Your search keyword '"Li, Yan-Mei"' showing total 29 results

1. Chemoselective Methods for Labeling and Modification of Peptides and Proteins.

Author

Brimble MA, Ackermann L, Li YM, and Raj M

Subjects

Peptides

Published

2023

2. Chemical modifications of tryptophan residues in peptides and proteins.

Author

Hu JJ, He PY, and Li YM

Subjects

Peptides chemistry, Proteins chemistry, Tryptophan chemistry

Abstract

Chemical protein modifications facilitate the investigation of natural posttranslational protein modifications and allow the design of proteins with new functions. Proteins can be modified at a late stage on amino acid side chains by chemical methods. The indole moiety of tryptophan residues is an emerging target of such chemical modification strategies because of its unique reactivity and low abundance. This review provides an overview of the recently developed methods of tryptophan modification at the peptide and protein levels., (© 2020 European Peptide Society and John Wiley & Sons, Ltd.)

Published

2021

3. Late-stage peptide and protein modifications through phospha-Michael addition reaction.

Author

He PY, Chen H, Hu HG, Hu JJ, Lim YJ, and Li YM

Subjects

Fluorescein chemistry, Humans, MCF-7 Cells, Microscopy, Confocal, Peptides metabolism, Protein Aggregates, alpha-Synuclein chemistry, alpha-Synuclein metabolism, Peptides chemistry, Phosphines chemistry

Abstract

We developed a late-stage modification strategy by a phospha-Michael addition reaction between various functional phosphines and unprotected dehydroalanine (Dha) peptides and proteins under mild conditions. This strategy was applied to generate a staple peptide to enhance its cell membrane penetrability, and it was also able to regulate α-synuclein aggregation properties and morphological characteristics with the addition of different charges.

Published

2020

4. Effects of different 2A peptides on transgene expression mediated by tricistronic vectors in transfected CHO cells.

Author

Li YM, Wang M, Wang TY, Wei YG, Guo X, Mi CL, Zhao CP, Cao XX, and Dou YY

Subjects

Animals, CHO Cells, Cricetinae, Cricetulus, Gene Dosage, Luminescent Proteins chemistry, Luminescent Proteins genetics, Luminescent Proteins metabolism, Peptides chemistry, Peptides metabolism, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Transfection, Viral Proteins chemistry, Viral Proteins genetics, Viral Proteins metabolism, Genetic Vectors genetics, Peptides genetics, Recombinant Proteins genetics, Transgenes genetics

Abstract

Multicistronic vectors can increase transgene expression and decrease the imbalance of gene expression in the Chinese hamster ovary (CHO) cell expression system. Small, self-cleaving 2A peptides have a high cleavage efficiency and are essential for constructing high-expression multicistronic vectors. In this study, we investigated the effects of two different 2A peptides on transgene expression in CHO cells via their mediating action on tricistronic vectors. The enhanced green fluorescent protein (eGFP) and red fluorescent protein (RFP) genes were linked by the porcine teschovirus-1 (P2A) and Thosea asigna virus (T2A) peptides in a multicistronic vector. We transfected CHO cells with these vectors and screened for the presence of blasticidin-resistant colonies. Flow cytometry and real-time quantitative PCR (qPCR) were used to detect the expression levels of eGFP and RFP and the copy numbers of stably transfected cells. The results showed that P2A could enhance eGFP and RFP expression by 1.48- and 1.47-fold, respectively, compared to T2A. The expression levels of the genes were not proportional to their copy numbers. In conclusion, we found that P2A can effectively drive transgene expression in CHO cells and a potent 2A peptide can be used for recombinant protein production in the CHO cell system.

Published

2020

5. TDP-43 specific reduction induced by Di-hydrophobic tags conjugated peptides.

Author

Gao N, Huang YP, Chu TT, Li QQ, Zhou B, Chen YX, Zhao YF, and Li YM

Subjects

Amyotrophic Lateral Sclerosis metabolism, Amyotrophic Lateral Sclerosis pathology, Animals, Cell Line, Tumor, Cell Survival drug effects, DNA-Binding Proteins chemistry, Drosophila melanogaster metabolism, Humans, Hydrophobic and Hydrophilic Interactions, Mice, Peptides metabolism, Peptides pharmacology, DNA-Binding Proteins metabolism, Peptides chemistry

Abstract

TAR DNA binding protein 43 (TDP-43) is a key target in amyotrophic lateral sclerosis (ALS) treatment. Here, based on hydrophobic tagging strategy, we designed and synthesized a series of single or double hydrophobic tags conjugated peptides D1-D8. Among them, it was found that D4 displayed strongest ability to induce TDP-43 degradation in cells. D4 could reduce TDP-43 induced cytotoxicity. Besides, D4 could reduce TDP-43 levels in a transgenic drosophila model., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

6. Semi-synthesis of murine prion protein by native chemical ligation and chemical activation for preparation of polypeptide-α-thioester.

Author

Shi L, Chen H, Zhang SY, Chu TT, Zhao YF, Chen YX, and Li YM

Subjects

Animals, Esters chemistry, Mice, Molecular Conformation, Peptides chemistry, Prion Proteins chemistry, Sulfhydryl Compounds chemistry, Esters chemical synthesis, Peptides chemical synthesis, Prion Proteins chemical synthesis, Sulfhydryl Compounds chemical synthesis

Abstract

Prions are suspected as pathogen of the fatal transmissible spongiform encephalopathies. Strategies to access homogenous prion protein (PrP) are required to fully comprehend the molecular mechanism of prion diseases. However, the polypeptide fragments from PrP show a high tendency to form aggregates, which is a gigantic obstacle of protein synthesis and purification. In this study, murine prion sequence 90 to 230 that is the core three-dimensional structure domain was constructed from three segments murine PrP (mPrP)(90-177), mPrP(178-212), and mPrP(213-230) by combining protein expression, chemical synthesis and chemical ligation. The protein sequence 90 to 177 was obtained from expression and finally converted into the polypeptide hydrazide by chemical activation of a cysteine in the tail. The other two polypeptide fragments of the C-terminal were obtained by chemical synthesis, which utilized the strategies of isopeptide and pseudoproline building blocks to complete the synthesis of such difficult sequences. The three segments were finally assembled by sequentially using native chemical ligation. This strategy will allow more straightforward access to homogeneously modified PrP variants. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd., (Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.)

Published

2017

7. Specific Knockdown of Endogenous Tau Protein by Peptide-Directed Ubiquitin-Proteasome Degradation.

Author

Chu TT, Gao N, Li QQ, Chen PG, Yang XF, Chen YX, Zhao YF, and Li YM

Subjects

Alzheimer Disease drug therapy, Alzheimer Disease metabolism, Animals, Cells, Cultured, Disease Models, Animal, Humans, Mice, Mice, Transgenic, Rats, Rats, Sprague-Dawley, Ubiquitin metabolism, tau Proteins metabolism, Peptides pharmacology, Proteasome Endopeptidase Complex metabolism, Ubiquitin antagonists & inhibitors, tau Proteins antagonists & inhibitors

Abstract

Tau, an important pathological protein of Alzheimer's disease (AD), can mediate the toxicity of amyloid β (Aβ). Thus, reduction of Tau with chemical molecules may offer a novel strategy for treating AD. Here, we designed and synthesized a series of multifunctional molecules that contained Tau-recognition moieties and E3 ligase-binding moieties to enhance Tau degradation. Among these molecules, TH006 had the highest activity of inducing Tau degradation by increasing its poly-ubiquitination. The decrement in Tau induced by TH006 could decrease the cytotoxicity caused by Aβ. Furthermore, TH006 could regulate the Tau level in the brain of an AD mouse model. Therefore, partial reduction of Tau with such multifunctional peptides may open up a novel therapeutic strategy for AD treatment., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

8. Rational design of an orthosteric regulator of hIAPP aggregation.

Author

Zhao DS, Chen YX, and Li YM

Subjects

Allosteric Regulation drug effects, Animals, Cell Line, Tumor, Humans, Models, Molecular, Protein Structure, Secondary drug effects, Rats, Drug Design, Islet Amyloid Polypeptide chemistry, Peptides pharmacology, Protein Multimerization drug effects

Abstract

Developing compounds regulating amyloid toxic oligomer but not fibril formation should constitute an effective strategy for the treatment of diabetes. Based on the full understanding of the folding mechanism, we designed an orthosteric helix regulator that can promote hIAPP to assemble into large non-cytotoxic oligomers. As a result, the islet cells were protected.

Published

2015

9. Addition of artificial salt bridge by Ile646Lys mutation in gp41 coiled-coil domain regulates 6-helical bundle formation.

Author

Zhao L, Hu ZW, Tong P, Chen YX, Zhao YF, and Li YM

Subjects

Amino Acid Sequence, HIV Envelope Protein gp41 genetics, HIV Envelope Protein gp41 metabolism, HIV Fusion Inhibitors chemical synthesis, HIV Fusion Inhibitors pharmacology, Molecular Sequence Data, Mutation, Peptides chemical synthesis, Peptides pharmacology, Protein Structure, Secondary, Static Electricity, Virus Internalization drug effects, HIV Envelope Protein gp41 chemistry, HIV Fusion Inhibitors chemistry, Peptides chemistry, Salts chemistry

Abstract

HIV entry is mediated by the envelope glycoproteins gp120 and gp41. The gp41 subunit contains several functional domains: the N-terminal heptad repeat (NHR) domains fold a triple stranded coiled-coil forming a meta-stable prefusion intermediate. C-terminal heptad repeat (CHR) subsequently folds onto the hydrophobic grooves of the NHR coiled-coil to form a stable 6-helix bundle, which juxtaposes the viral and cellular membranes for fusion. The C34 which has 34 amino acid residues is known as the core structure in CHR. A highly anti-HIV peptide inhibitor derived from C34 was designed. An artificial salt bridge was added in the 6-helical bundle by substitution of lysine for Ile646. With a cholesterol modification at C-terminal, the inhibitor containing I646K mutation represented higher anti-viral activity than C34-cholesterol combination without mutation., (Crown Copyright © 2013. Published by Elsevier Ltd. All rights reserved.)

Published

2013

10. A covalently reactive group-modified peptide that specifically reacts with lysine16 in amyloid β.

Author

Ma JW, Zhao L, Zhao DS, Liu Q, Liu C, Wu WH, Chen YX, Zhao YF, and Li YM

Subjects

Amino Acid Sequence, Amyloid beta-Peptides chemistry, Animals, Cell Line, Tumor, Cell Survival drug effects, Lysine metabolism, Mice, Peptide Fragments chemistry, Peptide Fragments metabolism, Peptides chemistry, Peptides pharmacology, Protein Binding, Amyloid beta-Peptides metabolism, Peptides metabolism

Abstract

Lys16 is present in the core region of the amyloid β (Aβ) self-assembly in Alzheimer's disease. Here we report that the P9-NCS peptide can covalently react with Lys16 and inhibit Aβ neurotoxic fibrillization. Moreover P9-NCS has high selectivity and it cannot react with amylin, insulin, fetal bovine serum, Q11 and MUC1 peptide.

Published

2012

11. A multi-functional peptide as an HIV-1 entry inhibitor based on self-concentration, recognition, and covalent attachment.

Author

Zhao L, Tong P, Chen YX, Hu ZW, Wang K, Zhang YN, Zhao DS, Cai LF, Liu KL, Zhao YF, and Li YM

Subjects

Amino Acid Sequence, Anti-HIV Agents pharmacology, Cholesterol chemistry, Chromatography, High Pressure Liquid, Electrophoresis, Polyacrylamide Gel, HIV Fusion Inhibitors pharmacology, HIV-1 drug effects, Humans, Models, Molecular, Molecular Sequence Data, Peptides antagonists & inhibitors, Anti-HIV Agents chemistry, Drug Design, HIV Envelope Protein gp41 chemistry, HIV Fusion Inhibitors chemistry, Peptides chemistry

Abstract

HIV entry is mediated by the envelope glycoproteins gp120 and gp41. The gp41 subunit contains several functional domains: the N-terminal heptad repeat (NHR) domains fold a triple stranded coiled-coil forming a meta-stable prefusion intermediate. The C-terminal heptad repeat (CHR) subsequently folds onto the hydrophobic grooves of the NHR coiled-coil to form a stable 6-helix bundle, which juxtaposes the viral and cellular membranes for fusion. A conserved salt bridge between Lys(574) in NHR and Asp(632) in CHR plays an essential role in the formation of the six-helix bundle. A multi-functional peptide inhibitor for anti-HIV derived from the CHR of gp41 has been designed. It bears a cholesterol group (Chol) at the C-terminal through which the inhibitor can anchor in the cell membrane, and carries an isothiocyanate (NCS) group at the side chain of Asp(632) through which the inhibitor can bind to target covalently at Lys(574) in NHR. The dual functionalized peptide (NCS-C34-Chol) shows high antiviral activity in vitro and in vivo. The inhibitor reacts specifically and rapidly to NHR from gp41. In addition, it exhibits better stability under the digestion of the Proteinase K than C34 and T20.

Published

2012

12. An investigation into the formation of annular aggregates of human islet amyloid polypeptide on tantalum oxide surfaces.

Author

Chen M, Zhang S, Liu Q, Liu P, Busuttil K, Wang C, Besenbacher F, Li YM, and Dong M

Subjects

Amyloid metabolism, Cell Membrane chemistry, Cell Membrane metabolism, Humans, Islet Amyloid Polypeptide metabolism, Microscopy, Atomic Force, Peptides metabolism, Amyloid chemistry, Islet Amyloid Polypeptide chemistry, Oxides chemistry, Peptides chemistry, Tantalum chemistry

Published

2012

13. Mapping ApoE/Aβ binding regions to guide inhibitor discovery.

Author

Liu Q, Wu WH, Fang CL, Li RW, Liu P, Lei P, Hu J, Sun X, Zheng YZ, Zhao YF, and Li YM

Subjects

Alkenes chemistry, Alkenes metabolism, Alkenes pharmacology, Alzheimer Disease metabolism, Alzheimer Disease prevention & control, Amino Acid Sequence, Amyloid beta-Peptides chemistry, Apolipoprotein E4 chemistry, Apolipoprotein E4 metabolism, Apolipoproteins E chemistry, Benzoates chemistry, Benzoates metabolism, Benzoates pharmacology, Binding Sites, Binding, Competitive drug effects, Congo Red chemistry, Congo Red metabolism, Congo Red pharmacology, Drug Discovery methods, Humans, Molecular Sequence Data, Peptides chemistry, Peptides pharmacology, Protein Binding drug effects, Protein Interaction Domains and Motifs, Amyloid beta-Peptides metabolism, Apolipoproteins E metabolism, Peptides metabolism, Protein Interaction Mapping methods

Abstract

Blocking the interaction between the E4 isoform of apolipoprotein E (ApoE) and amyloid beta-peptide (Aβ) may be an avenue for pharmacological intervention in Alzheimer's disease (AD). The main regions of interaction of the two proteins are, respectively, ApoE244-272 and Aβ12-28. These protein segments are too large to facilitate the design of small molecule inhibitors. We mapped the primary components of ApoE/Aβ interaction to smaller peptide segments. Within the three motifs that are primarily responsible for ApoE/Aβ interaction, we identified four peptides that substantially block ApoE/Aβ interaction and further improved their inhibitory activity by rational hydrophobic amino acid substitution. Moreover, the mapping results provide the clue that the Aβ residues which interact with ApoE appear to be in the same region where Aβ self-interacts. According to this information, we found that Congo Red and X-34 could strongly inhibit ApoE/Aβ interaction. Our findings extend our understanding of ApoE/Aβ interaction and may guide the discovery of inhibitors that treat AD by antagonizing ApoE/Aβ interaction.

Published

2011

14. Hybrid peptides attenuate cytotoxicity of beta-amyloid by inhibiting its oligomerization: implication from solvent effects.

Author

Sun X, Wu WH, Liu Q, Chen MS, Yu YP, Ma Y, Zhao YF, and Li YM

Subjects

Amino Acid Motifs, Amino Acid Sequence, Amyloid beta-Peptides metabolism, Amyloid beta-Peptides ultrastructure, Animals, Cell Line, Tumor, Mice, Microscopy, Electron, Transmission, Molecular Sequence Data, Amyloid beta-Peptides chemistry, Amyloid beta-Peptides toxicity, Neurons drug effects, Peptides chemistry, Peptides pharmacology, Protein Multimerization drug effects

Abstract

Abnormal assembly of monomeric beta-amyloid (Abeta) in Alzheimer's disease leads to the formation of most neurotoxic oligomers in vivo. In this study, we explored a linking strategy to design hybrid peptides, by combining the Abeta recognition motif and the solvent disruptive sequences. We found that in vitro all synthetic peptides with the recognition motif can affect Abeta fibrillization and alter the morphology of Abeta aggregates variously, different from those without the recognition motif. The effects of peptides containing recognition motif on Abeta aggregation correlate with their abilities to change the surface tension of solutions. In addition, compounds with the recognition motif, not those without such motif, can inhibit cytotoxicity of Abeta in cell culture probably by decreasing the amount of toxic Abeta oligomers. These results indicate that recognition domain and solvent effect should be considered as important factors when designing molecules to target Abeta aggregation.

Published

2009

15. Sequestration of copper from beta-amyloid promotes selective lysis by cyclen-hybrid cleavage agents.

Author

Wu WH, Lei P, Liu Q, Hu J, Gunn AP, Chen MS, Rui YF, Su XY, Xie ZP, Zhao YF, Bush AI, and Li YM

Subjects

Amyloid beta-Peptides chemistry, Amyloid beta-Peptides toxicity, Amyloid beta-Peptides ultrastructure, Animals, Cell Line, Cyclams, Hydrogen Peroxide metabolism, Mice, Molecular Sequence Data, Neurons drug effects, Neurons metabolism, Nitrosamines, Peptides chemistry, Protein Binding, Tissue Culture Techniques, Amyloid beta-Peptides metabolism, Copper metabolism, Heterocyclic Compounds metabolism, Peptides pharmacology

Abstract

Decelerated degradation of beta-amyloid (Abeta) and its interaction with synaptic copper may be pathogenic in Alzheimer disease. Recently, Co(III)-cyclen tagged to an aromatic recognition motif was shown to degrade Abeta in vitro. Here, we report that apocyclen attached to selective Abeta recognition motifs (KLVFF or curcumin) can capture copper bound to Abeta and use the Cu(II) in place of Co(III) to become proteolytically active. The resultant complexes interfere with Abeta aggregation, degrade Abeta into fragments, preventing H2O2 formation and toxicity in neuronal cell culture. Because Abeta binds Cu in amyloid plaques, apocyclen-tagged targeting molecules may be a promising approach to the selective degradation of Abeta in Alzheimer disease. The principle of copper capture could generalize to other amyloidoses where copper is implicated.

Published

2008

16. Alternative O-GlcNAcylation/O-phosphorylation of Ser16 induce different conformational disturbances to the N terminus of murine estrogen receptor beta.

Author

Chen YX, Du JT, Zhou LX, Liu XH, Zhao YF, Nakanishi H, and Li YM

Subjects

Acetylglucosamine chemistry, Acetylglucosamine metabolism, Acylation, Animals, Circular Dichroism, Computer Simulation, Mice, Models, Molecular, Nuclear Magnetic Resonance, Biomolecular, Peptides chemistry, Phosphorylation, Protein Conformation, Protein Structure, Secondary, Serine metabolism, Estrogen Receptor beta chemistry, Estrogen Receptor beta metabolism, Peptides metabolism, Protein Processing, Post-Translational

Abstract

Serine and threonine residues in many proteins can be modified by either phosphorylation or GlcNAcylation. To investigate the mechanism of O-GlcNAc and O-phosphate's reciprocal roles in modulating the degradation and activity of murine estrogen receptor beta (mER-beta), the conformational changes induced by O-GlcNAcylation and O-phosphorylation of Ser(16) in 17-mer model peptides corresponding to the N-terminal intrinsically disordered (ID) region of mER-beta were studied by NMR techniques, circular dichroism (CD), and molecular dynamics simulations. Our results suggest that O-phosphorylation discourages the turn formation in the S(15)STG(18) fragment. In contrast, O-GlcNAcylation promotes turn formation in this region. Thus, we postulate that the different changes of the local structure in the N-terminal S(15)STG(18) fragment of mER-beta caused by O-phosphate or O-GlcNAc modification might lead to the disturbances to the dynamic ensembles of the ID region of mER-beta, which is related to its modulatory activity.

Published

2006

17. Detection of specific noncovalent interaction of peptide with DNA by MALDI-TOF.

Author

Luo SZ, Li YM, Qiang W, Zhao YF, Abe H, Nemoto T, Qin XR, and Nakanishi H

Subjects

DNA, Single-Stranded chemistry, Oligodeoxyribonucleotides chemistry, Oligodeoxyribonucleotides metabolism, Peptides chemistry, Proto-Oncogene Proteins c-fos chemistry, Proto-Oncogene Proteins c-fos metabolism, Transcription Factor AP-1 chemistry, Transcription Factor AP-1 metabolism, DNA, Single-Stranded metabolism, Peptides metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods

Abstract

Matrix-assisted laser desorption/ionization (MALDI) mass spectrometry was used to obtain spectra of peptide-DNA complexes formed by basic domain (BD15) of c-Fos protein and DNA AP-1 site (5'-TGAGTCA-3'). The noncovalent interaction between single stranded DNA and BD15 was observed and confirmed to be an ionic one between the negatively charged sugar-phosphate backbone of DNA and positively charged side chains of Arg- and lys-rich peptides as demonstrated by Vertes and coworkers and Woods and coworkers. But the specific noncovalent interaction between DNA AP-1 site and the dimer of BD15 was firstly detected in this paper. Various different sequence DNAs were studied and it was found that this interaction is a sequence-specific one, and AP-1 site was essential for this interaction. This specific interaction depends on the matrix. It was only observed in the ATT matrix and not in the other two matrixes (CHCA and DHBA).

Published

2004

18. Activity difference between alpha-COOH and beta-COOH in N-phosphorylaspartic acids.

Author

Chen ZZ, Tan B, Li YM, Zhao YF, Tong YF, and Wang JF

Subjects

Kinetics, Models, Theoretical, Molecular Conformation, Molecular Mimicry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Stereoisomerism, Structure-Activity Relationship, Aspartic Acid analogs & derivatives, Aspartic Acid chemistry, Organophosphorus Compounds chemistry, Peptides chemistry

Abstract

N-phosphorylamino acids are chemically active species that have many biomimic activities. alpha-COOH in amino acids and peptides behaviors rather differently than beta-COOH in many biochemical processes and takes a more important role in the origin of life. Activity differences between alpha-COOH and beta-COOH in the peptide formation of phosphoryl amino acids are studied by 1D, 2D NMR techniques and by ab initio and density functional theory (DFT) calculations in this paper. Phosphoryl dipeptide is formed directly from phosphoryl aspartic acids without any coupling reagents. Only the alpha-dipeptide ester is observed by 1D (1)H, (13)C, and (31)P NMR and 2D NMR. In the ab initio and DFT calculations, the pentacoordinate phosphorane intermediates containing five-membered rings are predicted to be more favored than those with six-membered rings. Both the experimental results and the theoretical calculations suggest that only the alpha-COOH group is activated by N-phosphorylation in N-phosphorylaspartic acid under mild conditions.

Published

2003

19. A Hydroxylamine‐Mediated Amidination of Lysine Residues That Retains the Protein's Positive Charge.

Author

He, Pei‐Yang, Zhou, Yusai, Chen, Pu‐Guang, Zhang, Meng‐Qian, Hu, Jin‐Jian, Lim, Yeh‐Jun, Zhang, Hongjie, Liu, Kai, and Li, Yan‐Mei

Subjects

AMIDINES, LYSINE, PEPTIDES, PROTEINS, ALPHA-synuclein, PHASE separation, MOIETIES (Chemistry)

Abstract

Lysine‐specific peptide and protein modification strategies are widely used to study charge‐related functions and applications. However, these strategies often result in the loss of the positive charge on lysine, significantly impacting the charge‐related properties of proteins. Herein, we report a strategy to preserve the positive charge and selectively convert amines in lysine side chains to amidines using nitriles and hydroxylamine under aqueous conditions. Various unprotected peptides and proteins were successfully modified with a high conversion rate. Moreover, the reactive amidine moiety and derived modification site enable subsequent secondary modifications. Notably, positive charges were retained during the modification. Therefore, positive charge‐related protein properties, such as liquid‐liquid phase separation behaviour of α‐synuclein, were not affected. This strategy was subsequently applied to a lysine rich protein to develop an amidine‐containing coacervate DNA complex with outstanding mechanical properties. Overall, our innovative strategy provides a new avenue to explore the characteristics of positively charged proteins. [ABSTRACT FROM AUTHOR]

Published

2024

20. A rapid and selective methionine oxidative modification strategy.

Author

Zhang, Meng‐Qian, He, Pei‐Yang, Hu, Jin‐Jian, and Li, Yan‐Mei

Abstract

Considering the fact that site‐selective late‐stage diversification of peptides and proteins remains a challenge for biochemistry, strategies targeting low‐abundance natural amino acids need to be further developed. As an extremely oxidation‐sensitive and low‐abundance amino acid, methionine emerges as a promising target for chemo‐ and site‐selective modification. Herein we report an efficient and highly selective modification on methionine residues by one‐pot O‐ and N‐transfer reaction, generating sulfoximine‐modified peptides with near‐perfect conversion within 10 min. Moreover, the great tolerance to other natural amino acids has been demonstrated in reactions with various peptide substrates. To demonstrate the generality of this protocol, we have modified natural peptides and obtained sulfoximination products with high conversion rates. This methodology provides a novel strategy as the expansion of the methionine‐based peptide functionalization toolbox. [ABSTRACT FROM AUTHOR]

Published

2023

21. Self-assembling small-molecule adjuvants as antigen nano-carriers.

Author

Jin, Shuyu, Zhuo, Shao-hua, Takemoto, Yasushi, Li, Yan-mei, and Uesugi, Motonari

Subjects

ANTIGENS, PEPTIDES, SMALL molecules, VACCINE development, ANTIGEN presentation, T cell receptors

Abstract

The effective co-delivery of antigens and immune potentiators (adjuvants) and the high degree of antigen presentation have been two major challenges in the development of subunit vaccines. Here, we address these issues by conjugating peptide antigens with cholicamide, a self-assembling small molecule adjuvant. Co-assemblies of the conjugates and cholicamide achieved high levels of both cytokine induction and MHC class II peptide presentation. [ABSTRACT FROM AUTHOR]

Published

2022

22. Peptides for disrupting and degrading amyloids.

Author

Liang, Chu-Qiao and Li, Yan-Mei

Subjects

*PEPTIDES, *AMYLOID plaque, *PROTEOLYSIS, *AMYLOID, *AMYLOID beta-protein, *NEURODEGENERATION, *PROTEINS

Abstract

Amyloid proteins can aggregate into insoluble fibrils and form amyloid deposits in the human brain, which is the hallmark of many neurodegenerative diseases. Promising strategies toward pathological amyloid proteins and deposition include investigating inhibitors that can disrupt amyloid aggregation or induce misfolding protein degradation. In this review, recent progress of peptide-based inhibitors, including amyloid sequence–derived inhibitors, designed peptides, and peptide mimics, is highlighted. Based on the increased understanding of peptide design and precise amyloid structures, these peptides exhibit advanced inhibitory activities against fibrous aggregation as well as enhanced druggability. [ABSTRACT FROM AUTHOR]

Published

2021

23. Cucurbit[8]uril facilitated Michael addition for regioselective cysteine modification.

Author

Li, Gao, Hu, Jun, Chen, Huai, Chen, Yong-Xiang, and Li, Yan-Mei

Subjects

CUCURBITACEAE, MICHAEL reaction, CYSTEINE, TRYPTOPHAN, PEPTIDES

Abstract

Utilizing the interactions between tryptophan, methyl viologen and cucurbit[8]uril, we found that the distance between the targeted peptides/protein and the reactive peptide was shortened, which facilitated the Michael addition reaction between cysteine and dehydroalanine. The highest acceleration was observed on cysteines with suitable pKa and spatial location to tryptophan, suggesting that our system can be used for regioselective cysteine modification. [ABSTRACT FROM AUTHOR]

Published

2021

24. Multivalente synthetische Glycopeptid-Lipopeptid-Antitumorvakzine: Auswirkung des Cluster-Effekts auf das Abtöten von Tumorzellen.

Author

Cai, Hui, Sun, Zhan ‐ Yi, Chen, Mei ‐ Sha, Zhao, Yu ‐ Fen, Kunz, Horst, and Li, Yan ‐ Mei

Subjects

GLYCOPEPTIDE synthesis, PEPTIDES, ANTINEOPLASTIC agents, CANCER cells, CANCER vaccines, MULTIVALENT molecules, CLICK chemistry

Abstract

Copyright of Angewandte Chemie is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2014

25. Short Peptide Segment and Insulin Co-Assembly Forms Cytotoxic Oligomers.

Author

Mao, Jie, Chen, Mei-Sha, Chen, Yong-Xiang, Zhao, Yu-Fen, and Li, Yan-Mei

Subjects

PEPTIDES, PROTEINS, OLIGOMERS, POLYMERS, MACROMOLECULES

Abstract

Insulin assembly follows different pathways under different environments. But the mechanism of insulin assembly and the pathology of insulin-related amyloidosis diseases remain unclear. This work, illustrating different pathways of insulin aggregation induced by short peptide segment, may shed light on these research areas. We find that the short peptide segment LVEALYL (7aa, a segment of insulin B chain) can alter the pathway of insulin aggregation and induce the generation of highly toxic oligomers. However, when a bulky cyclen is attached to the peptide segment, β-sheet enriched fibrils will be formed again. This phenomenon may be induced by the disruptive effect of cyclen on the interaction between the short peptide and insulin, which alters the aggregation pathway. [ABSTRACT FROM AUTHOR]

Published

2013

26. Synthesis and conformational properties of phosphopeptides related to the human tau protein

Author

Du, Jin-Tang, Li, Yan-Mei, Ma, Qing-Feng, Qiang, Wei, Zhao, Yu-Fen, Abe, Hiroshi, Kanazawa, Kenji, Qin, Xu-Rong, Aoyagi, Ryousuke, Ishizuka, Yasuko, Nemoto, Tadashi, and Nakanishi, Hiroshi

Subjects

*ALZHEIMER'S disease, *PEPTIDES, *PROTEINS, *BIOMOLECULES

Abstract

Abstract: In the brains of Alzheimer''s disease patients, the tau protein dissociates from the axonal microtubule and abnormally aggregates to form a paired helical filament (PHF). One of the priorities in Alzheimer research is to determine the effects of abnormal phosphorylation on the local structure. A series of peptides corresponding to isolated regions of tau protein have been successfully synthesized using Fmoc-based chemistry and their conformations were determined by 1H NMR spectroscopy and circular dichroism (CD) spectroscopy. Immunodominant peptides corresponding to tau-(256–273), tau-(350–367) and two phosphorylated derivatives in which a single Ser was phosphorylated at positions 262 and 356, respectively, were the main focus of the study. A direct alteration of the local structure after phosphorylation constitutes a new strategy through which control of biological activity can be enforced. In our study on Ser262 in R1 peptide and Ser356 in R4 peptide, phosphorylation modifies both the negative charge and the local conformation nearby the phosphorylation sites. Together, these structural changes indicate that phosphorylation may act as a conformational switch in the binding domain of tau protein to alter specificity and affinity of binding to microtubule, particularly in response to the abnormal phosphorylation events associated with Alzheimer''s disease. [Copyright &y& Elsevier]

Published

2005

27. Facile synthesis of cyclopeptide-centered multivalent glycoclusters with ‘click chemistry’ and molecular recognition study by surface plasmon resonance

Author

Chen, Yong-Xiang, Zhao, Lei, Huang, Zhi-Ping, Zhao, Yu-Fen, and Li, Yan-Mei

Subjects

*PROTEIN synthesis, *MOLECULE-molecule collisions, *PEPTIDES, *RING formation (Chemistry), *CARBOHYDRATES, *MOLECULAR recognition, *SURFACE plasmon resonance, *AZIDES

Abstract

Abstract: A facile synthesis of cyclopeptide-centered multivalent glycoclusters using Cu(I) catalyzed Huisgen 1,3-dipolar cycloaddition of azides and terminal alkynes, so called ‘click chemistry’, has been developed. The affinities of mannose-specific protein Concanavalin A (Con A) toward two synthetic glycoclusters respectively bearing divalent or tetravalent mannoses were investigated by surface plasmon resonance (SPR). It is founded that the tetravalent glycocluster has 3.0-fold increase in binding affinity relative to the divalent glycoluster (valency-corrected values), which indicates the potential of this system in investigating carbohydrate–protein interactions. [Copyright &y& Elsevier]

Published

2009

28. O-GlcNAcylation modulates the self-aggregation ability of the fourth microtubule-binding repeat of tau

Author

Yu, Chun-Hui, Si, Tong, Wu, Wei-Hui, Hu, Jia, Du, Jin-Tang, Zhao, Yu-Fen, and Li, Yan-Mei

Subjects

*ALZHEIMER'S disease, *PROTEINS, *PHOSPHORYLATION, *PEPTIDES

Abstract

Abstract: In Alzheimer’s disease (AD), tau protein is abnormally hyperphosphorylated and aggregated into paired helical filaments (PHFs). It was discovered recently that tau is also O-GlcNAcylated in human brains. And O-GlcNAcylation may regulate phosphorylation of tau in a site-specific manner. In this work, we focused on the fourth microtubule-binding repeat (R4) of tau, which has an O-GlcNAcylation site—Ser356. The aggregation behavior of this repeat and its O-GlcNAcylated form was investigated by turbidity, precipitation assay and electron microscopy. In addition, conformations of these two peptides were analyzed with circular dichroism (CD). Our results revealed that O-GlcNAcylation at Ser356 could greatly slow down the aggregation speed of R4 peptide. This modulation of O-GlcNAcylation on tau aggregation implies a new perspective of tau pathology. [Copyright &y& Elsevier]

Published

2008

29. ChemInform Abstract: Tau Protein Associated Inhibitors in Alzheimer Disease.

Author

Li, Qian‐Qian, Chu, Ting‐Ting, Chen, Yong‐Xiang, and Li, Yan‐Mei

Subjects

*TAU proteins, *PROTEIN drugs, *ALZHEIMER'S disease treatment, *BIOCHEMISTRY, *PHARMACEUTICAL chemistry

Abstract

Review: 33 refs. [ABSTRACT FROM AUTHOR]

Published

2014