Showing total 6 results

1. Heat-enhanced peptide synthesis on Teflon-patterned paper.

Author

Deiss F, Yang Y, Matochko WL, and Derda R

Subjects

Hot Temperature, Paper, Peptides chemical synthesis, Polytetrafluoroethylene, Solid-Phase Synthesis Techniques methods

Abstract

In this report, we describe the methodology for 96 parallel organic syntheses of peptides on Teflon-patterned paper assisted by heating with an infra-red lamp. SPOT synthesis is an important technology for production of peptide arrays on a paper-based support for rapid identification of peptide ligands, epitope mapping, and identification of bio-conjugation reactions. The major drawback of the SPOT synthesis methodology published to-date is suboptimal reaction conversion due to mass transport limitations in the unmixed reaction spot. The technology developed in this report overcomes these problems by changing the environment of the reaction from static to dynamic (flow-through), and further accelerating the reaction by selective heating of the reaction support in contact with activated amino acids. Patterning paper with Teflon allows for droplets of organic solvents to be confined in a zone on the paper array and flow through the paper at a well-defined rate and provide a convenient, power-free setup for flow-through solid-phase synthesis and efficient assembly of peptide arrays. We employed an infra-red (IR) lamp to locally heat the cellulosic support during the flow-through delivery of the reagents to each zone of the paper-based array. We demonstrate that IR-heating in solid phase peptide synthesis shortened the reaction time necessary for amide bond formation down to 3 minutes; in some couplings of alpha amino acids, conversion rates increased up to fifteen folds. The IR-heating improved the assembly of difficult sequences, such as homo-oligomers of all 20 natural amino acids.

Published

2016

2. Unexpected diselenide metathesis in selenocysteine-substituted biologically active peptides.

Author

He Y, Takei T, Moroder L, and Hojo H

Subjects

Organoselenium Compounds chemistry, Organoselenium Compounds chemical synthesis, Selenocysteine chemistry, Peptides chemistry, Peptides chemical synthesis

Abstract

Substitution of disulfide bonds with a diselenide bonds in peptides and proteins is an often-used strategy to increase the stability of naturally occurring peptides and proteins. In this paper, diselenide metathesis between model diselenide dimer peptides, as well as that in diselenide(s)-substituted biologically active peptides, were analyzed. Surprisingly, depending on the tertiary structure of the peptides, we observed that the metathesis reaction occurs under physiological conditions even in the absence of reducing agents, light and heating.

Published

2024

3. A novel synthetic method for backbone-cyclized polypeptide POL7080 with the help of hydrophobic-support materials.

Author

Gu X, Chen W, Guo T, Chang X, Zhang S, Bai B, and Ma S

Subjects

Anti-Bacterial Agents pharmacology, Pseudomonas aeruginosa, Solid-Phase Synthesis Techniques, Clinical Trials, Phase III as Topic, Peptides chemistry, Peptides, Cyclic pharmacology, Peptides, Cyclic chemistry

Abstract

Murepavadin (POL7080) in phase III clinical trials, a backbone-cyclized polypeptide composed of 14 amino acids, has a novel mode of action and shows a specific and efficient bactericidal effect against multidrug-resistant Pseudomonas aeruginosa . It is a potential candidate to treat severe P. aeruginosa infections in the future and still has significant commercial value for further research and development. In this paper, we report a liquid-phase peptide synthetic route for this valuable candidate polypeptide assisted by hydrophobic-support materials (tags), which overcomes the difficulties of high cost and poor yield in the traditional solid-phase synthesis of macrocyclic peptides. Through the careful optimization of reaction conditions and the innovative strategy of synthetic post-treatment, we established a simple and efficient liquid-phase synthetic route suitable for POL7080 and other similar structures, with satisfactory yield, high purity and a production process not being controlled by scale.

Published

2023

4. A trimethyllysine-containing trityl tag for solubilizing hydrophobic peptides.

Author

Masuda S, Tsuda S, and Yoshiya T

Subjects

Amino Acid Sequence, Amino Acids chemistry, Hydrophobic and Hydrophilic Interactions, Lysine chemistry, Solubility, Structure-Activity Relationship, Sulfonic Acids chemistry, Water, Lysine analogs & derivatives, Peptides chemical synthesis

Abstract

Hydrophobic membrane peptides/proteins having low water solubility are often difficult to prepare. To overcome this issue, temporal introduction of solubilizing tags has been demonstrated to be beneficial. Following our recent work on the solubilization of a difficult target by using a hydrophilic oligo-Lys tag bearing a trityl linker (Trt-K method), this paper describes a comparative study of the solubilizing abilities of several peptidic trityl tags containing Lys, Arg, Glu, Asn, N ε -tri-Me-Lys or Cys-sulfonate using two hydrophobic model peptides. Among the tags evaluated, that containing N ε -tri-Me-Lys exhibits superior solubilizing ability.

Published

2019

5. Tandem Wittig/Diels-Alder diversification of genetically encoded peptide libraries.

Author

Triana V and Derda R

Subjects

Cycloaddition Reaction, Hydrogen-Ion Concentration, Molecular Structure, Peptide Library, Peptides chemistry, Peptides genetics, Bacteriophages chemistry, Peptides chemical synthesis

Abstract

In this paper, we developed a tandem of two carbon-carbon bond-forming reactions to chemically diversify the libraries of peptides displayed on a bacteriophage. The Wittig reaction of a biotin-ester from a stabilized phosphorane ylide with model peptides containing N-terminal glyoxal exhibits reaction rates of 0.07 to 5 M -1 s -1 in water at pH 6.5-8. The log(k) scaled linearly with pH from pH 6 to 8; above pH 9 the reaction is accompanied by the hydrolysis of the ester functionality. Capture of the phage displaying the biotinylated product by streptavidin beads confirmed the rate of this reaction in a library of 10 8 peptides (k = 0.23 M -1 s -1 at pH = 6.5) and also confirmed the regioselectivity of this modification. Olefins introduced into the Wittig reaction can act as Michael acceptors: addition of glutathione, cysteamine, and DYKDDDDKC ("FLAG-Cys") peptide occurs with k = 0.12-4.1 M -1 s -1 at pH 7.8. Analogous reactions with the DYKDDDDKC peptide take place on phage-displayed peptides modified via the Wittig reaction. This reaction is manifested as a progressive emergence of a FLAG-epitope on the phage and detected by the capture of this phage using an anti-FLAG antibody. Olefins introduced into the Wittig reaction also act as dienophiles in the Diels-Alder reaction with cyclopentadiene. The conversion of the dienophile to norbornene-like adducts on the phage was observed by monitoring the disappearance of the thiol-reactive olefin on the phage. This report broadens the reaction scope of genetically-encoded peptide libraries displayed on the phage, expanding the structural diversity of these platforms and increasing their potential to be used in screening against important protein targets. The possibility of monitoring tandem reactions by the use of different labels illustrates the feasibility of obtaining highly functionalized peptides with chemical motifs impossible to achieve using conventional translational machinery.

Published

2017

6. Synthetic minimalistic tryptophan zippers as a chiroptical switch.

Author

Haridas V, Sadanandan S, Dhawan S, Mishra R, Jain I, Goel G, Hu Y, and Patel S

Subjects

Molecular Conformation, Molecular Dynamics Simulation, Particle Size, Peptides chemistry, Surface Properties, Tryptophan chemistry, Peptides chemical synthesis, Tryptophan chemical synthesis

Abstract

In this paper, we presented a new design strategy for a peptide-based chiral supramolecular assembly. A series of aryl linked peptides 1a-1f were designed and synthesized. The bis-urea peptides 1a-1c self-assembled into a helical supramolecular arrangement resembling Trp zipper (Trpzip) structures present in proteins. Interestingly, a dihydrogenphosphate anion, upon binding to the assembly, could invert the chirality of the supramolecular assembly which could be reverted to the original by the addition of water. This chiroptical behavior can be repeated several times. Microscopy analysis showed that the supramolecular helices were assembled to form spheres. In addition to that, we also found that the handedness of supramolecular chirality is dependent on the position of Trp residues on the aromatic scaffold. Both left and right handed helical supramolecular arrangements were obtained by placing l-Trp residues at different positions on the aromatic core. The unprecedented Trpzip in these designed small peptidomimetics will stimulate more work in the area of peptide-based assemblies.

Published

2017