A new approach to A,B-difunctionalisation of cyclodextrins using bulky 1,3-bis[bis(aryl)chloromethyl]benzenes as capping reagents

Armspach, Dominique; Poorters, Laurent; Matt, Dominique; Benmerad, Belkacem; Balegroune, Fadila; Toupet, Loı̈c

doi:10.1039/b504012d

Cited by 29 publications

(17 citation statements)

References 19 publications

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“…It is worth mentioning here that the aromatic region of the 1 H NMR spectrum of 3 bears strong resemblance to the singly capped-CD 2. [21] In particular, two low-field signals for the H a and H a protons of the central aromatic rings of the "bis-trityl" fragments at d = 7.61 and 7.72 ppm, respectively, are typical of non-dangling 6 A ,6…”

Section: Resultsmentioning

confidence: 99%

“…[ 21] We anticipated that the use of two equivalents of 1 for the first alkylation step would regioselectively lead to an A,B:D,E doubly capped b-CD, as a result of both the capacity of the difunctional reagent to strap adjacent glucose units and the Abstract: Four different regioselective double capping reactions were applied either to a-or b-cyclodextrin (CD) scaffolds. The first, which relied on the use of a rigid, bulky dialkylating reagent containing two trityl-like subunits, gave access to an A,B,D,E-tetrafunctionalised b-CD regioisomer in large scale reactions.…”

Section: Resultsmentioning

confidence: 99%

“…All commercial reagents were used as supplied. [21] and dimesylate 11 [32] were synthesised according to literature procedures.…”

Section: Methodsmentioning

confidence: 99%

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Regioselective Double Capping of Cyclodextrin Scaffolds

Gramage‐Doria

Rodríguez-Lucena

Armspach

et al. 2011

Chemistry A European J

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Four different regioselective double capping reactions were applied either to α- or β-cyclodextrin (CD) scaffolds. The first, which relied on the use of a rigid, bulky dialkylating reagent containing two trityl-like subunits, gave access to an A,B,D,E-tetrafunctionalised β-CD regioisomer in large scale reactions. Two further capping reactions, involving the dianions PhP(2-) and S(2- , led to the synthesis of new C(1)-symmetrical β-cyclodextrins in which pairs of neighbouring glucose units are linked by very short spacers. The last double capping reaction described allowed the high-yield preparation of unprecedented α- and β-cyclodextrins containing two sulfate handles. Proximal capping turned out to be favoured for each of the above difunctional reagents. The structural characterisation of the capped species was achieved by thorough NMR investigations as well as by single-crystal X-ray diffraction studies.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Regioselective Double Capping of Cyclodextrin Scaffolds

Gramage‐Doria

Rodríguez-Lucena

Armspach

et al. 2011

Chemistry A European J

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“…Keywords: aluminum · concave molecules · cyclodextrins · oligosaccharides · regioselectivity agents. [7,8] When one wants to go one step further and introduce a second functional group different from the first one in order to get a tridifferentiated cycle (Scheme 1) the same problems are encountered, with even more possible regioisomers formed. For the sake of clarity, we wish to define these terms.…”

Section: Introductionmentioning

confidence: 93%

“…[13] A remarkable feature of this reaction is that it is a rare example of selective CD bis-functionalisation being as efficient on a-and bCDs. [8] As an illustration of our previous assumption on the link between easy functionalisation and access to novel artificial enzymes, M. Bols et al nicely used this methodology to build up a series of efficient artificial enzymes. [14] We would now like to give the full account of the duplication of this process that allows the tridifferentiation of the upper rim of a-and b-CDs.…”

Section: Introductionmentioning

confidence: 99%

Chemical Clockwise Tridifferentiation of α‐ and β‐Cyclodextrins: Bascule‐Bridge or Deoxy‐Sugars Strategies

Bistri

Sînaÿ

Barbero

et al. 2007

Chemistry A European J

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The selective and efficient functionalisation of large concave molecules is a chemical challenge opening the door to various applications, such as artificial enzymes. We propose here a method, based on deprotection of benzylated cyclodextrins, to selectively access a variety of complex structures with two or three new different functionalities on the primary platform. Our strategy is based on a mechanistic hypothesis involving the approach of an aluminium reagent between the primary oxygen atom and the endocyclic one of the same sugar unit. Due to its cyclic directionality, a change in steric hindrance on a given position of the cyclodextrin has a different effect on the clockwise or the counterclockwise directions. This concept is illustrated and exploited in two complementary ways: deoxygenation of the primary position of two diametrically opposed sugars induces a debenzylation reaction on the neighbouring clockwise sugars of alpha- and beta-cyclodextrins. Reversible capping, or bascule-bridging, of the same pair of sugars has the same effect on the debenzylation of alpha-cyclodextrin, but induces an important change of the geometry of beta-cyclodextrin, hence allowing the selective access to yet another functionalisation pattern. A combined use of deoxygenation and bascule-bridging allows the access to an alpha-cyclodextrin with its three pairs of primary functions differentiated and ready for further modifications. Bascule-bridge or deoxy-sugars are two complementary means to operate steric decompression and induce selective reactions to efficiently access a number of new patterns of functionalities on concave molecules.

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