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1.
In this study, a novel N‐acetyl‐glucosaminylated asparagine derivative was developed. This derivative carried TFA‐sensitive protecting groups and was derived from commercially available compounds only in three steps. It was applicable to the ordinary 9‐fluorenylmethoxycarbonyl (Fmoc)‐based solid‐phase peptide synthesis (SPPS) method, and the protecting groups on the carbohydrate moiety could be removed by a single step of TFA cocktail treatment generally used for the final deprotection step in Fmoc‐SPPS. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

2.
The 4‐methoxybenzyloxymethyl (MBom) group was introduced at the Nπ‐position of the histidine (His) residue by using a regioselective procedure, and its utility was examined under standard conditions used for the conventional and the microwave (MW)‐assisted solid phase peptide synthesis (SPPS) with 9‐fluorenylmethyoxycarbonyl (Fmoc) chemistry. The Nπ‐MBom group fulfilling the requirements for the Fmoc strategy was found to prevent side‐chain‐induced racemization during incorporation of the His residue even in the case of MW‐assisted SPPS performed at a high temperature. In particular, the MBom group proved to be a suitable protecting group for the convergent synthesis because it remains attached to the imidazole ring during detachment of the protected His‐containing peptide segments from acid‐sensitive linkers by treatment with a weak acid such as 1% trifluoroacetic acid in dichloromethane. We also demonstrated the facile synthesis of Fmoc‐His(π‐MBom)‐OH with the aid of purification procedure by crystallization to effectively remove the undesired τ‐isomer without resorting to silica gel column chromatography. This means that the present synthetic procedure can be used for large‐scale production without any obstacles. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

3.
During the final step of t‐Boc/Bzl, solid‐phase peptide synthesis (SPPS)‐protecting groups from amino acids (aa) side chains must be removed from the target peptides during cleavage from the solid support . These reaction steps involve hydrolysis with hydrogen fluoride (HF) in the presence of a nucleophile (scavenger), whose function is to trap the carbocations produced during SN1‐type reactions. Five peptide sequences were synthesised for evaluating p‐methoxyphenol effectiveness as a potent scavenger. After the synthesis, the resin–peptide was then separated into two equal parts to be cleaved using two scavengers: conventional reactive p‐cresol (reported in the literature as an effective acyl ion eliminator) and p‐methoxyphenol (hypothesised as fulfilling the same functions as the routinely used scavenger). Detailed analysis of the electrostatic potential map (EPM) revealed similarities between these two nucleophiles, regarding net atomic charge, electron density distribution, and similar pKa values. Good scavenger efficacy was observed by chromatography and mass spectrometry results for the synthesised molecules, which revealed that p‐methoxyphenol can be used as a potent scavenger during SPPS by t‐Boc/Bzl strategy, as similar results were obtained using the conventional scavenger.  相似文献   

4.
Dendrimeric platforms such as MAPs can be synthesized either entirely by solid‐phase methods (SPPS, direct approach) or by conjugation in solution of preformed, SPPS‐made building blocks (indirect approach). Although MAPs and MAP‐like constructs have been extensively and successfully used for various biological (mainly immunological) applications, experimental reports are most often lacking in chemical detail about their preparation and characterization. Here, we provide complete accounts of the synthesis and analytical documentation of MAPs and similar dendrimers by either all‐SPPS (direct) or chemoselective thioether ligation (indirect) methods. We have chosen as model epitopes a 24‐residue sequence of the ectodomain of protein M2 from influenza virus (M2e), which is found to be a rather challenging peptide epitope, and a far more manageable, shortened (12‐residue) version of the same peptide. The advantages and shortcomings of both direct and indirect methods are discussed. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

5.
Benzotriazole‐based coupling reagents have dominated the last two decades of solid phase peptide synthesis. However, a growing interest in synthesizing complex peptides has stimulated the search for more efficient and low‐cost coupling reagents, such as COMU which has been introduced as a nonexplosive alternative to the classic benzotriazole coupling reagents. Here, we present a comparative study of the coupling efficiency of COMU with the benzotriazole‐based HBTU and HCTU for use in in situ neutralization Boc‐SPPS. Difficult sequences, such as ACP(65–74), Jung–Redeman 10‐mer, and HIV‐1 PR(81–99), were used as model target peptides on polystyrene‐based resins, as well as polyethylene glycol‐based resins. Coupling yields obtained using fast in situ Boc‐SPPS cycles were determined with the quantitative ninhydrin test as well as via LC‐MS analysis of the crude cleavage products. Our results demonstrate that COMU coupling efficiency was less effective compared to HBTU and HCTU with HCTU ≥ HBTU > COMU, when polystyrene‐based resins were employed. However, when the PEG resin was employed in combination with a safety catch amide (SCAL) linker, more comparable yields were observed for the three coupling reagents with the same ranking HCTU ≥ HBTU > COMU. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

6.
We have been engaged in the microwave‐solid phase peptide synthesis (SPPS) synthesis of the phenylglycine (Phg)‐containing pentapeptide H‐Ala‐Val‐Pro‐Phg‐Tyr‐NH2 (1) previously demonstrated to bind to the so‐called BIR3 domain of the anti‐apoptotic protein XIAP. Analysis of the target peptide by a combination of RP‐HPLC, ESI‐MS, and NMR revealed the presence of two diastereoisomers arising out of the racemisation of the Phg residue, with the percentage of the LLLDL component assessed as 49%. We performed the synthesis of peptide (1) using different microwave and conventional stepwise SPPS conditions in attempts to reduce the level of racemisation of the Phg residue and to determine at which part of the synthetic cycle the epimerization had occurred. We determined that racemisation occurred mainly during the Fmoc‐group removal and, to a much lesser extent, during activation/coupling of the Fmoc‐Phg‐OH residue. We were able to obtain the desired peptide with a 71% diastereomeric purity (29% LLLDL as impurity) by utilizing microwave‐assisted SPPS at 50 °C and power 22 Watts, when the triazine‐derived coupling reagent DMTMM‐BF4 was used, together with NMM as an activator base, for the incorporation of this residue and 20% piperidine as an Fmoc‐deprotection base. In contrast, the phenylalanine analogue of the above peptide, H‐Ala‐Val‐Pro‐Phe‐Tyr‐NH2 (2), was always obtained as a single diastereoisomer by using a range of standard coupling and deprotection conditions. Our findings suggest that the racemisation of Fmoc‐Phg‐OH, under both microwave‐SPPS and stepwise conventional SPPS syntheses conditions, is very facile but can be limited through the use of the above stated conditions. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

7.
Cystic fibrosis (CF), a life‐shortening genetic disease, is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene that codes for the CFTR protein, the major chloride channel expressed at the apical membrane of epithelial cells. The development of an imaging probe capable of non‐invasively detect CFTR at the cell surface could be of great advantage for the management of CF. With that purpose, we synthesized the first extracellular loop of CFTR protein (ECL1) through fluorenylmethyloxycarbonyl (Fmoc)‐based microwave‐assisted solid‐phase peptide synthesis (SPPS), according to a reported methodology. However, aspartimide formation, a well‐characterized side reaction in Fmoc‐SPPS, prompted us to adopt a different side‐chain protection strategy for aspartic acid residues present in ECL1 sequence. The peptide was subsequently modified via PEGylation and biotinylation, and cyclized through disulfide bridge formation, mimicking the native loop conformation in CFTR protein. Herein, we report improvements in the synthesis of the first extracellular loop of CFTR, including peptide modifications that can be used to improve antigen presentation in phage display for selection of novel antibodies against plasma membrane CFTR.  相似文献   

8.
Attracted by the possibility to optimize time and yield of the synthesis of difficult peptide sequences by MW irradiation, we compared Fmoc/tBu MW‐assisted SPPS of 1–34 N‐terminal fragment of parathyroid hormone‐related peptide (PTHrP) with its conventional SPPS carried out at RT. MWs were applied in both coupling and deprotection steps of SPPS protocol. During the stepwise elongation of the resin‐bound peptide, monitoring was conducted by performing MW‐assisted mini‐cleavages and analyzing them by UPLC‐ESI‐MS. Identification of some deletion sequences was helpful to recognize critical couplings and as such helped to guide the introduction of MW irradiations to these stages. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

9.
Evaluating the stability of coupling reagents, quality control (QC), and surface functionalization metrology are all critical to the production of high quality peptide microarrays. We describe a broadly applicable screening technique for evaluating the fidelity of solid phase peptide synthesis (SPPS), the stability of activation/coupling reagents, and a microarray surface metrology tool. This technique was used to assess the stability of the activation reagent 1‐{[1‐(Cyano‐2‐ethoxy‐2‐oxo‐ethylidenaminooxy)dimethylamino‐morpholinomethylene]}methaneaminiumHexafluorophosphate (COMU) (Sigma‐Aldrich, St. Louis, MO, USA) by SPPS of Leu‐Enkephalin (YGGFL) or the coupling of commercially synthesized YGGFL peptides to (3‐aminopropyl)triethyoxysilane‐modified glass surfaces. Coupling efficiency was quantitated by fluorescence signaling based on immunoreactivity of the YGGFL motif. It was concluded that COMU solutions should be prepared fresh and used within 5 h when stored at ~23 °C and not beyond 24 h if stored refrigerated, both in closed containers. Caveats to gauging COMU stability by absorption spectroscopy are discussed. Commercial YGGFL peptides needed independent QC, due to immunoreactivity variations for the same sequence synthesized by different vendors. This technique is useful in evaluating the stability of other activation/coupling reagents besides COMU and as a metrology tool for SPPS and peptide microarrays. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

10.
A semi‐automated technique for massive parallel solid‐phase organic synthesis based on a “split only” strategy is described. Two different types of purpose‐oriented reaction vessels are used. The initial steps are performed in domino blocks, and the resin‐bound intermediates then split into wells of a micro plate for the last combinatorial step. The domino block is a reaction block for manual and semi‐automatic parallel solid‐phase organic synthesis that simplifies liquid exchange and integrates common synthetic steps. The synthesis in micro plates does not use any filter for separation of resin beads from the supernatant liquid, and allows high throughput parallel synthesis on solid phase to be performed. This technique, documented on examples of diverse disubstituted benzenes, includes the use of gaseous cleavage in the last synthetic step and allows the synthesis of thousands of compounds per day in mg quantities. © 1999 John Wiley & Sons, Inc. Biotechnol Bioeng (Comb Chem) 61:135–141, 1998/1999.  相似文献   

11.
A convergent synthesis for erythropoietin (EPO) 1‐28 N‐glycopeptide hydrazides was developed. In this approach, EPO 1‐28 peptides were synthesized on the solid phase and converted to C‐terminal hydrazides after cleavage from the resin. After selective deprotection of the Asp24 side chain, the desired glycosylamine was coupled by pseudoproline‐assisted Lansbury aspartylation. Although the initial yields of the EPO 1‐28 glycopeptides were satisfactory, they could be markedly improved by increasing the purity of the peptide using a reversed‐phase high‐performance liquid chromatography (RP‐HPLC) purification of the protected peptide.  相似文献   

12.
Phosphonium and uronium salt‐based reagents enable efficient and effective coupling reactions and are indispensable in peptide chemistry, especially in machine‐assisted SPPS. However, after the activating and coupling steps with these reagents in the presence of tertiary amines, Fmoc derivatives of Cys are known to be considerably racemized during their incorporation. To avoid this side reaction, a coupling method mediated by phosphonium/uronium reagents with a weaker base, such as 2,4,6‐trimethylpyridine, than the ordinarily used DIEA or that by carbodiimide has been recommended. However, these methods are appreciably inferior to the standard protocol applied for SPPS, that is, a 1 min preactivation procedure of coupling with phosphonium or uronium reagents/DIEA in DMF, in terms of coupling efficiency, and also the former method cannot reduce racemization of Cys(Trt) to an acceptable level (<1.0%) even when the preactivation procedure is omitted. Here, the 4,4′‐dimethoxydiphenylmethyl and 4‐methoxybenzyloxymethyl groups were demonstrated to be acid‐labile S‐protecting groups that can suppress racemization of Cys to an acceptable level (<1.0%) when the respective Fmoc derivatives are incorporated via the standard SPPS protocol of phosphonium or uronium reagents with the aid of DIEA in DMF. Furthermore, these protecting groups significantly reduced the rate of racemization compared to the Trt group even in the case of microwave‐assisted SPPS performed at a high temperature. © 2013 The Authors. European Peptide Society published by John Wiley & Sons, Ltd.  相似文献   

13.
A core‐shell type polymer support for solid‐phase peptide synthesis has been developed for high coupling efficiency of peptides and versatile applications such as on‐bead bioassays. Although various kinds of polymer supports have been developed, they have their own drawbacks including poor accessibility of reagents and incompatibility in aqueous solution. In this paper, we prepared hydrophilic tri(ethylene glycol) (TEG) grafted core‐shell type polymer supports (TEG SURE) for efficient solid‐phase peptide synthesis and on‐bead bioassays. TEG SURE was prepared by grafting TEG derivative on the surface of AM PS resin via biphasic diffusion control method and subsequent acetylation of amine groups which are located at the core region of AM PS resin. The performance of TEG SURE was evaluated by synthesizing several peptides. Three points can be highlighted: (1) easy control of loading level of TEG, (2) improved efficiency of peptide synthesis compared with the conventional resins, and (3) applicability of on‐bead bioassays.  相似文献   

14.
We report the first application of a novel amino-Li resin to water-based solid-phase peptide synthesis (SPPS) applying the Smoc-protecting group approach. We demonstrated that it is a suitable support for the sustainable water-based alternative to a classical SPPS approach. The resin possesses good swelling properties in aqueous milieu, provides significant coupling sites, and may be applicable to the synthesis of difficult sequences and aggregation-prone peptides.  相似文献   

15.
Structural modification of the peptide backbone via N‐methylation is a powerful tool to modulate the pharmacokinetic profile and biological activity of peptides. Here we describe a rapid and highly efficient microwave(MW)‐assisted Fmoc/tBu solid‐phase method to prepare short chain N‐methyl‐rich peptides, using Rink amide p‐methylbenzhydrylamine (MBHA) resin as solid‐phase support. This method produces peptides in high yield and purity, and reduces the time required for Fmoc‐N‐methyl amino acid coupling. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

16.
Kinetic of diffusion of reactants from the solution into the resin beads is a key factor of the efficiency of reaction in solid phase synthesis. We demonstrated in this paper that stirring is required to obtain homogeneous solution during the short coupling steps in microwave-assisted SPPS. Different types of resin, loading rate and coupling reactants were investigated to highlight this observation.  相似文献   

17.
The synthesis of ‘head‐to‐tail’ cyclized peptides requires orthogonal protecting groups. Herein, we report on the introduction of bis(2‐pyridylmethyl)amine (Bpa) as a new protecting group for carboxylic functions in SPPS. The synthesis of the Bpa‐protected aspartic acid was straightforward, and its utility was investigated under standard peptide synthesis conditions. The new protecting group was cleaved in a very mild way using Cu(OAc)2 and 2‐(trimethylsilyl)ethanol as nucleophile in a microwave oven without affecting other groups. Hence, the new group is ideally suited for the synthesis of ‘head‐to‐tail’ cyclic peptides, as demonstrated for a cyclic pentapeptide and cyclic hexapeptides. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

18.
19.
Today, Fmoc SPPS is the method of choice for peptide synthesis. Very‐high‐quality Fmoc building blocks are available at low cost because of the economies of scale arising from current multiton production of therapeutic peptides by Fmoc SPPS. Many modified derivatives are commercially available as Fmoc building blocks, making synthetic access to a broad range of peptide derivatives straightforward. The number of synthetic peptides entering clinical trials has grown continuously over the last decade, and recent advances in the Fmoc SPPS technology are a response to the growing demand from medicinal chemistry and pharmacology. Improvements are being continually reported for peptide quality, synthesis time and novel synthetic targets. Topical peptide research has contributed to a continuous improvement and expansion of Fmoc SPPS applications. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

20.
The solid‐phase synthesis, structural characterization, and biological evaluation of a small library of cancer‐targeting peptides have been determined in HepG2 hepatoblastoma cells. These peptides are based on the highly specific Pep42 motif, which has been shown to target the glucose‐regulated protein 78 receptors overexpressed and exclusively localized on the cell surface of tumors. In this study, Pep42 was designed to contain varying lengths (3–12) of poly(arginine) sequences to assess their influence on peptide structure and biology. Peptides were effectively synthesized by 9‐fluorenylmethoxycarbonyl‐based solid‐phase peptide synthesis, in which the use of a poly(ethylene glycol) resin provided good yields (14–46%) and crude purities >95% as analyzed by liquid chromatography–mass spectrometry. Peptide structure and biophysical properties were investigated using circular dichroism spectroscopy. Interestingly, peptides displayed secondary structures that were contingent on solvent and length of the poly(arginine) sequences. Peptides exhibited helical and turn conformations, while retaining significant thermal stability. Structure–activity relationship studies conducted by flow cytometry and confocal microscopy revealed that the poly(arginine) derived Pep42 sequences maintained glucose‐regulated protein 78 binding on HepG2 cells while exhibiting cell translocation activity that was contingent on the length of the poly(arginine) strand. In single dose (0.15 mM) and dose‐response (0–1.5 mM) cell viability assays, peptides were found to be nontoxic in human HepG2 liver cancer cells, illustrating their potential as safe cancer‐targeting delivery agents. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.  相似文献   

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