Cysteine/Penicillamine Ligation Independent of Terminal Steric Demands for Chemical Protein Synthesis

Tan, Yi; Li, Jiasheng; Jin, Kang; Liu, Jiamei; Chen, Ziyong; Yang, Jun; Li, Xuechen

doi:10.1002/anie.202003652

Cited by 30 publications

(30 citation statements)

References 31 publications

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“…Please do not adjust margins Please do not adjust margins The RST strategy allows for the late-stage installing solubilizing tags, making it possible for solubilizing expressed protein segments. Ser/Thr ligation and Cys/Pen ligation conditions do not involve reducing agents [17][18] , therefore we envisaged that the solubilizing tags could be incorporated into the peptide via a disulfide linker which would be stable during the ligation process. After the ligation step, the solubilizing tags could be readily removed upon TCEP treatment or desulfurization [42] , regenerating the free cysteine or alanine (Fig.…”

Section: Articlementioning

confidence: 99%

“…[1][2] The peptide ligation allows for peptide assembly with side chain unprotected peptides specifically at the C-/N-terminus with high chemo-, regio-and stereo-selectivity. [3][4] With the advancement in the ligation toolbox over the past decades, including native chemical ligation (NCL) and its variant [5] , KAHA ligation [6] , Ser/Thr ligation (STL) [7][8][9][10][11][12][13][14][15][16][17] and Cys/Pen ligation (CPL) [18] , there are many options for designing protein retrosynthetic strategies. One of often-met problems is the poor solubility of the peptide segments for ligation.…”

Section: Introductionmentioning

confidence: 99%

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Enabling chemical protein (semi)synthesis via reducible solubilizing tags (RSTs)

et al. 2022

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Section: Articlementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enabling chemical protein (semi)synthesis via reducible solubilizing tags (RSTs)

et al. 2022

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“…[50] Lee and Li recently reported a repurposed chemical strategy based on an O-salicylaldehyde ester. [51,52] This approach has been used previously and is still being used to modify the N-terminal 1,2-aminoalcohol group of serine and threonine in protein semisynthesis (Figure 3A). [53][54][55] To repurpose this strategy, Lee et al…”

Section: Aldehyde Derivatives Via Thiazolidine Formationmentioning

confidence: 99%

Recent advances in protein modifications techniques for the targeting N‐terminal cysteine

Nicholas

Mazid

Murale³

et al. 2021

Peptide Science

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N-terminal modifications of proteins have garnered the attention of chemical biologists because of their critical roles in numerous cellular processes, including protein translocation, protein structural and metabolic stability, and the regulation of the half-life of proteins by a process known as "N-end rule pathway." In addition, other posttranslational modification processes also depend on the N-terminal signal sequences. Chemical probes are powerful tools that can be used to investigate N-terminal modifications, to gain structural and functional insights into protein modification, protein-protein interactions, protein localization, and protein dynamics. Most modifications target cysteine and lysine residues because of their high nucleophilicity. However, due to multiple occurrences of these residues in a protein at a given time, regioselective labeling can be quite difficult to accomplish. N-terminal cysteine presents itself as a unique practical option to overcome regioselectivity and site-specificity challenges. This review provides an overview of N-terminal cysteine labeling tools, including N-terminal cysteine condensation with aldehydes, cyanobenzothiazoles, cyclopropenones, and trans-thioesterification. The review also highlights the technical challenges of each of the techniques, which need to be addressed to broaden the scope of these approaches.

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“…Thr and Pro). [28] STL and CPL have been widely used for synthesis of cyclic peptides and proteins. [29][30][31][32][33][34][35][36][37][38][39][40][41][42] As a further advance, STL/CPL-based protein semi-synthesis will be of great importance for large protein synthesis.…”

Section: Introductionmentioning

confidence: 99%

“…Accessing proteins with desired natural or unnatural modifications is important yet challenging to correlate structure to function in the investigation of protein post-translational modifications (PTMs). [1,2] Due to the non-template biogenesis of PTMs, biologically controlled methods cannot be used to produce homogeneous proteins bearing site-specific PTMs with precision and flexibility. Alternatively, advances in chemoselective peptide ligation chemistry enable peptide chemical synthesis to readily reach the protein domains comprising of 100-300 amino acid residues in general.…”

Section: Introductionmentioning

confidence: 99%

Revealing the function of HMGB1 N-terminal acetylation by a protein semi-synthesis approach

Wei

Liu

Tan

et al. 2021

Preprint

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To answer how protein post-translational modifications (PTMs) affect protein function, conformation, sta-bility, localization and interaction with binders remains important in the biological study. However, the re-lated study has been dramatically hindered by the difficulty in obtaining homogenous proteins with site-specific PTMs of interest. Herein, we introduce a protein semi-synthesis strategy via salicylaldehyde ester-mediated chemical ligations (Ser/Thr ligation and Cys/Pen ligation). This methodology has enabled us to generate Lys (2/6/7/11) tetra-acetylated HMGB1 (high-mobility group box 1) protein, a 25 kDa proin-flammatory protein, in high purity. Further studies revealed that the tetra-acetylation may represent a regu-latory switch to control the HMGB1 signaling pathway by abolishing its interaction with lipopolysaccha-ride (LPS) and accelerating its degradation, consequently preventing cells from pyroptosis and lethality upon infectious injury.

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Cysteine/Penicillamine Ligation Independent of Terminal Steric Demands for Chemical Protein Synthesis

Cited by 30 publications

References 31 publications

Enabling chemical protein (semi)synthesis via reducible solubilizing tags (RSTs)

Enabling chemical protein (semi)synthesis via reducible solubilizing tags (RSTs)

Recent advances in protein modifications techniques for the targeting N‐terminal cysteine

Revealing the function of HMGB1 N-terminal acetylation by a protein semi-synthesis approach

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