- Biocatalytic and chemical preparation of all four diastereomers of methionine sulfoxide
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Biocatalytic or chemical oxidations can be used in a complementary manner for the preparation of all four diastereomers of methionine sulfoxide with high diastereomeric purity in overall isolated yields of 20-55% from methionine. The N-phthaloyl derivatives of L- and D-methionine were selectively oxidised to the (S(s)S(c)) and (S(s)R(c)) sulfoxides respectively by biotransformation using the fungus Beauveria bassiana ATCC 7159. Hydrogen peroxide oxidation of the same materials gave mixtures from which the (S(s)S(c)) and (R(s)R(c)) isomers can be readily isolated by crystallisation. Chromatography of the residual material then afforded the (R(s)S(c)) and (S(s)R(c)) isomers.
- Holland, Herbert L.,Brown, Frances M.
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- Synthesis of Methionine-Derived Endocyclic Sulfilimines and Sulfoximines
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The asymmetric synthesis of endocyclic methionine sulfilimines and sulfoximines from methionine derivatives was explored. The cyclization was performed by using phenyliodine diacetate (PIDA). In the case of l-methionine, dehydromethionine was obtained, and a deprotonation step by tBuONa was necessary to yield the corresponding sulfilimine. On the other hand, the cyclic sulfilimine of methionine methyl ester, methylthiopropylamine, and l-methioninol were synthesized in a single step by using PIDA. Owing to their instability, the sulfilimines were oxidized to their corresponding sulfoximines in good yields.
- Marzag, Hamid,Schuler, Marie,Tatibou?t, Arnaud,Reboul, Vincent
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- Identification of a lysine 4-hydroxylase from the glidobactin biosynthesis and evaluation of its biocatalytic potential
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We present the functional characterization of GlbB, a lysine 4-hydroxylase from the glidobactin biosynthetic gene cluster. Despite its narrow substrate specificity, GlbB is able to catalyze the hydroxylation of l-lysine with excellent total turnover number and complete regio- and diastereoselectivity. The synthetic utility of GlbB is illustrated by its use in the efficient preparation of a key dipeptide fragment of glidobactin.
- Amatuni, Alexander,Renata, Hans
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- Remote C-H Hydroxylation by an α-Ketoglutarate-Dependent Dioxygenase Enables Efficient Chemoenzymatic Synthesis of Manzacidin C and Proline Analogs
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Selective C-H functionalization at distal positions remains a highly challenging problem in organic synthesis. Though Nature has evolved a myriad of enzymes capable of such feat, their synthetic utility has largely been overlooked. Here, we functionally characterize an α-ketoglutarate-dependent dioxygenase (Fe/αKG) that selectively hydroxylates the ? position of various aliphatic amino acids. Kinetic analysis and substrate profiling of the enzyme show superior catalytic efficiency and substrate promiscuity relative to other Fe/αKGs that catalyze similar reactions. We demonstrate the practical utility of this transformation in the concise syntheses of a rare alkaloid, manzacidin C, and densely substituted amino acid derivatives with remarkable step efficiency. This work provides a blueprint for future applications of Fe/αKG hydroxylation in complex molecule synthesis and the development of powerful synthetic paradigms centered on enzymatic C-H functionalization logic.
- Zwick, Christian R.,Renata, Hans
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supporting information
p. 1165 - 1169
(2018/02/07)
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- Repairing oxidized proteins in the bacterial envelope using respiratory chain electrons
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The reactive species of oxygen and chlorine damage cellular components, potentially leading to cell death. In proteins, the sulfur-containing amino acid methionine is converted to methionine sulfoxide, which can cause a loss of biological activity. To res
- Gennaris, Alexandra,Ezraty, Benjamin,Henry, Camille,Agrebi, Rym,Vergnes, Alexandra,Oheix, Emmanuel,Bos, Julia,Leverrier, Pauline,Espinosa, Leon,Szewczyk, Joanna,Vertommen, Didier,Iranzo, Olga,Collet, Jean-Fran?ois,Barras, Frédéric
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p. 409 - 412
(2015/12/26)
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- Enzymatic synthesis of chiral amino acid sulfoxides by Fe(II)/α- ketoglutarate-dependent dioxygenase
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Asymmetric sulfoxidation of sulfur-containing l-amino acids was successfully achieved through bioconversion using IDO, which is an Fe(II)/α-ketoglutarate-dependent dioxygenase previously found in Bacillus thuringiensis strain 2e2. The IDO catalyzed sulfoxidation of l-methionine, l-ethionine, S-methyl-l-cysteine, S-ethyl-l-cysteine, and S-allyl-l-cysteine into the corresponding (S)-configured sulfoxides such as (+)-methiin and (+)-alliin, which are responsible for valuable physiological activities in mammals, and have high stereoselectivity. Herein we have established an effective preparative laboratory scale production method to obtain enantiomerically pure chiral sulfoxides using an IDO biocatalyst.
- Hibi, Makoto,Kawashima, Takashi,Yajima, Hiroko,Smirnov, Sergey V.,Kodera, Tomohiro,Sugiyama, Masakazu,Shimizu, Sakayu,Yokozeki, Kenzo,Ogawa, Jun
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p. 990 - 994
(2013/09/23)
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- Oxidation by chlorine dioxide of methionine and cysteine derivatives to sulfoxides
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Methionine and cysteine derivatives were oxidized asymmetrically by chlorine dioxide to sulfinyl derivatives.
- Loginova,Rubtsova,Kuchin
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experimental part
p. 752 - 754
(2009/05/09)
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- Probing the stereochemistry of the active site of gamma-glutamyl transpeptidase using sulfur derivatives of l-glutamic acid.
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Gamma-glutamyl transpeptidase (GGT) catalyses the transfer of a gamma-glutamyl moiety from a donor substrate to different acceptors, such as amino acids and water. GGT is known to display relatively low stereospecificity with respect to the alpha-stereocentre of its donor substrates. In this study we have studied its stereospecificity with respect to the stereocentre at the delta-position of different analogues of L-glutamic acid. Notably, L-methionine sulfoxide is well-recognised whereas L-methionine sulfone and L-methionine sulfoximine are not. Furthermore, when the synthetic gamma-diastereoisomers of L-methionine sulfoxide were separated and tested, it was discovered that GGT shows remarkable stereospecificity at the gamma-position, binding the S(C)S(S) diastereoisomer with a K(i) of 3.5 mM, whereas the S(C)R(S) diastereoisomer is not recognised. Finally, using a sulfoxide as a new pharmacophore for GGT, we have synthesized and tested an analogue of glutathione to obtain a very promising competitive inhibitor with a K(i) of (53 +/- 3) microM.
- Lherbet, Christian,Keillor, Jeffrey W
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p. 238 - 245
(2007/10/03)
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- Biocatalytic and chemical routes to all the stereoisomers of methionine and ethionine sulfoxides
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Biotransformations of the N-phthaloyl derivatives of D- and L-methionine and of D- and L-ethionine by Beauveria bassiana ATCC 7159 or Beauveria caledonica ATCC 64970 produce the corresponding (S(s)) sulfoxides in good yield and diastereomeric excess. Pure
- Holland, Herbert L.,Andreana, Peter R.,Brown, Frances M.
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p. 2833 - 2843
(2007/10/03)
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- A General Procedure for the Selective Oxidation of Sulfides to Sulfoxides by Nitric Acid: Tetrabromoaurate(III) Catalyst in a Biphasic System
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Tetrabromoaurate(III) is an efficient catalyst for the oxidation of sulfides to sulfoxides by nitric acid in a biphasic system (nitromethane/water).The system is selective and can be applied to the oxidation of any type of dialkyl and alkyl aryl sulfide and also of diaryl sulfides activated by electron-releasing substituents.The nature of the active species has been investigated in relation to the mechanistic aspects.
- Gasparrini, Francesco,Giovannoli, Mario,Misiti, Domenico,Natile, Giovanni,Palmieri, Gianni
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p. 1323 - 1328
(2007/10/02)
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- Aspects of the Chemistry of Dehydromethionine
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Dehydromethionine is shown to be a useful intermediate for the preparation of methyl-labelled methionines via its base-catalysed exchange in methanol or methanol.However, it is not possible to effect stereoselective exchange of protons at C-5 of dehydromethionine using sodiummethoxide-methanol.A complete analysis of the 1H n.m.r. spectrum of dehydromethionine has been achieved by computer-assisted simulation and by comparison with the spectra of 2H-labelled dehydromethionines.Dehydromethionine is converted , by treatment with aqueous sodium hydroxide, mainly into the (S,S)-sulphoxide of methionine.This result can be rationalised by postulating a trigonal bipyramidal intermediate having in-line OH and NH attached to sulphur.Syntheses of stereochemically distinct methionines are described.
- Billington, David C.,Golding, Bernard T.
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p. 1283 - 1290
(2007/10/02)
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