Chemical Protein Synthesis: Advances, Challenges, and Outlooks

Tan, Yi; Wu, Huan; Wei, Tongyao; Li, Xuechen

doi:10.1021/jacs.0c09664

Cited by 87 publications

(66 citation statements)

References 128 publications

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“…190 Understandably, these synthetic targets can be challenging, especially those glycosylated at a position more than 50 residues from the N-or C-terminus, and require the presence of cysteine sites that otherwise need to be engineered for the ligation step and subsequently converted to the native residue via desulphurisation. Nonetheless, continuous methodological advances in chemical protein synthesis 191,192 are enabling one to take full advantage of the potential of these ligation methods, which are uniquely suited to provide access to sitespecifically and stoichiometrically modified O-GlcNAcylated proteins. These chemically pure glycoproteins can then be utilised for in vitro biochemical and structural biology studies to probe structure-function correlations and mechanisms of O-GlcNAcylation at the molecular level.…”

Section: Methods To Study Discrete O-glcnacylation On Proteins With Site-specificitymentioning

confidence: 99%

Advances in chemical probing of protein O-GlcNAc glycosylation: structural role and molecular mechanisms

2021

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Section: Methods To Study Discrete O-glcnacylation On Proteins With Site-specificitymentioning

confidence: 99%

Advances in chemical probing of protein O-GlcNAc glycosylation: structural role and molecular mechanisms

2021

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“…Specifically, chemical peptide ligation technologies, such as native chemical ligation (NCL) and its variants, KAHA ligation, Serine/Threonine ligation (STL), and cysteine/penicillamine ligation (CPL), can selectively and specifically forge a natural peptidic bond between the C- and N-terminus of two unprotected peptides. Therefore, a protein containing noncanonical elements can be re-constructed by stitching peptides together via several rounds of peptide ligation ( Tan et al., 2020 ).…”

Section: Before You Begin ( Thompson and Muir 2019 )mentioning

confidence: 99%

“…Of the ligation technologies developed to date, the C-terminal salicylaldehyde ester-based chemoselective condensation, STL, has been widely used for synthesis of cyclic peptides and proteins. ( Zhang et al., 2013 ; Tan et al., 2020 ). This reaction occurs between the N-terminal serine or threonine or cysteine peptide fragment and the peptide fragment with C-terminal salicylaldehyde ester to afford an N,O/S -benzylidene-acetal-linked intermediate in a pyridine/acetic acid mixture.…”

Section: Before You Begin ( Thompson and Muir 2019 )mentioning

confidence: 99%

Serine/threonine ligation-assisted chemical synthesis of HMGA1a protein with site-specific post-translational modifications

Wei

Liu

et al. 2021

STAR Protocols

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Summary Dissecting the function of proteins’ post-translational modifications (PTMs) is seriously hindered by the difficulty in obtaining the homogeneous protein with the PTMs of interest. Chemical protein synthesis offers a great potential to overcome this limitation. Here, a detailed protocol is introduced for chemical synthesis of HMGA1a protein with site-specific modifications via Ser/Thr ligation strategy, by which we can systematically study the function of the triple phosphorylation (3pSer) in the HMGA1a acidic tail. For complete details on the use and execution of this protocol, please refer to Wei et al. (2021) .

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“…Chemical protein synthesis, powered by chemo-selective peptide ligation reactions, has produced almost hundreds of synthetic proteins which conveniently incorporate non-canonical amino acids, among many other purposes ( Agouridas et al, 2019 ; Tan et al, 2020 ). Although the chemical synthesis of selenoproteins, like SelM and SelW, has been reported ( Dery et al, 2017 ), the synthesis of SelF is, however, supposed to be more challenge as it contains six other Cys residues in the UGGT binding domain, which certainly complicates the refolding process.…”

Section: Introductionmentioning

confidence: 99%

Chemical Synthesis of the Sec-To-Cys Homologue of Human Selenoprotein F and Elucidation of Its Disulfide-pairing Mode

Liao

2021

Front. Chem.

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Herein, we document a highly optimized synthesis of the Sec-to-Cys homologue of the human selenoprotein F (SelF) through a three-segment two-ligation semisynthesis strategy. Highlighted in this synthetic route are two one-pot manipulations, i.e. the first ligation followed by a desulfurization and the second ligation followed by the protein refolding. This way multi-milligrams of the folded synthetic protein was obtained, which set the stage for the synthesis of the natural selenoprotein. Moreover, the disulfide pairing mode of the SelF was elucidated through a combination of site-directed mutagenesis and LC-MS study. It provides not only a criterion to judge the viability of the synthetic protein, and more importantly, useful structural insights into the previously unresolved UGGT-binding domain of SelF.

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Chemical Protein Synthesis: Advances, Challenges, and Outlooks

Cited by 87 publications

References 128 publications

Advances in chemical probing of protein O-GlcNAc glycosylation: structural role and molecular mechanisms

Advances in chemical probing of protein O-GlcNAc glycosylation: structural role and molecular mechanisms

Serine/threonine ligation-assisted chemical synthesis of HMGA1a protein with site-specific post-translational modifications

Chemical Synthesis of the Sec-To-Cys Homologue of Human Selenoprotein F and Elucidation of Its Disulfide-pairing Mode

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