Chemoenzymatic Assembly of Bacterial Glycoconjugates for Site-Specific Orthogonal Labeling

被引:0
|
作者
机构
[1] Lukose, Vinita
[2] Whitworth, Garrett
[3] Guan, Ziqiang
[4] Imperiali, Barbara
来源
Imperiali, Barbara (imper@mit.edu) | 1600年 / American Chemical Society卷 / 137期
关键词
The cell surfaces of bacteria are replete with diverse glycoconjugates that play pivotal roles in determining how bacteria interact with the environment and the hosts that they colonize. Studies to advance our understanding of these interactions rely on the availability of chemically defined glycoconjugates that can be selectively modified under orthogonal reaction conditions to serve as discrete ligands to probe biological interactions, in displayed arrays and as imaging agents. Herein, enzymes in the N-linked protein glycosylation (Pgl) pathway of Campylobacter jejuni are evaluated for their tolerance for azide-modified UDP-sugar substrates, including derivatives of 2,4-diacetamidobacillosamine and N-acetylgalactosamine. In vitro analyses reveal that chemoenzymatic approaches are useful for the preparation of undecaprenol diphosphate-linked glycans and glycopeptides with site-specific introduction of azide functionality for orthogonal labeling at three specific sites in the heptasaccharide glycan. The uniquely modified glycoconjugates represent valuable tools for investigating the roles of C. jejuni cell surface glycoconjugates in host pathogen interactions. © 2015 American Chemical Society;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [41] Efficient site-specific Labeling of proteins via cysteines
    Kim, Younggyu
    Ho, Sam O.
    Gassman, Natalie R.
    Korlann, You
    Landorf, Elizabeth V.
    Collart, Frank R.
    Weiss, Shimon
    BIOCONJUGATE CHEMISTRY, 2008, 19 (03) : 786 - 791
  • [42] Chemical tags for site-specific fluorescent labeling of biomolecules
    Freidel, Christoph
    Kaloyanova, Stefka
    Peneva, Kalina
    AMINO ACIDS, 2016, 48 (06) : 1357 - 1372
  • [43] Site-Specific Covalent Labeling of RNA by Enzymatic Transglycosylation
    Alexander, Seth C.
    Busby, Kayla N.
    Cole, Christian M.
    Zhou, Cun Yu
    Devaraj, Neal K.
    JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2015, 137 (40) : 12756 - 12759
  • [44] A method for site-specific labeling of multiple protein thiols
    Kuiper, Johanna M.
    Pluta, Radek
    Huibers, Wim H. C.
    Fusetti, Fabrizia
    Geertsma, Eric R.
    Poolman, Bert
    PROTEIN SCIENCE, 2009, 18 (05) : 1033 - 1041
  • [45] Triazine conjugates for multiple site-specific labeling of peptides
    Zerkowski, JA
    Scheftner, DA
    PROTEIN AND PEPTIDE LETTERS, 2001, 8 (02): : 123 - 129
  • [46] Assembly and activation of site-specific recombination complexes
    Peña, CEA
    Kahlenberg, JM
    Hatfull, GF
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2000, 97 (14) : 7760 - 7765
  • [47] Anatomical site-specific immunomodulation by bacterial biofilms
    Morra, Christina N.
    Orihuela, Carlos J.
    CURRENT OPINION IN INFECTIOUS DISEASES, 2020, 33 (03) : 238 - 243
  • [48] Chemoenzymatic Installation of Site-Specific Chemical Groups on DNA Enhances the Catalytic Activity
    Zhang, Ze
    Wei, Wanqing
    Chen, Siqi
    Yang, Jintao
    Song, Dongfan
    Chen, Yinghan
    Zhao, Zerun
    Chen, Jiawen
    Wang, Fulong
    Wang, Jiahuan
    Li, Zhe
    Liang, Yong
    Yu, Hanyang
    JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2024, 146 (10) : 7052 - 7062
  • [49] A chemoenzymatic approach toward the preparation of site-specific antibody-drug conjugates
    Cai, Xiaoqing
    Janda, Kim D.
    TETRAHEDRON LETTERS, 2015, 56 (23) : 3172 - 3175
  • [50] Site-Specific Biofunctionalization of Cellulose and Poly(dimethylsiloxane): A Chemoenzymatic Approach for Surface Engineering
    Ibrar, Muhammad
    Zhang, Houjin
    LANGMUIR, 2020, 36 (49) : 15039 - 15047
12345