Here, we report a new approach of on-resin peptide ligation using C-terminal benzyl ester as the stabilized precursor of thioester, which enables both N-terminal elongation and C-terminal peptide ligation on a Rink Am...Here, we report a new approach of on-resin peptide ligation using C-terminal benzyl ester as the stabilized precursor of thioester, which enables both N-terminal elongation and C-terminal peptide ligation on a Rink Amide resin. On-resin native chemical ligation and auxiliary-assisted peptide ligation were successfully achieved. This method is compatible to both protected and unprotected peptide fragments and has potential application in poor water-soluble peptide ligation.展开更多
For the proteins that cannot be expressed exactly by cell expression technology(e.g., proteins with multiple posttranslational modifications or toxic proteins), chemical synthesis is an important substitute. Given the...For the proteins that cannot be expressed exactly by cell expression technology(e.g., proteins with multiple posttranslational modifications or toxic proteins), chemical synthesis is an important substitute. Given the limited peptide length offered by solid-phase peptide synthesis invented by Professor Merrifield, peptide ligation plays a key role in long peptide or protein synthesis by ligating two small peptides to a long one. Moreover, high-molecularweight proteins must be synthesized using two or more peptide ligation steps, and sequential peptide ligation is such an efficient way. In this paper, we reviewed the development of chemical protein synthesis, including solid-phase peptide synthesis, chemical ligation, and sequential chemical ligation.展开更多
The synthesis of carboxymethyl cellulose (CMC)-multipeptide conjugate is reported in the present paper. This new type of peptide-polymer surrogate possesses some merits, such as ease of synthesis, high density of pept...The synthesis of carboxymethyl cellulose (CMC)-multipeptide conjugate is reported in the present paper. This new type of peptide-polymer surrogate possesses some merits, such as ease of synthesis, high density of peptide, and the possibility of increased bioavailability, and seems to have promising uses in drug development.展开更多
On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-...On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-neutral approach for solid-phase Met diversification with substrate diversity, which could be applied to synthesize cyclic peptides of different sizes.展开更多
Artificial synthesis and site-specific modification of peptides and proteins has evolved into an indispensable tool for protein engineers and chemical biologists. Chemical and enzymatic approaches to peptide ligation ...Artificial synthesis and site-specific modification of peptides and proteins has evolved into an indispensable tool for protein engineers and chemical biologists. Chemical and enzymatic approaches to peptide ligation are important alternatives of recombinant DNA technology for protein synthesis and modification. Although as old as that of chemical procedures, enzyme-mediated peptide ligation is far less developed than that of chemical counterpart due to the difficult availability of peptide ligase.Fortunately, this situation has been changed slowly with the fast development of biological techniques. In the past decades, several natural peptide ligases have been discovered. Protein engineering to improve the ligation efficiencies of the natural peptide ligase and to reverse the functionality of protease provide more powerful peptide ligases. In this review, the advances of enzyme-mediated peptide ligation and their application in protein synthesis and modification will be discussed.展开更多
Chemical synthesis of peptides and proteins has evolved into an indispensable tool for chemical biology. Peptide ligation is a straightforward technique for joining two short peptide fragments together via a native pe...Chemical synthesis of peptides and proteins has evolved into an indispensable tool for chemical biology. Peptide ligation is a straightforward technique for joining two short peptide fragments together via a native peptide bond to afford a larger natural peptide or protein. However, the junction sites are limited to several specific amino acids because most peptide ligations involve participation of the side-chain functional groups of the junction-site amino acids. To overcome such intrinsic limitations, "general"peptide ligations which do not rely on the side-chain functional group have been developed. This review summarized the recent developments in peptide ligations that are independent of side-chain functional group of ligation-junction-site amino acid.展开更多
Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cycl...Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cyclic peptides. The γ-hydroxyl group triggers the ring-chain tautomerization via a 6-endo-trig process,while the δ-hydroxyl group facilitates the oxidative cleavage of the vicinal diol to give carboxylic acid.展开更多
P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptide...P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptides 2–5 were designed as Sortase A substrates and synthesized by solid support peptide synthesis,where the N-terminus were equipped with glycine and its analogues, and C-terminus were extended with LPETGGS, respectively. Under Sortase A catalyzed condition, head to tail cyclization products 7–10were afforded in yields from 76% to 93%. The conformation insights of linear peptides 2–5 and cyclic analogues 7–10 in aqueous buffers and in trifluroethanol(TFE) analyzed by circular dichroism(CD)suggested that a-helix structures were produced progressively in hydrophobic environment independent of the cyclization, which displayed the similar behavior as parent peptide P-113.展开更多
基金supported by Hunan Provincial Innovation Foundation for Postgraduate (China) (No. CX2017B546)the National Natural Science Foundation of China (No. 21572244)
文摘Here, we report a new approach of on-resin peptide ligation using C-terminal benzyl ester as the stabilized precursor of thioester, which enables both N-terminal elongation and C-terminal peptide ligation on a Rink Amide resin. On-resin native chemical ligation and auxiliary-assisted peptide ligation were successfully achieved. This method is compatible to both protected and unprotected peptide fragments and has potential application in poor water-soluble peptide ligation.
基金supported by the National Natural Science Foundation of China(No.81400680,No.31500723)the National Science Foundation of Tianjin(No.17JCQNJC12800)+1 种基金Tianjin Science and Technology Plan Project(No.14RCGFSY00147)International S&T Cooperation Program of China(No.2015DFG31850)
文摘For the proteins that cannot be expressed exactly by cell expression technology(e.g., proteins with multiple posttranslational modifications or toxic proteins), chemical synthesis is an important substitute. Given the limited peptide length offered by solid-phase peptide synthesis invented by Professor Merrifield, peptide ligation plays a key role in long peptide or protein synthesis by ligating two small peptides to a long one. Moreover, high-molecularweight proteins must be synthesized using two or more peptide ligation steps, and sequential peptide ligation is such an efficient way. In this paper, we reviewed the development of chemical protein synthesis, including solid-phase peptide synthesis, chemical ligation, and sequential chemical ligation.
文摘The synthesis of carboxymethyl cellulose (CMC)-multipeptide conjugate is reported in the present paper. This new type of peptide-polymer surrogate possesses some merits, such as ease of synthesis, high density of peptide, and the possibility of increased bioavailability, and seems to have promising uses in drug development.
基金financial supported by the National Natural Science Foundation of China (No. 22077144)Guangdong Natural Science Funds for Distinguished Young Scholar (No.2018B030306017)+1 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery (No. 2019B030301005)Key Research and Development Program of Guangdong Province (No.2020B1111110003)。
文摘On-resin peptide modification renders an easy-to-operate method that combines solid-phase peptide synthesis efficiency and avoids tedious purification procedures. Herein, we report the transition-metal-free and redox-neutral approach for solid-phase Met diversification with substrate diversity, which could be applied to synthesize cyclic peptides of different sizes.
基金The National Natural Science Foundation of China (Nos. 21462023, 21778025)the Education Department of Jiangxi Province (No.150297)
文摘Artificial synthesis and site-specific modification of peptides and proteins has evolved into an indispensable tool for protein engineers and chemical biologists. Chemical and enzymatic approaches to peptide ligation are important alternatives of recombinant DNA technology for protein synthesis and modification. Although as old as that of chemical procedures, enzyme-mediated peptide ligation is far less developed than that of chemical counterpart due to the difficult availability of peptide ligase.Fortunately, this situation has been changed slowly with the fast development of biological techniques. In the past decades, several natural peptide ligases have been discovered. Protein engineering to improve the ligation efficiencies of the natural peptide ligase and to reverse the functionality of protease provide more powerful peptide ligases. In this review, the advances of enzyme-mediated peptide ligation and their application in protein synthesis and modification will be discussed.
基金supported by the National Natural Science Foundation of China (21462023), and the Natural Science Foundation of Jiangxi Province (20143ACB20007, 20153BCB23018)
文摘Chemical synthesis of peptides and proteins has evolved into an indispensable tool for chemical biology. Peptide ligation is a straightforward technique for joining two short peptide fragments together via a native peptide bond to afford a larger natural peptide or protein. However, the junction sites are limited to several specific amino acids because most peptide ligations involve participation of the side-chain functional groups of the junction-site amino acids. To overcome such intrinsic limitations, "general"peptide ligations which do not rely on the side-chain functional group have been developed. This review summarized the recent developments in peptide ligations that are independent of side-chain functional group of ligation-junction-site amino acid.
基金supported by the Research Grants Council (Nos. 17309616, C6009-15G) of Hong KongThe National Science Foundation of China (Nos. 21672180, 91753101)the Area of Excellence Scheme of the University of Grants Committee of Hong Kong (No. AoE/P-705/16)
文摘Based on a mechanism analogous to the serine/threonine ligation, the aspartic acid ligation, which is facilitated by the γ-amino alcohol based ligation and oxidation, is developed and applied to the synthesis of cyclic peptides. The γ-hydroxyl group triggers the ring-chain tautomerization via a 6-endo-trig process,while the δ-hydroxyl group facilitates the oxidative cleavage of the vicinal diol to give carboxylic acid.
基金supported by the National Natural Science Foundation of China(No.21472070)the Project for Jiangsu Scientific and Technological Innovation Team+2 种基金Fund for Jiangsu Distinguished Professorship ProgramProject Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions,the 111 Project(No.111-2-06)the Jiangsu province“Collaborative Innovation Center for Advanced Industrial Fermentation”industry development program
文摘P-113 is a fragment of natural occurring peptide Histatin 5 found in human saliva. This peptide exhibited broad spectrum of antibacterial and antifungal biological activities. In this study, bifunctional P-113 peptides 2–5 were designed as Sortase A substrates and synthesized by solid support peptide synthesis,where the N-terminus were equipped with glycine and its analogues, and C-terminus were extended with LPETGGS, respectively. Under Sortase A catalyzed condition, head to tail cyclization products 7–10were afforded in yields from 76% to 93%. The conformation insights of linear peptides 2–5 and cyclic analogues 7–10 in aqueous buffers and in trifluroethanol(TFE) analyzed by circular dichroism(CD)suggested that a-helix structures were produced progressively in hydrophobic environment independent of the cyclization, which displayed the similar behavior as parent peptide P-113.
