Carboxylic acid-functionalized tris

Eunctionalized organolithium compounds, having a protected carboxylic acid functionality, can also be considered as masked lithium tris-homoenolates and were prepared by DTBB-catalyzed (5%) Uthiation of the corresponding )-chlorinated materials. Eor instance, compound 227 in THE at —78°C leads to the expected organoUthium intermediate 228, which reacts with a series of electrophiles present in the reaction medium... 

The principal polyphosphazenes that have been used in hydrogels are those with linear or branched ethyleneoxy side chains, aryloxy groups with carboxylic acid substituents, or mixed-substituent polymers that bear hydrophilic methylamino side groups plus a hydrophobic cosubstituent such as phenoxy or trifluoroethoxy. Cross-linking is usually accomplished by gamma-ray irradiation or, in the case of the carboxylic acid functional species, by treatment with a di- or tri-valent cation. Here, we will consider another example based on MEEP (3.79), a polymer that is well suited to the clean method of radiation cross-linking. 

The synthesis of the oxazole compound 45 starts with the coupling of the N-protected (/ )-methylcysteine compound 18 with threonine terf-butyl ester using bis(2-oxo-3-oxazolidi-nyl)phosphinyl chloride (BOP-Cl) [15] as a coupling reagent. Jones oxidation of the threonine hydroxy group leads to the ketoamide 44. The desired oxazole ring is closed by treatment with thionylchloride/pyridine. After deprotection, the oxazole, compound 45 is obtained. In the next step the oxazole compound 45 is coupled with the tris(thiazoline) compound 43 to yield the thioester 46. Now Fukuyama closes the fourth and last thiazoline ring (46 47). After conversion of the carboxylic acid function into a methyl-... 

Pivaloyloxymethyl (Pom) esters are useful as prodrugs of penicillin and other 0-lactam antibiotics owing to their easy hydrolysis in vivo by ubiquitous non-specific esterases. Mascaretti and co-workers showed that Pom esters can also by cleaved under mild conditions with 2 equivalents of bis(tri-/i-butyltin)oxide as shown in Scheme 6.32. The intermediate tributylstannyl esters are readily hydrolysed on treatment with water to release the carboxylic acid. Functional groups such as aldehydes, thioacetals, amides, vinyl bromides, and nitro compounds are compatible.22... 

Protection and Deprotection.— The carboxylic acid function can be protected by formation of the derivatives (50) using commercially available 1,1,1-tris(hydroxymethyl)ethane. Such compounds are best formed from a nitrile... 

The ruthenium carbene catalysts 1 developed by Grubbs are distinguished by an exceptional tolerance towards polar functional groups [3]. Although generalizations are difficult and further experimental data are necessary in order to obtain a fully comprehensive picture, some trends may be deduced from the literature reports. Thus, many examples indicate that ethers, silyl ethers, acetals, esters, amides, carbamates, sulfonamides, silanes and various heterocyclic entities do not disturb. Moreover, ketones and even aldehyde functions are compatible, in contrast to reactions catalyzed by the molybdenum alkylidene complex 24 which is known to react with these groups under certain conditions [26]. Even unprotected alcohols and free carboxylic acids seem to be tolerated by 1. It should also be emphasized that the sensitivity of 1 toward the substitution pattern of alkenes outlined above usually leaves pre-existing di-, tri- and tetrasubstituted double bonds in the substrates unaffected. A nice example that illustrates many of these features is the clean dimerization of FK-506 45 to compound 46 reported by Schreiber et al. (Scheme 12) [27]. 

Amine-terminated, full-generation PAMAM and PPI dendrimers, as well as carboxylate-terminated half-generation PAMAM dendrimers, can directly bind metal ions to their surfaces via coordination to the amine or acid functionality. A partial hst of metal ions that have been bound to these dendrimers in this way includes Na+, K+, Cs+, Rb+, Fe +, Fe +, Gd +, Cu+, Cu +, Ag+, Mn +, Pd, Zn, Co, Rh+,Ru +,andPt + [18,19,27,36,54,82-96]. Tuxro et al.have also shown that the metal ion complexes, such as tris(2,2 -bipyridine)ruthenium (Rulbpylj), can be attached to PAMAM dendrimer surfaces by electrostatic attraction [97]. A wide variety of other famihes of dendrimers have also been prepared that bind metal ions to their periphery. These have recently been reviewed [3]. Such surface-bound metal ions can be used to probe dendrimer structure using optical spectroscopy, mass spectrometry, and electron paramagnetic resonance (EPR) [86-88,90,97-99]. 

Eaton and co-workers also reported the synthesis of 1,3,5-trinitrocubane and 1,3,5,7-tetranitrocubane (39) ° The required tri- and tetra-substituted cubane precursors were initially prepared via stepwise substitution of the cubane core using amide functionality to permit ort/jo-lithiation of adjacent positions. The synthesis of precursors like cubane-1,3,5,7-tetracarboxylic acid was long and inefficient by this method and required the synthesis of toxic organomercury intermediates. Bashir-Hashemi reported an ingenious route to cubane-1,3,5,7-tetracarboxylic acid chloride (35) involving photochemical chlorocarbonylation of cubane carboxylic acid chloride (34) with a mercury lamp and excess oxalyl chloride. Under optimum conditions this reaction is reported to give a 70 8 22 isomeric mixture of 35 36 37... 

Tris(diethyl)amino]phosphoniuni 2,2,3,3,4,4-hexafluorocyclobutane ylide (2) is a very hydroscopic solid, which is stable for long periods of time when stored under anhydrous conditions.13 It is unreactive towards most functional groups such as C = C bonds, ketones, aldehydes, and esters but reacts smoothly under neutral conditions with alcohols or carboxylic acids with replacement of the hydroxy group by a fluorine atom.44,45 Other tris(dialkylammo-nium)phosphonium perfluorocyclobutanes have been synthesized however, they are less reactive fluorinating reagents.44,45... 

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