future directions forecast.
The structures of the trinuclear gold(I), [Au(3)(2,6-Me(2)-form)(2)-(THT)Cl], the dinuclear [Au(2)(2,6-Me(2)-form)(2)], and the oxidative-addition product [Au(2)(2,6-Me(2)-form)(2)Cl(2)] formamidinate complexes are reported. The trinuclear complex is stable with gold-gold distances 3.01 and 3.55 A. The gold-gold distance in the dinuclear complex decreases upon oxidative-addition with halogens from 2.7 to 2.5 A, similar to observations made with the dithiolates and ylides.
The structures of the tetranuclear silver(I), [Ag4(hpp)4], and the dinuclear gold(II), [Au2(hpp)2Cl2], (hpp = 1,3,4,6,7,8-hexahydro-pyrimido[1,2-a]pyrimidinate) guanidinate-like bases are reported and show a silver-silver distance of 2.8614(6) A and a gold-gold distance of 2.4752(9) A, the shortest Au-Au bond heretofore reported.
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