Sofía Bobo scite author profile

A concise synthesis of trehazolin, its aglycon, trehalamine, and a known analogue has been developed starting from D-mannose. This new approach features a very stereoselective and high-yielding ketone−oxime ether reductive carbocyclization promoted by samarium diiodide as a key step for the preparation of the aminocyclitol component and a mild and very efficient intramolecular triflate displacement reaction for the construction of the oxazoline ring.

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Synthesis, Inhibition Properties, and Theoretical Study of the New Nanomolar Trehalase Inhibitor 1‐Thiatrehazolin: Towards a Structural Understanding of Trehazolin Inhibition

Chiara

Gràcia

García

et al. 2005

ChemBioChem

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A new trehazolin analogue, 1-thiatrehazolin, has been synthesized from carbohydrate precursors by a highly efficient route based on our previously developed ketone/oxime ether reductive carbocyclization reaction for the construction of the cyclitol ring and an intramolecular nucleophilic displacement reaction for the construction of the thiazoline ring. 1-Thiatrehazolin is a very potent, slow, tight-binding trehalase inhibitor. A structural model for trehalase inhibition by trehazolin and its analogues, based on the experimental results and supported by theoretical calculations, is proposed.

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A Highly Efficient Pinacol Coupling Approach to Trehazolamine Starting from d-Glucose

Dietrich

Bobo

et al. 1998

J. Org. Chem.

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A short and very efficient synthesis of trehazolamine (3), the aglycon of the potent trehalase inhibitor trehazolin (2), has been achieved starting from D-glucose. The key transformation in this approach is a high-yielding two-step, one-pot sequence consisting of a Swern oxidation of a 1,5-diol followed by a reductive carbocyclization of the resultant 1,5-dicarbonyl compound promoted by samarium diiodide. The overall yield of 3 is 39% over nine steps from 2,3,4,6-tetra-O-benzyl-D-glucose (5). An even shorter synthesis of 30, a diastereoisomeric analogue of 3, is also described starting from 5. The key transformation in this second route is a highly stereoselective ketone oxime ether reductive carbocyclization promoted also by samarium diiodide. The overall yield of 30 is 57% over four steps from 5.

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Stereoselective Synthesis of Branched Cyclopentitols by Titanium(III)-Promoted Reductive Cyclization of 4-Oxiranylaldehydes and 4-Oxiranyl Ketones Derived from Hexoses

Chiara¹,

Bobo²,

Sesmilo³

2008

Synthesis

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Titanocene chloride efficiently promotes the intramolecular reductive cross coupling of highly functionalized 4-oxiranylaldehydes and 4-oxiranyl ketones derived from readily available hexoses affording branched cyclopentitols with good stereoselectivity.Epoxides are a highly valuable and versatile group of compounds widely used in organic synthesis due to their varied reactivity and their straightforward preparation from readily available alkene or carbonyl precursors, generally with high control over their relative and absolute stereochemistry. The strained three-membered oxirane ring is prone to ring-opening reactions with nucleophiles and low-valent-metal reagents. Both types of ring-opening reaction complement each other in terms of polarity and regioselectivity. Thus, while nucleophiles preferentially attack the less substituted carbon of the oxirane ring, single electron transfer from low-valent-metal reagents 1 produce the most substituted b-metal oxide C-radical regioselectively, which subsequently adds to electrophilic radical acceptors.Due to our longstanding interest in the exploration of new strategies for the stereoselective synthesis of highly functionalized cyclitols starting from readily available carbohydrate precursors, 2 we decided to explore the disconnection strategy shown in Scheme 1 for the direct preparation of branched cyclitols of structure I from 4-oxiranylcarbonyl substrates II. A number of possible mechanistic scenarios could be contemplated for the cyclization step, each involving a different generic reactive intermediate A-D. Purportedly, we could envisage the C-C bond-forming step as proceeding through a radical (a, d) or a carbanionic pathway (b, c). In the first case, the required radical intermediates A or D could originate via single electron transfer (SET) reduction of the epoxide or the carbonyl group, respectively. In the ionic alternative, generic carbanionic intermediates B or C could be formed from II either by two sequential SET reductions via radicals A and D or, directly, by a bielectronic process involving the oxidative addition of a low-valent-metal reagent to the epoxide or the carbonyl group. Examples of C-C bond-forming reactions following each of these mechanistic pathways have been described in the literature, 3 with the only exception of path d, which has no precedent.Our group has recently described the first successful reductive cross coupling of epoxides with aldehydes and ketones 4 promoted by samarium diiodide, for which we proposed an epoxide-derived C-radical of type A as the key reactive intermediate in the C-C bond-forming step. The reaction took place intermolecularly and provided a new access to C-glycosides from 1,2-anhydrohexoses in a stereoselective way, which complemented other approaches previously described. With the intention of exploring an intramolecular version of this reaction that could give access to polyoxygenated branched carbocycles, we decided to synthesize appropriate substrates from readily available hexoses.Using D-glucose as the ...

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A Concise Synthesis of a Trehazolamine Epimer with Moderate α-Mannosidase Inhibitory Activity Starting from d-Mannose

Bobo¹,

Gràcia²,

Chiara³

1999

Synlett

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Sofía Bobo

A Concise and Highly Efficient Synthesis of Trehazolin and Trehalamine Starting from d-Mannose

Synthesis, Inhibition Properties, and Theoretical Study of the New Nanomolar Trehalase Inhibitor 1‐Thiatrehazolin: Towards a Structural Understanding of Trehazolin Inhibition

A Highly Efficient Pinacol Coupling Approach to Trehazolamine Starting from d-Glucose

Stereoselective Synthesis of Branched Cyclopentitols by Titanium(III)-Promoted Reductive Cyclization of 4-Oxiranylaldehydes and 4-Oxiranyl Ketones Derived from Hexoses

A Concise Synthesis of a Trehazolamine Epimer with Moderate α-Mannosidase Inhibitory Activity Starting from d-Mannose

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