Peptide Functionalization Through the Generation of Selenocysteine Electrophile

Arsenyan, Pavel; Lapcinska, Sindija; Ivanova, Anna V.; Vasiljeva, Jelena

doi:10.1002/ejoc.201900907

Cited by 25 publications

(25 citation statements)

References 39 publications

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“…However, CuBr 2 promoted cyclization led to the formation of 2‐phenyl‐3‐(phenyltellanyl)benzo[ b ]furan ( 2c ) in 50 % yield which is a considerable improvement comparing to FeCl 3 promoted phenyltellanyl electrophile generation (36 %). Based on previous studies we believe that electrophilic selenium species are formed via CuBr 2 ‐diselenide adduct A .…”

Section: Resultsmentioning

confidence: 95%

“…Boc‐ l ‐selenocystine, peptides 3a , b , c , 2‐(1‐alkynyl)anisoles 1a , b , 2‐(1‐alkynyl)phenols 1c , d , 2‐(1‐alkynyl)anilines 5a–c , f , g , h , i , j , and 7 were prepared according to literature procedures.…”

Section: Methodsmentioning

confidence: 99%

“…Boc-L-selenocystine, [39] peptides 3a,b,c, [25] 2-(1-alkynyl)anisoles 1a, [40] b, [41] 2-(1-alkynyl)phenols 1c,d, [42] 2-(1-alkynyl)anilines 5ac, [43] f, [44] g, [45] h,i, [46] j, [47] and 7 [34] were prepared according to literature procedures.…”

Section: Methodsmentioning

confidence: 99%

“…This approach is based on the electrophilic character of (5‐nitropyridylthio)‐Sec peptides and was used in Sec‐peptide and small molecule (including some indoles) late stage conjugation. Recently, our group demonstrated novel copper(II) bromide mediated method for the generation of selenocysteinyl electrophile from selenocystine containing peptides. The electrophilic species were used in 5‐ endo‐dig cyclization with 2‐propargyl N ‐pyridines forming corresponding indolizinium salts whereas 6 ‐ endo‐dig cyclization with 2‐ethynylbiaryls led to formation of polyaromatic systems containing Sec peptides.…”

Section: Introductionmentioning

confidence: 99%

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Selenocystine Peptides Performance in 5‐endo‐dig Reactions

Lapcinska

Arsenyan

2020

Eur J Org Chem

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Herein, we present methods for the generation of selenocysteinyl electrophile by weak Lewis acids or oxidants. The electrophilic selenium species were further utilized in 5‐endo‐dig cyclization reactions with 2‐ethynyl phenols, anisoles, and anilines, yielding substituted benzo[b]furans and indoles bearing short selenocysteine‐containing peptides. Copper(II) bromide promoted 5‐endo‐dig cyclization can be successfully applied for protected and unprotected peptides in high yields. Elaborated protocol allows the construction of phenylindeno[1,2‐c]chromene moiety in 5‐endo‐dig/6‐endo‐dig cascade reactions.

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Section: Resultsmentioning

confidence: 95%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Selenocystine Peptides Performance in 5‐endo‐dig Reactions

Lapcinska

Arsenyan

2020

Eur J Org Chem

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“…The first work describing the use of seleno-cysteine electrophiles generation as a synthetic strategy to functionalize peptide derivatives via 5-endo-dig and 6-endo-dig cyclization processes was reported by Arsenyan and co-workers. 25 These protocols consist of the use of stoichiometry amounts of copper(II) bromide to promote the 5-endo-dig cyclization of 2propargyl N-heterocycles (Scheme 8) and the 6-endo-dig cyclization of 2-ethynyl-biaryls (Scheme 9). The advantage of these methods is the possibility to synthetize five-membered Nheterocycles 8 and six-membered carbocycles 9 just by performing slight modifications in the reaction conditions.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

Diorganyl Dichalcogenides and Copper/Iron Salts: Versatile Cyclization System To Achieve Carbo- and Heterocycles from Alkynes

et al. 2021

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Organochalcogen-containing cyclic molecules have shown several promising pharmacological properties. Consequently, different synthetic strategies have been developed to their obtaining in the last years. Particularly due to the low cost and environmental aspects, copper and iron-promoted cyclization reactions of alkynyl substrates have been broadly and efficiently applied to this purpose. In this way, this manuscript consists on an overview of the most recent advances in the synthesis of organochalcogen-containing carbo- and heterocycles by reacting diorganyl disulfides, diselenides and ditellurides with alkyne derivatives in the presence of copper and iron salts to promote cyclization reactions.

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Visible Light‐Mediated Functionalization of Selenocystine‐Containing Peptides

et al. 2021

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A straightforward and atom‐economic method for the functionalization of short selenocystine‐containing peptides is presented. This method is shown to be tolerant to unprotected peptides. The detailed protocol is based on the generation of a selenium radical via visible light‐initiated reaction in the presence of transition metal‐free photocatalyst. The selenium radical is further oxidized to an electrophile and trapped by N‐heterocycles. The mechanism is confirmed by NMR, HRMS, UV, EPR and cyclic voltammetry (CV) experiments and photocatalyst emission quenching studies. A visible light‐initiated reaction is employed for the synthesis of selenocysteine‐containing indole‐based macrocycles via intramolecular Se−C bond formation.

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Peptide Functionalization Through the Generation of Selenocysteine Electrophile

Cited by 25 publications

References 39 publications

Selenocystine Peptides Performance in 5‐endo‐dig Reactions

Selenocystine Peptides Performance in 5‐endo‐dig Reactions

Diorganyl Dichalcogenides and Copper/Iron Salts: Versatile Cyclization System To Achieve Carbo- and Heterocycles from Alkynes

Visible Light‐Mediated Functionalization of Selenocystine‐Containing Peptides

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