A highly efficient and general method for the preparation of (Z)-allylic bromides derived from Morita-Baylis-Hillman adducts

Ferreira, Misael; Fernandes, Luciano; Sá, Marcus M.

doi:10.1590/s0103-50532009000300023

Cited by 25 publications

(15 citation statements)

References 25 publications

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“…The synthesis of the target allylic selenocyanates 1 a–g was efficiently achieved by combining the nucleophilic potassium selenocyanide (KSeCN) with the electrophilic allylic bromide 2 a–g (Scheme, Table ), a versatile precursor readily prepared through the treatment of Morita‐Baylis‐Hillman adducts with LiBr in acidic medium . The novel allylic selenocyanates 1 a–g were obtained in high yield and elevated purity, and were fully characterized by spectroscopic methods.…”

Section: Resultsmentioning

confidence: 99%

Allylic Selenocyanates as New Agents to Combat Fusarium Species Involved with Human Infections

et al. 2017

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Fusarium is an emerging opportunistic fungal pathogen that causes local or systemic infections. The successful use of a therapeutic drug or combination antifungal therapies against Fusarium spp. are compromised because reports of multidrug resistance are currently frequent. Thus, the development of new antifungal capable of combating multidrug‐resistant Fusarium strains becomes necessary. This study presents the synthesis of seven new allylic selenocyanates and their screening against Fusarium spp. Minimum inhibitory concentrations (MICs) of these compounds ranged from 4 to 64 μg mL−1, with the mechanism of action being related to fungal cell membrane disruption. Specific structural changes, such as widespread thinning along the hyphae, were observed by scanning electron microscopy. The effect of selenocyanates on cell viability and genotoxicity are concentration dependent, however they did not cause mutagenicity in human cells. Five selenocyanates were identified as nonirritant by the ex‐vivo HET‐CAM (Hen′s Egg Test‐Chorioallantoic Membrane) method. Allylic selenocyanates represents a promising alternative in the treatment and prevention of fusariosis.

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Section: Resultsmentioning

confidence: 99%

Allylic Selenocyanates as New Agents to Combat Fusarium Species Involved with Human Infections

et al. 2017

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“…During the development of a simple and general method to prepare ( Z )‐allylic bromides22 by treating 1 with a combination of lithium bromide and sulfuric acid in acetonitrile at room temp.,23 we found that acetamides 2 and 3 (obtained from a Ritter type16,24–27 reaction with the solvent) were competitively formed when LiBr was replaced by less soluble sodium or potassium bromide. Our interest in synthetic transformations involving allylic alcohols B 28 and in mechanistic studies on nucleophilic reactions29 prompted us to undertake an in‐depth investigation of the acid‐mediated solvolytic nucleophilic substitution reaction involving the α‐methylene‐β‐hydroxy esters 1 with acetonitrile to give the corresponding mixture of allylic acetamides 2 and 3 (Scheme ).…”

Section: Introductionmentioning

confidence: 85%

Investigating the Ritter Type Reaction of α‐Methylene‐β‐hydroxy Esters in Acidic Medium: Evidence for the Intermediacy of an Allylic Cation

Sá¹,

Ferreira²,

Caramori³

et al. 2013

Eur J Org Chem

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The acid‐mediated solvolytic transformation of α‐methylene‐β‐hydroxy esters in acetonitrile was investigated. The reaction was shown to involve nucleophilic attack either at the terminal methylene or at the benzylic carbon. Kinetic and theoretical studies were performed to elucidate the possible pathways involved in the formation of the acetamide products, i.e., through an addition‐elimination mechanism, a concerted process (SN2 and SN2′), or involving an allylic cation (SN1 and SN1′). The results of the kinetic analysis, including the isotope effect, Hammett plot, and Eyring plot, are in agreement with a proton transfer equilibrium prior to the formation of a benzylic carbenium ion intermediate, which is consistent with a unimolecular stepwise mechanism. Theoretical examination at the DFT level of theory corroborated these findings, with the lowest activation energy being associated with the SN1′‐type mechanism.

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“…The preparation of the required isothiouronium salts 3 was readily achieved by combining a variety of N ‐substituted thioureas 4 with the 4‐nitroaryl‐substituted allylic bromide 5 a (which was obtained in high yield by treating the corresponding α‐methylene‐β‐hydroxyester with LiBr/H 2 SO 4 )8 in acetonitrile at rt in 66–97 % yield (Scheme ). Subsequent base‐mediated acetylation of N ‐substituted salts 3 a–d using acetic anhydride under a biphasic medium furnished the expected products as a mixture of monoacetylated isothioureas,6b with the N ‐acetyl‐ N′ ‐substituted isomers 1 a–d being the major products.…”

Section: Methodsmentioning

confidence: 99%

Formal [3+2] Annulation Involving Allylic Bromides and Thioureas. Synthesis of 2‐Iminothiazolidines through a Base‐Catalyzed Intramolecular anti‐Michael Addition

Ferreira

Sá

2015

Adv Synth Catal

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A simple and efficient protocol was developed for the synthesis of 2-iminothiazolidines through a base-mediated [3+2] annulation involving substituted thioureas and allylic bromides bearing electron-withdrawing groups. This domino process consists of nucleophilic displacement, followed by intramolecular anti-Michael addition of the preformed allylic isothiourea under mild conditions to give the thiazolidine core.

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A highly efficient and general method for the preparation of (Z)-allylic bromides derived from Morita-Baylis-Hillman adducts

Cited by 25 publications

References 25 publications

Allylic Selenocyanates as New Agents to Combat Fusarium Species Involved with Human Infections

Allylic Selenocyanates as New Agents to Combat Fusarium Species Involved with Human Infections

Investigating the Ritter Type Reaction of α‐Methylene‐β‐hydroxy Esters in Acidic Medium: Evidence for the Intermediacy of an Allylic Cation

Formal [3+2] Annulation Involving Allylic Bromides and Thioureas. Synthesis of 2‐Iminothiazolidines through a Base‐Catalyzed Intramolecular anti‐Michael Addition

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