Johann Moschner scite author profile

Fluorine does not belong to the pool of chemical elements that nature uses to build organic matter. However, chemists have exploited the unique properties of fluorine and produced countless fluoro-organic compounds without which our everyday lives would be unimaginable. The incorporation of fluorine into amino acids established a completely new class of amino acids and their properties, and those of the biopolymers constructed from them are extremely interesting. Increasing interest in this class of amino acids caused the demand for robust and stereoselective synthetic protocols that enable straightforward access to these building blocks. Herein, we present a comprehensive account of the literature in this field going back to 1995. We place special emphasis on a particular fluorination strategy. The four main sections describe fluorinated versions of alkyl, cyclic, aromatic amino acids, and also nickel-complexes to access them. We progress by one carbon unit increments. Special cases of amino acids for which there is no natural counterpart are described at the end of each section. Synthetic access to each of the amino acids is summarized in form of a table at the end of this article with the aim to make the information easily accessible to the reader.

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Sensitive and Site-Specific Identification of Carboxymethylated and Carboxyethylated Peptides in Tryptic Digests of Proteins and Human Plasma

Greifenhagen

Nguyen

Moschner

et al. 2015

J. Proteome Res.

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Glycation refers to a nonenzymatic post-translational modification formed by the reaction of amino groups and reducing sugars. Consecutive oxidation and degradation can produce advanced glycation end products (AGEs), such as N(ε)-(carboxyethyl)lysine (CEL) and N(ε)-(carboxymethyl)lysine (CML). Although CEL and CML are considered to be markers of arteriosclerosis, diabetes mellitus, and aging, the modified proteins and the exact modification sites are mostly unknown due to their low frequency and a lack of enrichment strategies. Here, we report characteristic fragmentation patterns of CML- and CEL-containing peptides and two modification-specific reporter ions for each modification (CML, m/z 142.1 and 187.1; CEL, m/z 156.1 and 201.1). The protocol allowed sensitive and selective precursor ion scans to detect the modified peptides in complex sample mixtures. The corresponding m/z values identified eight CEL/CML-modification sites in glycated human serum albumin (HSA) by targeted nano-RPC-MS/MS. The same strategy revealed 21 CML sites in 17 different proteins, including modified lysine residues 88 and 396 of human serum albumin, in a pooled plasma sample that was obtained from patients with type 2 diabetes mellitus.

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NFGAIL Amyloid Oligomers: The Onset of Beta-Sheet Formation and the Mechanism for Fibril Formation

et al. 2017

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The hexapeptide NFGAIL is a highly amyloidogenic peptide, derived from the human islet amyloid polypeptide (hIAPP). Recent investigations indicate that presumably soluble hIAPP oligomers are one of the cytotoxic species in type II diabetes. Here we use thioflavin T staining, transmission electron microscopy, as well as ion mobility-mass spectrometry coupled to infrared (IR) spectroscopy to study the amyloid formation mechanism and the quaternary and secondary structure of soluble NFGAIL oligomers. Our data reveal that at neutral pH NFGAIL follows a nucleation dependent mechanism to form amyloid fibrils. During the lag phase, highly polydisperse, polymorph, and compact oligomers (oligomer number n = 2-13) as well as extended intermediates (n = 4-11) are present. IR secondary structural analysis reveals that compact conformations adopt turn-like structures, whereas extended oligomers exhibit a significant amount of β-sheet content. This agrees well with previous molecular dynamic simulations and provides direct experimental evidence that unordered off-pathway NFGAIL aggregates up to the size of at least the 13-mer as well as partially folded β-sheet containing oligomers are coexisting.

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An Intrinsic Hydrophobicity Scale for Amino Acids and Its Application to Fluorinated Compounds

et al. 2019

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More than 100 hydrophobicity scales have been introduced, with each being based on ad istinct condensedphase approach.However,acomparison of the hydrophobicity values gained from different techniques,a nd their relative ranking,isnot straightforward, as the interactions between the environment and the amino acid are unique to each method. Here,weovercome this limitation by studying the properties of amino acids in the clean-room environment of the gas phase.In the gas phase,e ntropic contributions from the hydrophobic effect are by default absent and only the polarity of the side chain dictates the self-assembly.This allows for the derivation of an ovel hydrophobicity scale,w hichi sb ased solely on the interaction between individual amino acid units within the cluster and thus more accurately reflects the intrinsic nature of as ide chain. This principle can be further applied to classify non-natural derivatives,a ss hown here for fluorinated amino acid variants.The accurate determination of the intrinsic hydrophobicity of amino acids is crucial for understanding the key aspects of biology and the application of noncanonical amino acids in the rational design of peptides and proteins.M any fundamental biological processes such as the folding, [1] stability, [2] and oligomerization [3] of proteins as well as protein-ligand interactions [4] are strongly influenced by the hydrophobic effect in solution, where the entropically unfavored solvent shell around nonpolar residues is released to the bulk water. To date,m ore than 100 hydrophobicity scales [5] have been established, with most of them being derived from condensedphase methods such as water/octanol partitioning, [6] calculations of the accessible surface area, [7] direct measurements of physical properties, [8] and chromatographic techniques. [9]

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Position-dependent impact of hexafluoroleucine and trifluoroisoleucine on protease digestion

Huhmann¹,

Stegemann²,

Folmert³

et al. 2017

Beilstein J. Org. Chem.

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Rapid digestion by proteases limits the application of peptides as therapeutics. One strategy to increase the proteolytic stability of peptides is the modification with fluorinated amino acids. This study presents a systematic investigation of the effects of fluorinated leucine and isoleucine derivatives on the proteolytic stability of a peptide that was designed to comprise substrate specificities of different proteases. Therefore, leucine, isoleucine, and their side-chain fluorinated variants were site-specifically incorporated at different positions of this peptide resulting in a library of 13 distinct peptides. The stability of these peptides towards proteolysis by α-chymotrypsin, pepsin, proteinase K, and elastase was studied, and this process was followed by an FL-RP-HPLC assay in combination with mass spectrometry. In a few cases, we observed an exceptional increase in proteolytic stability upon introduction of the fluorine substituents. The opposite phenomenon was observed in other cases, and this may be explained by specific interactions of fluorinated residues with the respective enzyme binding sites. Noteworthy is that 5,5,5-trifluoroisoleucine is able to significantly protect peptides from proteolysis by all enzymes included in this study when positioned N-terminal to the cleavage site. These results provide valuable information for the application of fluorinated amino acids in the design of proteolytically stable peptide-based pharmaceuticals.

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Johann Moschner

Approaches to Obtaining Fluorinated α-Amino Acids

Sensitive and Site-Specific Identification of Carboxymethylated and Carboxyethylated Peptides in Tryptic Digests of Proteins and Human Plasma

NFGAIL Amyloid Oligomers: The Onset of Beta-Sheet Formation and the Mechanism for Fibril Formation

An Intrinsic Hydrophobicity Scale for Amino Acids and Its Application to Fluorinated Compounds

Position-dependent impact of hexafluoroleucine and trifluoroisoleucine on protease digestion

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