Boronic acids, alkyl

Boron trichloride. 13, 43 14, 54 15. 44 Activation of boronic acids. Alkyl ranes, as reactive intermediates. For eu azacycles (azetidines, pyrrolidines, pipen erocycle synthesis involves reaction of a I organoazide. 

Metal Alibis and Alkoxides. Metal alkyls (eg, aluminum boron, sine alkyls) are fairly active catalysts. Hyperconjugation with the electron-deficient metal atom, however, tends to decrease the electron deficiency. The effect is even stronger in alkoxides which are, therefore, fairly weak Lewis acids. The present discussion does not encompass catalyst systems of the Ziegler-Natta type (such as AIR. -H TiCl, although certain similarities with Friedel-Crafts systems are apparent. 

The iodination reaction can also be conducted with iodine monochloride in the presence of sodium acetate (240) or iodine in the presence of water or methanolic sodium acetate (241). Under these mild conditions functionalized alkenes can be transformed into the corresponding iodides. AppHcation of B-alkyl-9-BBN derivatives in the chlorination and dark bromination reactions allows better utilization of alkyl groups (235,242). An indirect stereoselective procedure for the conversion of alkynes into (H)-1-ha1o-1-alkenes is based on the mercuration reaction of boronic acids followed by in situ bromination or iodination of the intermediate mercuric salts (243). 

Moderate yields of acids and ketones can be obtained by paHadium-cataly2ed carbonylation of boronic acids and by carbonylation cross-coupling reactions (272,320,321). In an alternative procedure for the carbonylation reaction, potassium trialkylborohydride ia the presence of a catalytic amount of the free borane is utilized (322). FiaaHy, various tertiary alcohols including hindered and polycycHc stmctures become readily available by oxidation of the organoborane iatermediate produced after migration of three alkyl groups (312,313,323). 

The methylenebis(boronic acid) 122 may be deprotonated and alkylated at the central position and may thus behave as an acyl anion equivalent. Monoalkylation of 122 followed by hydrolysis gives aldehydes in good yield, and a second alkylation led to a ketone in one case (77JA3196). 

An alkyl- or alkenylboron compound, as a suitable organoboron component (a borane, boronic acid or ester) can be prepared through hydroboration of an... 

Palladium-mediated catalysis has only been exploited relatively recently in the synthesis of substituted PPV derivatives. The use of aryl dibromides as monomers is particularly useful as it allows the synthesis of PPVs substituted with alkyl rather than alkoxy sidechains. The Suzuki [53, 54], Heck [55], and Stille [56] reactions have been used in the synthesis of new PPV derivatives, but attaining high molecular weight PPV derivatives by these methodologies has proved problematic. A phenyl-subslilutcd PPV material PPPV 31 was synthesized by a Suzuki coupling (Scheme 1-10) of dibromoethene and fo/.v-boronic acid 30. Its absorption (2ni ix=385 nm) and emission (2max=475 nm) maxima were strongly... 

The Suzuki-Miyaura and Heck reactions were recently also reported under conventional heating conditions [39,40]. A variety of 3-chloro pyrazinones were reacted with commercially available (hetero)aryl boronic acids or the alkyl-9-BBN derivatives under either classical or slightly modified Suzuki conditions to generate the 3-substituted analogues, however having the drawback of longer reaction times of up to 12 h of reflux. 

The second synthetic route consists of the coupling of hexa(4-iodophenyl)ben-zene (34) with an alkylated oligophenylboronic acid to produce a hexa(oligo-phenyl)benzene by extending the aromatic chain [52]. This route is illustrated by the reaction of hexa(4-iodophenyl)benzene (34) with an alkylated terphenyl boronic acid with formation of the hexa(quaterphenyl)benzene derivative 33. Once again, the aliphatic substituents serve to guarantee sufficient solubility. 

Our third approach to 27 addressed the unavailability of 3-methoxy-2-cyclopentenone (31) in bulk quantities which necessitated the discovery of an alternative route (Scheme 7.7). Fortunately, the precursor to 31,1,3-cyclopentandione (35), was available in the required quantities and our efforts shifted to the use of this reagent Bromination of 35 with NBS, employing either KHC03 or KOH as the base, gave brominated dione 36 in 85% isolated yield. Unfortunately, direct cross-coupling of alkyl bromide 36 with boronic acid 12 under a variety of Suzuki-... 

A group of peptide derivatives such as peptide arginals and boronic acid peptide derivatives belong to another class of reversible thrombin inhibitors. One such inhibitor is PPACK (D-Phe-Pro-Arg chloromethyl ketone), which functions as a powerful irreversible thrombin inhibitor by alkylating the histidine residue at the catalytic site of thrombin (58). It, however, is unstable in neutral solution, as it undergoes cyclization and inactivation. However, the D-methyl derivative of D-Phe-Pro-Arg-H (D-Mephe-Pro-Arg-H) called efegatran, with a molecular mass of 515 Da, is a stable selective reversible inhibitor of thrombin with a K. of approximately 100 nM. The basic amino terminus in this compound is responsible for promoting the specificity toward thrombin (63). 

Transmetallation of aiyl halide (VIII) with n-butyl lithium and treating it with readily available and inexpensive 3-ethoxycyclohexen-l-one followed by acid work-up would provide enone (XI) (Scheme 8). Enone (XI) can be then aromatized to phenol (X) or any other biaryl alkyl ether. By using this protocol, 3-ethoxycyclohexen-l-one is a synthon for 3-hydroxyphenyl boronic acid. The bulk price of 3-ethoxycyclohexen-l-one is 85/kg compared to 3500 for the boronic acid, thereby significantly reducing the cost to prepare biaryl (X). 

The same ligand allowed the cross-coupling of various boronic acids (aryl, alkenyl, alkyl) with alkyl bromides in the system (Pd(OAc)2/PMe Bu2, BuOK. amyl alcohol, r.t.).411... 

In this method, Furstner converts N-BOC protected pyrrole to the 2,5-dibromo compound (122) with NBS and this is followed by metalation and carbomethoxylation with t-butyl lithium in THF and subsequent trapping of the metalated species with methyl chloroformate to yield a pyrrole diester (123). Bromination of this diester at positions 3 and 4 with bromine in water followed by Suzuki cross-coupling with 3,4,5-trimethoxyphenyl boronic acid yields the symmetrical tetrasubstituted pyrrole (125). Base-mediated N-alkylation of this pyrrole with 4-methoxyphenethyl bromide produces the key Boger diester (126) and thereby constitutes a relay synthesis of permethyl storniamide A (120). 

Fuostifoline (47), a furo[3,2-a]carbazole, was isolated from Murraya euchrestifolia. Timdri s total synthesis of 47 commenced with alkylation of bromocresol 43 with bromoacetaldehyde diethyl acetal and P4Oio-promoted cyclization to furnish 5-bromo-7-methylbenzofuran (44) [47]. The Suzuki coupling of boronic acid 45, derived from 44, with o-bromonitrobenzene yielded biaryl 46. Nitrene generation, achieved via deoxygenation of nitro compound 46 using triethyl phosphite, was followed by cyclization to fuostifoline (47). 

Some of the reactions (e.g., that of dimethylaluminum chloride in Table 2) involve redistribution of alkyl and halide groups between the metals. The boronic acids, ArB(OH>2, prepared by Sn/B transmetallation, have been used in Suzuki coupling reactions. It is remarkable that the bistributyltin derivative of 1,1 -binaphthyl undergoes... 

The transformation of lithio derivatives of dibenzothiophene into alkyl, alkenyl, hydroxyalkyl, formyl, acetyl, carboxylic acid, alkyl and arylsilyl, boronic acid, aryl and carbinol derivatives of dibenzothiophene is dealt with in the appropriate sections. In addition, the four mono-tritio derivatives of dibenzothiophene have been prepared from the corresponding lithio derivatives via hydrolysis with tritiated water (Section III, 0,2). ... 

Tautens has extended this chemistry to include the alkylative ring opening of these systems using aryl and vinyl boronic acids as nucleophiles in the presence... 

These gels are based on immobilised alkyl boronic acids. They have a selective affinity for 1,2- or 1,3-diol groupings such as those found in catechol-containing molecules such as dopamine and in sugars or glycosides. 

The Suzuld-Miyaura cross-coupling reaction of 9-benzyl-6-chloropurine with boronic acids gives 6-alkylated purines in moderate to excellent yields. The reaction has been successfully... 

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