N,O-Benzylidene Acetal Dipeptides (NBDs) Enable the Synthesis of Difficult Peptides via a Kinked Backbone Strategy

被引:11
作者
Wu, Hongxiang [1 ]
Sun, Zhenquan [1 ]
Li, Xuechen [1 ,2 ]
机构
[1] Univ Hong Kong, Dept Chem, State Key Lab Synthet Chem, Pokfulam Rd, Hong Kong, Peoples R China
[2] Ocean Univ China, Sch Med & Pharm, Lab Marine Drugs & Bioprod, Qingdao Natl Lab Marine Sci & Technol, Qingdao 266003, Peoples R China
来源
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION | 2023年 / 62卷 / 44期
关键词
Chemical Protein Synthesis; Difficult Peptide; Dipeptide Reagent; Hydrophobic Peptide; Solid-Phase Peptide Synthesis; PROTEIN CHEMICAL-SYNTHESIS; POSTTRANSLATIONAL MODIFICATION; BUILDING-BLOCKS; AGGREGATION; PREDICTION; SEQUENCES; SERINE;
D O I
10.1002/anie.202310624
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
Proteins with highly hydrophobic regions or aggregation-prone sequences are typically difficult targets for chemical synthesis at the current stage, as obtaining such type of peptides via solid-phase peptide synthesis requires sophisticated operations. Herein, we report N,O-benzylidene acetal dipeptides (NBDs) as robust and effective building blocks to allow the direct synthesis of difficult peptides and proteins via a kinked backbone strategy. The effectiveness and easy accessibility of NBDs have been well demonstrated in our chemical syntheses of various challenging peptides and proteins, including chemokine, therapeutic hormones, histone, and glycosylated erythropoietin.
引用
收藏
页数:10
相关论文
共 66 条
[1]   Strategies and open questions in solid-phase protein chemical synthesis Vangelis Agouridas, Vincent Diemer and Oleg Melnyk [J].
Agouridas, Vangelis ;
Diemer, Vincent ;
Melnyk, Oleg .
CURRENT OPINION IN CHEMICAL BIOLOGY, 2020, 58 :1-9
[2]   Native Chemical Ligation and Extended Methods: Mechanisms, Catalysis, Scope, and Limitations [J].
Agouridas, Vangelis ;
El Mahdi, Ouafaa ;
Diemer, Vincent ;
Cargoet, Marine ;
Monbaliu, Jean-Christophe M. ;
Melnyk, Oleg .
CHEMICAL REVIEWS, 2019, 119 (12) :7328-7443
[3]   The crucial role of protein phosphorylation in cell signaling and its use as targeted therapy [J].
Ardito, Fatima ;
Giuliani, Michele ;
Perrone, Donatella ;
Troiano, Giuseppe ;
Lo Muzio, Lorenzo .
INTERNATIONAL JOURNAL OF MOLECULAR MEDICINE, 2017, 40 (02) :271-280
[4]   Chemical Synthesis of O-Glycosylated Human Interleukin-2 by the Reverse Polarity Protection Strategy [J].
Asahina, Yuya ;
Komiya, Shinobu ;
Ohagi, Ami ;
Fujimoto, Rina ;
Tamagaki, Hiroko ;
Nakagawa, Katsuhiro ;
Sato, Takashi ;
Akira, Shizuo ;
Takao, Toshifumi ;
Ishii, Akira ;
Nakahara, Yoshiaki ;
Hojo, Hironobu .
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2015, 54 (28) :8226-8230
[5]   Total chemical synthesis of crambin [J].
Bang, D ;
Chopra, N ;
Kent, SBH .
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2004, 126 (05) :1377-1383
[6]   Chemical Protein Synthesis with the α-Ketoacid-Hydroxylamine Ligation [J].
Bode, Jeffrey W. .
ACCOUNTS OF CHEMICAL RESEARCH, 2017, 50 (09) :2104-2115
[7]   GlyProt:: in silico glycosylation of proteins [J].
Bohne-Lang, A ;
von der Lieth, CW .
NUCLEIC ACIDS RESEARCH, 2005, 33 :W214-W219
[8]   Synthesis of 'difficult' peptide sequences:: application of a depsipeptide technique to the Jung-Redemann 10- and 26-mers and the amyloid peptide Aβ(1-42) [J].
Carpino, LA ;
Krause, E ;
Sferdean, CD ;
Schümann, M ;
Fabian, H ;
Bienert, M ;
Beyermann, M .
TETRAHEDRON LETTERS, 2004, 45 (40) :7519-7523
[9]   Blocking of the PD-1/PD-L1 Interaction by a D-Peptide Antagonist for Cancer Immunotherapy [J].
Chang, Hao-Nan ;
Liu, Bei-Yuan ;
Qi, Yun-Kun ;
Zhou, Yang ;
Chen, Yan-Ping ;
Pan, Kai-Mai ;
Li, Wen-Wen ;
Zhou, Xiu-Man ;
Ma, Wei-Wei ;
Fu, Cai-Yun ;
Qi, Yuan-Ming ;
Liu, Lei ;
Gao, Yan-Feng .
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2015, 54 (40) :11760-11764
[10]   Post-translational Modifications of the Protein Termini [J].
Chen, Li ;
Kashina, Anna .
FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY, 2021, 9
1234567