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1.
A Type of Auxiliary for Native Chemical Peptide Ligation beyond Cysteine and Glycine Junctions 下载免费PDF全文
Simon F. Loibl Ziv Harpaz Prof. Dr. Oliver Seitz 《Angewandte Chemie (International ed. in English)》2015,54(50):15055-15059
Native chemical ligation enables the chemical synthesis of proteins. Previously, thiol‐containing auxiliary groups have been used to extend the reaction scope beyond N‐terminal cysteine residues. However, the N‐benzyl‐type auxiliaries used so far result in rather low reaction rates. Herein, a new Nα‐auxiliary is presented. Consideration of a radical fragmentation for cleavage led to the design of a new auxiliary group which is selectively removed under mildly basic conditions (pH 8.5) in the presence of TCEP and morpholine. Most importantly and in contrast to previously described auxiliaries, the 2‐mercapto‐2‐phenethyl auxiliary is not limited to Gly‐containing sites and ligations succeed at sterically demanding junctions. The auxiliary is introduced in high yield by on‐resin reductive amination with commercially available amino acid building blocks. The synthetic utility of the method is demonstrated by the synthesis of two antimicrobial proteins, DCD‐1L and opistoporin‐2. 相似文献
2.
Leveraging the Knorr Pyrazole Synthesis for the Facile Generation of Thioester Surrogates for use in Native Chemical Ligation 下载免费PDF全文
Dillon T. Flood Jordi C. J. Hintzen Michael J. Bird Philip A. Cistrone Jason S. Chen Dr. Philip E. Dawson 《Angewandte Chemie (International ed. in English)》2018,57(36):11634-11639
Facile synthesis of C‐terminal thioesters is integral to native chemical ligation (NCL) strategies for chemical protein synthesis. We introduce a new method of mild peptide activation, which leverages solid‐phase peptide synthesis (SPPS) on an established resin linker and classical heterocyclic chemistry to convert C‐terminal peptide hydrazides into their corresponding thioesters via an acyl pyrazole intermediate. Peptide hydrazides, synthesized on established trityl chloride resins, can be activated in solution with stoichiometric acetyl acetone (acac), readily proceed to the peptide acyl pyrazoles. Acyl pyrazoles are mild acylating agents and are efficiently exchanged with an aryl thiol, which can then be directly utilized in NCL. The mild, chemoselective, and stoichiometric activating conditions allow this method to be utilized through multiple sequential ligations without intermediate purification steps. 相似文献
3.
Yi Tan Jiasheng Li Kang Jin Jiamei Liu Ziyong Chen Jun Yang Xuechen Li 《Angewandte Chemie (International ed. in English)》2020,59(31):12741-12745
The chemical ligation of two unprotected peptides to generate a natural peptidic linkage specifically at the C‐ and N‐termini is a desirable goal in chemical protein synthesis but is challenging because it demands high reactivity and selectivity (chemo‐, regio‐, and stereoselectivity). We report an operationally simple and highly effective chemical peptide ligation involving the ligation of peptides with C‐terminal salicylaldehyde esters to peptides with N‐terminal cysteine/penicillamine. The notable features of this method include its tolerance of steric hinderance from the side groups on either ligating terminus, thereby allowing flexible disconnection at sites that are otherwise difficult to functionalize. In addition, this method can be expanded to selective desulfurization and one‐pot ligation‐desulfurization reactions. The effectiveness of this method was demonstrated by the synthesis of VISTA (216‐311), PD‐1 (192‐288) and Eglin C. 相似文献
4.
The method of native chemical ligation between an unprotected peptide α‐thioester and an N‐terminal cysteine–peptide to give a native peptide in aqueous solution is one of the most effective peptide ligation methods. In this work, a systematic theoretical study was carried out to fully understand the detailed mechanism of ligation. It was found that for the conventional native chemical ligation reaction between a peptide thioalkyl ester and a cysteine in combination with an added aryl thiol as catalyst, both the thiol‐thioester exchange step and the transthioesterification step proceed by an anionic concerted SN2 displacement mechanism, whereas the intramolecular rearrangement proceeds by an addition–elimination mechanism, and the rate‐limiting step is the thiol‐thioester exchange step. The theoretical method was then extended to study the detailed mechanism of the auxiliary‐mediated peptide ligation between a peptide thiophenyl ester and an N‐2‐mercaptobenzyl peptide in which both the thiol‐thioester exchange step and intramolecular acyl‐transfer step proceed by a concerted SN2‐type displacement mechanism. The energy barrier of the thiol‐thioester exchange step depends on the side‐chain steric hindrance of the C‐terminal amino acid, whereas that of the acyl‐transfer step depends on the side‐chain steric hindrance of the N‐terminal amino acid. 相似文献
5.
Chemical Synthesis of the 20 kDa Heme Protein Nitrophorin 4 by α‐Ketoacid‐Hydroxylamine (KAHA) Ligation 下载免费PDF全文
Dr. Chunmao He Dr. Sameer S. Kulkarni Dr. Frédéric Thuaud Prof. Dr. Jeffrey W. Bode 《Angewandte Chemie (International ed. in English)》2015,54(44):12996-13001
The chemical synthesis of the 184‐residue ferric heme‐binding protein nitrophorin 4 was accomplished by sequential couplings of five unprotected peptide segments using α‐ketoacid‐hydroxylamine (KAHA) ligation reactions. The fully assembled protein was folded to its native structure and coordinated to the ferric heme b cofactor. The synthetic holoprotein, despite four homoserine residues at the ligation sites, showed identical properties to the wild‐type protein in nitric oxide binding and nitrite dismutase reactivity. This work establishes the KAHA ligation as a valuable and viable approach for the chemical synthesis of proteins up to 20 kDa and demonstrates that it is well‐suited for the preparation of hydrophobic protein targets. 相似文献
6.
Dr. Julien Tailhades Ashish Sethi Dr. Emma J. Petrie Prof. Dr. Paul R. Gooley Prof. Dr. Ross A. Bathgate Prof. Dr. John D. Wade Dr. Mohammed A. Hossain 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(3):1146-1151
The inhibition of the G protein‐coupled receptor, relaxin family peptide receptor 1 (RXFP1), by a small LDLa protein may be a potential approach for prostate cancer treatment. However, it is a significant challenge to chemically produce the 41‐residue and three‐disulfide cross‐bridged LDLa module which is highly prone to aspartimide formation due to the presence of several aspartic acid residues. Known palliative measures, including addition of HOBt to piperidine for Nα‐deprotection, failed to completely overcome this side reaction. For this reason, an elegant native chemical ligation approach was employed in which two segments were assembled for generating the linear LDLa protein. Acquisition of correct folding was achieved by using either a regioselective disulfide bond formation or global oxidation strategies. The final synthetic LDLa protein obtained was characterized by NMR spectroscopic structural analysis after chelation with a Ca2+ ion and confirmed to be equivalent to the same protein obtained by recombinant DNA production. 相似文献
7.
Dr. Vincent Diemer Olga Firstova Dr. Vangelis Agouridas Dr. Oleg Melnyk 《Chemistry (Weinheim an der Bergstrasse, Germany)》2022,28(16):e202104229
The native chemical ligation reaction of peptide thioesters with cysteinyl peptides is a pivotal chemical process in the production of native or modified peptides and proteins, and well beyond in the preparation of various biomolecule analogs and materials. To benefit from this reaction at its fullest and to access all the possible applications, the experimentalist needs to know the factors affecting its rate and how to control it. This concept article presents the fundamental principles underlying the rate of the native chemical ligation and its homogeneous catalysis by nucleophiles. It has been prepared to serve as a quick guide in the search for an appropriate catalyst. 相似文献
8.
Dong‐Liang Huang Cdric Montigny Yong Zheng Veronica Beswick Ying Li Xiu‐Xiu Cao Thomas Barbot Christine Jaxel Jun Liang Min Xue Chang‐Lin Tian Nadge Jamin Ji‐Shen Zheng 《Angewandte Chemie (International ed. in English)》2020,59(13):5178-5184
The preparation of native S‐palmitoylated (S‐palm) membrane proteins is one of the unsolved challenges in chemical protein synthesis. Herein, we report the first chemical synthesis of S‐palm membrane proteins by removable‐backbone‐modification‐assisted Ser/Thr ligation (RBMGABA‐assisted STL). This method involves two critical steps: 1) synthesis of S‐palm peptides by a new γ‐aminobutyric acid based RBM (RBMGABA) strategy, and 2) ligation of the S‐palm RBM‐modified peptides to give the desired S‐palm product by the STL method. The utility of the RBMGABA‐assisted STL method was demonstrated by the synthesis of rabbit S‐palm sarcolipin (SLN) and S‐palm matrix‐2 (M2) ion channel. The synthesis of S‐palm membrane proteins highlights the importance of developing non‐NCL methods for chemical protein synthesis. 相似文献
9.
Akira Otaka Kohei Sato Hao Ding Akira Shigenaga 《Chemical record (New York, N.Y.)》2012,12(5):479-490
N‐Sulfanylethylanilide (SEAlide) peptides were developed with the aim of achieving facile synthesis of peptide thioesters by 9‐fluorenylmethyloxycarbonyl (Fmoc)‐based solid‐phase peptide synthesis (Fmoc SPPS). Initially, SEAlide peptides were found to be converted to the corresponding peptide thioesters under acidic conditions. However, the SEAlide moiety was proved to function as a thioester in the presence of phosphate salts and to participate in native chemical ligation (NCL) with N‐terminal cysteinyl peptides, and this has served as a powerful protein synthesis methodology. The reactivity of a SEAlide peptide (anilide vs. thioester) can be easily tuned with or without the use of phosphate salts. This interesting property of SEAlide peptides allows sequential three‐fragment or unprecedented four‐fragment ligation for efficient one‐pot peptide/protein synthesis. Furthermore, dual‐kinetically controlled ligation, which enables three peptide fragments simultaneously present in the reaction to be ligated in the correct order, was first achieved using a SEAlide peptide. Beyond our initial expectations, SEAlide peptides have served in protein chemistry fields as very useful crypto‐peptide thioesters. DOI 10.1002/tcr.201200007 相似文献
10.
Efficient Palladium‐Assisted One‐Pot Deprotection of (Acetamidomethyl)Cysteine Following Native Chemical Ligation and/or Desulfurization To Expedite Chemical Protein Synthesis 下载免费PDF全文
Dr. Suman Kumar Maity Muhammad Jbara Shay Laps Prof. Ashraf Brik 《Angewandte Chemie (International ed. in English)》2016,55(28):8108-8112
The acetamidomethyl (Acm) moiety is a widely used cysteine protecting group for the chemical synthesis and semisynthesis of peptide and proteins. However, its removal is not straightforward and requires harsh reaction conditions and additional purification steps before and after the removal step, which extends the synthetic process and reduces the overall yield. To overcome these shortcomings, a method for rapid and efficient Acm removal using PdII complexes in aqueous medium is reported. We show, for the first time, the assembly of three peptide fragments in a one‐pot fashion by native chemical ligation where the Acm moiety was used to protect the N‐terminal Cys of the middle fragment. Importantly, an efficient synthesis of the ubiquitin‐like protein UBL‐5, which contains two native Cys residues, was accomplished through the one‐pot operation of three key steps, namely ligation, desulfurization, and Acm deprotection, highlighting the great utility of the new approach in protein synthesis. 相似文献
11.
Nicolas Brauckhoff Dr. Gernot Hahne Dr. Johannes T.‐H. Yeh Dr. Tom N. Grossmann 《Angewandte Chemie (International ed. in English)》2014,53(17):4337-4340
Molecular templates bind particular reactants, thereby increasing their effective concentrations and accelerating the corresponding reaction. This concept has been successfully applied to a number of chemical problems with a strong focus on nucleic acid templated reactions. We present the first protein‐templated reaction that allows N‐terminal linkage of two peptides. In the presence of a protein template, ligation reactions were accelerated by more than three orders of magnitude. The templated reaction is highly selective and proved its robustness in a protein‐labeling reaction that was performed in crude cell lysate. 相似文献
12.
Dr. Roberto J. Brea Christian M. Cole Prof. Neal K. Devaraj 《Angewandte Chemie (International ed. in English)》2014,53(51):14102-14105
Phospholipid vesicles are of intense fundamental and practical interest, yet methods for their de novo generation from reactive precursors are limited. A non‐enzymatic and chemoselective method to spontaneously generate phospholipid membranes from water‐soluble starting materials would be a powerful tool for generating vesicles and studying lipid membranes. Here we describe the use of native chemical ligation (NCL) to rapidly prepare phospholipids spontaneously from thioesters. While NCL is one of the most popular tools for synthesizing proteins and nucleic acids, to our knowledge this is the first example of using NCL to generate phospholipids de novo. The lipids are capable of in situ synthesis and self‐assembly into vesicles that can grow to several microns in diameter. The selectivity of the NCL reaction makes in situ membrane formation compatible with biological materials such as proteins. This work expands the application of NCL to the formation of phospholipid membranes. 相似文献
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A PEGylated Photocleavable Auxiliary Mediates the Sequential Enzymatic Glycosylation and Native Chemical Ligation of Peptides 下载免费PDF全文
Dr. Claudia Bello Dr. Shuo Wang Dr. Lu Meng Prof. Dr. Kelley W. Moremen Prof. Dr. Christian F. W. Becker 《Angewandte Chemie (International ed. in English)》2015,54(26):7711-7715
Research aimed at understanding the specific role of glycosylation patterns in protein function would greatly benefit from additional approaches allowing direct access to homogeneous glycoproteins. Herein the development and application of an efficient approach for the synthesis of complex homogenously glycosylated peptides based on a multifunctional photocleavable auxiliary is described. The presence of a PEG polymer within the auxiliary enables sequential enzymatic glycosylation and straightforward isolation in excellent yields. The auxiliary‐modified peptides can be directly used in native chemical ligations with peptide thioesters easily obtained by direct hydrazinolysis of the respective glycosylated peptidyl resins and subsequent oxidation. The ligated glycopeptides can be smoothly deprotected by UV irradiation. We apply this approach to the preparation of variants of the epithelial tumor marker MUC1 carrying one or more Tn, T, or sialyl‐T antigens. 相似文献
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Chemical Ligation and Isotope Labeling to Locate Dynamic Effects during Catalysis by Dihydrofolate Reductase 下载免费PDF全文
Dr. Louis Y. P. Luk Dr. J. Javier Ruiz‐Pernía Aduragbemi S. Adesina Dr. E. Joel Loveridge Dr. Iñaki Tuñón Prof. Dr. Vincent Moliner Prof. Dr. Rudolf K. Allemann 《Angewandte Chemie (International ed. in English)》2015,54(31):9016-9020
Chemical ligation has been used to alter motions in specific regions of dihydrofolate reductase from E. coli and to investigate the effects of localized motional changes on enzyme catalysis. Two isotopic hybrids were prepared; one with the mobile N‐terminal segment containing heavy isotopes (2H, 13C, 15N) and the remainder of the protein with natural isotopic abundance, and the other one with only the C‐terminal segment isotopically labeled. Kinetic investigations indicated that isotopic substitution of the N‐terminal segment affected only a physical step of catalysis, whereas the enzyme chemistry was affected by protein motions from the C‐terminal segment. QM/MM studies support the idea that dynamic effects on catalysis mostly originate from the C‐terminal segment. The use of isotope hybrids provides insights into the microscopic mechanism of dynamic coupling, which is difficult to obtain with other studies, and helps define the dynamic networks of intramolecular interactions central to enzyme catalysis. 相似文献
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Controlling Peptide Self‐Assembly through a Native Chemical Ligation/Desulfurization Strategy 下载免费PDF全文
Self‐assembled peptides were synthesized by using a native chemical ligation (NCL)/desulfurization strategy that maintained the chemical diversity of the self‐assembled peptides. Herein, we employed oxo‐ester‐mediated NCL reactions to incorporate cysteine, a cysteine‐based dipeptide, and a sterically hindered unnatural amino acid (penicillamine) into peptides. Self‐assembly of the peptides resulted in the formation of self‐supporting gels. Microscopy analysis indicated the formation of helical nanofibers, which were responsible for the formation of gel matrices. The self‐assembly of the ligated peptides was governed by covalent and non‐covalent interactions, as confirmed by FTIR, CD, fluorescence spectroscopy, and MS (ESI) analyses. Peptide disassembly was induced by desulfurization reactions with tris(2‐carboxyethyl)phosphine (TCEP) and glutathione at 80 °C. Desulfurization reactions of the ligated peptides converted the Cys and penicillamine functionalities into Ala and Val moieties, respectively. The self‐supporting gels showed significant shear‐thinning and thixotropic properties. 相似文献
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Imidazole‐Aided Native Chemical Ligation: Imidazole as a One‐Pot Desulfurization‐Amenable Non‐Thiol‐Type Alternative to 4‐Mercaptophenylacetic Acid 下载免费PDF全文
Ken Sakamoto Dr. Shugo Tsuda Dr. Masayoshi Mochizuki Yukie Nohara Dr. Hideki Nishio Dr. Taku Yoshiya 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(50):17940-17944
Various bioactive proteins have been synthesized by native chemical ligation (NCL) and its combination with subsequent desulfurization (e.g., conversion from Cys to Ala). In NCL, excess 4‐mercaptophenylacetic acid (MPAA) is generally added to facilitate the reaction. However, co‐elution of MPAA with the ligation product during preparative high‐performance liquid chromatography sometimes reduces its usefulness. In addition, contamination of MPAA disturbs subsequent desulfurization. Here, we report for the first time that imidazole can be adopted as an alternative to MPAA in NCL using a peptide‐alkylthioester. The efficiency of the imidazole‐aided NCL (Im‐NCL) is similar to that of traditional MPAA‐aided NCL. As model cases, we successfully synthesized adiponectin(19‐107) and [Ser(PO3H2)65]‐ubiquitin using Im‐NCL with a one‐pot desulfurization. 相似文献