<i>B</i>-Allyl-10-Ph-9-borabicyclo[3.3.2]decanes:  Strategically Designed for the Asymmetric Allylboration of Ketones

Canales, Eda; Prasad, K. Ganeshwar; Soderquist, John A.

doi:10.1021/ja053865r

Cited by 104 publications

(66 citation statements)

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“…However, similar 10-Ph derivatives react rapidly with ketones to obtain the homoallylalcohols in very good yields and outstanding enantioselection (Table 38, entries 5−8). 98 Particulary noteworthy is the excellent enantioselectivity obtained in the addition to ketones with groups of similar steric demand (Table 38, entry 8). As occurs for aldehydes, quenching the reaction with pseudoephedrine allows the recovery of the chiral reagent.…”

Section: Chiral Nucleophiles With Stereogenic Centers In Nontransferrmentioning

confidence: 99%

Diastereoselective Allylation of Carbonyl Compounds and Imines: Application to the Synthesis of Natural Products

2013

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2.2. Chiral Imines and Imine Derivatives 2.2.1. Imines and Imine Derivatives from Chiral Carbonyl Compounds. Chiral α-oxysubstituted aldehydes were used by Kobayashi and co-workers in a three-component reaction with allylboropinacolate and ammonia in ethanol. The corresponding homoallylic primary amines were obtained with good to high syn diastereofacial selectivities (Scheme 5). 20 The precise reaction mechanism was unclear. Preformation of N-Scheme 3 Scheme 4 Scheme 5 Chemical Reviews Review dx.

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Section: Chiral Nucleophiles With Stereogenic Centers In Nontransferrmentioning

confidence: 99%

Diastereoselective Allylation of Carbonyl Compounds and Imines: Application to the Synthesis of Natural Products

2013

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“…To a solution of (+)-4′Sb 6 (1.17 g, 3.0 mmol) in hexane (12 mL), freshly prepared methallylmagnesium chloride (9.0 mL of 0.66 M in THF) was added dropwise. The solution was allowed to stir for 2 h. The reaction mixture was cooled to −78 °C and quenched with 1.0 equiv of TMSCl.…”

Section: (+)-B-methallyl-(10s)-phenyl-9-borabicyclo[332]decane (1sb)mentioning

confidence: 99%

Asymmetric Synthesis of 2°- and 3°-Carbinols via B-Methallyl-10-(TMS and Ph)-9-borabicyclo[3.3.2]decanes

Román

Soderquist

2007

J. Org. Chem.

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Simple Grignard procedures provide methallylboranes 1a and 1b in enantiomerically pure form from air-stable precursors in 98% and 95% yields, respectively. These reagents add smoothly to aldehydes and methyl ketones, respectively, providing branched 2°-(6, 69-89%, 94-99% ee) and 3°-(10, 71-87%, 74-96% ee) homoallylic alcohols.The asymmetric allylboration of aldehydes remains as one of the most powerful processes for the preparation of nonracemic 2°-homoallylic alcohols. 1 In 1978, R. W. Hoffmann 1a,c reported the first enantioselective synthesis of branched 2°-homoallylic alcohols employing a methallyl derivative of his camphor-derived boronic esters. Unfortunately, low enantioselectivity is generally observed with these reagents (40-76% ee). Brown's diisopinocampheylborane reagents proved to be more selective (90-96% ee), but the preparation of these reagents from high-purity air-sensitive organoborane precursors through organolithium procedures presents operational difficulties. 1d,o Moreover, these reagents are ineffective for the allylation of ketones. 1e A variety of alternative processes are now available for these types of "allylation" processes, 2 but for ketone substrates, the only successful methallylation was recently reported employing tetrakis-(methallyl)tin and a (R)-H 8 -BINOL/ Ti catalyst. 3 This method uses six (6) equiv of the toxic methallyltin moiety, a large catalyst loading (30 mol %) and exhibits modest to good enantioselectivity (46-90% ee). Since asymmetric methallylation is an important synthetic process, 4 we felt that a better, more selective and user-friendly process would represent an important advance. We envisaged that the methallylation of both aldehydes and ketones could be markedly improved through the use of the 10-substituted-9-borabicyclo[3.3.2]decanes which are easy to handle, effectively recovered and recycled, and are available in both enantiomeric forms.Recently, we reported the synthesis of the B-allyl-10-TMS-and -10-Ph-BBD systems (2) and their highly selective additions to aldehydes 5 and ketones, 6 respectively. The corresponding B-methallyl reagents 1 were envisaged as very attractive alternatives for the methallylboration of either aldehydes or ketones, depending upon the choice of the 10-substituent employed.I This work is dedicated to Professor Alfred Hassner on the occasion of his 77 th birthday.jas@janice.uprr.pr. The air-stable crystalline pseudoephedrine (PE) complexes 4a serve as efficient precursors to 2a (98%) through simple Grignard procedures. 5 However, the analogous process with 4a and methallylmagnesium chloride (0.5 M in THF) proved to be both sluggish and inefficient. Fortunately, the more reactive B-OMe derivatives 3a, which are readily prepared from 2a (87%), 5a provide an efficient entry to 1a through this Grignard method (98%) (Scheme 1). NIH Public AccessReagents 1a react smoothly with aldehydes to yield pure 3-methyl homoallylic alcohols 6 efficiently (69-89%) with excellent selectivities (94-99% ee) (Scheme 2, Table 1). The product ee...

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“…[11] The basic scaffold of these reagents was prepared in enantiopure form by ring expansion of Bmethoxy-9-BBN (1) and resolution of 2 to 3, followed by reduction to give the borohydride derivatives 4 (Scheme 2). Hydroboration reactions were subsequently carried out in the presence of one equivalent of Me 3 SiCl to generate the reactive boranes 5 in situ (Scheme 2).…”

mentioning

confidence: 99%

“…The nature of the 10-substituent also influences the conformation of the bicycle which subtly influences selectivity in both the hydroboration and allyl/ crotylboration reactions. [11] The intermediate trialkylboranes 11 have also been used as coupling partners in Suzuki-Miyaura reactions with aryl-, heteroaryl-, and vinylbromides thereby extending the utility of the current process (Scheme 4). Compounds 12, where R 1 and R 2 = aryl/heteroaryl represent important pharmacophores in medicinal chemistry which are not easy to prepare in an enantioenriched form.…”

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confidence: 99%

Asymmetric Hydroboration of 1,1‐Disubstituted Alkenes

Thomas

Aggarwal²

2009

Angew Chem Int Ed

131

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B-Allyl-10-Ph-9-borabicyclo[3.3.2]decanes: Strategically Designed for the Asymmetric Allylboration of Ketones

Cited by 104 publications

References 17 publications

Diastereoselective Allylation of Carbonyl Compounds and Imines: Application to the Synthesis of Natural Products

Diastereoselective Allylation of Carbonyl Compounds and Imines: Application to the Synthesis of Natural Products

Asymmetric Synthesis of 2°- and 3°-Carbinols via B-Methallyl-10-(TMS and Ph)-9-borabicyclo[3.3.2]decanes

Asymmetric Hydroboration of 1,1‐Disubstituted Alkenes

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