Select data courtesy of the U.S. National Library of Medicine.

© 2026 DeepDyve, Inc. All rights reserved.

This site is protected by VikingCloud's Trusted Commerce program

    Regulated expression of the Leishmania major surface virulence factor lipophosphoglycan using conditionally destabilized fusion proteins

    Madeira da Silva, Luciana; Owens, Katherine L.; Murta, Silvane M. F.; Beverley, Stephen M.
    Proceedings of the National Academy of Sciences·May 5, 2009

    Regulated expression of the Leishmania major surface virulence factor lipophosphoglycan using conditionally destabilized fusion proteins

    Abstract

    Surface glycoconjugates play important roles in the infectious cycle of Leishmania major, including the abundant lipophosphoglycan (LPG) implicated in parasite survival in the sand fly vector and the initial stages of establishment in the mammalian host macrophage. We describe a system for inducible expression of LPG, applying a novel protein-based system that allows controlled degradation of a key LPG biosynthetic enzyme, UDP-galactopyranose mutase (UGM). This methodology relies on a mutated FK506-binding protein (FKBP) destabilizing domain (dd) fused to the protein of interest; in the absence of rapamycin analogs, such as Shld1, the dd domain is destabilized, leading to proteasomal degradation, whereas drug treatment confers stabilization. Tests in L. major using dd fusions to a panel of reporters and cellular proteins confirmed its functionality, with a high degree of regulation and low background, and we established the kinetics of protein activation and/or loss. Two inexpensive and widely available ligands, FK506 and rapamycin, functioned similarly to Shld1, without effect on Leishmania growth or differentiation. We generated parasites lacking UGM through deletion of the GLF gene and substitution with a ddGLF fusion construct, either as chromosomal knockins or through episomal complementation; these showed little or no LPG expression in the absence of inducer, whereas in its presence, high levels of LPG were attained rapidly. Complement lysis tests confirmed the correct integrity of the Leishmania LPG coat. These data suggest that the dd approach has great promise in the study of LPG and other pathways relevant to parasite survival and virulence.

    Meet DeepDyve

    Get unlimited, instant access to over 150 million full-text scientific articles for less than the price of buying a single PDF.

    150M+Research Papers
    35M+Full-Text Streaming Papers
    25M+Open Access Papers
    $2/dayStarting Price
    DeepDyve Collection

    DeepDyve Collection

    Access top-tier journals without the top-tier price. We partner directly with the world’s leading academic publishers to bring you legally compliant, instant access. Read the latest findings from Springer, Wiley, Oxford University Press, and more—all in one subscription.

    Browse our collection of titles from leading publishers

    arXiv
    ChemRxiv
    Hindawi
    JAMA
    MDPI
    medRxiv
    NEJM
    Oxford University Press
    PLOS
    PubMed
    Sage
    Springer Nature
    Wiley
    Wolters Kluwer
    AI Research Assistant

    AI Research Assistant

    Accelerate your research with our advanced AI tools. Chat directly with your uploaded papers, and DeepDyve’s 50M+ LitStream and OA collections of full-text papers. AI responses come directly from the literature, footnoted and sourced, to provide the most authoritative and verifiable responses. AI outputs powered by OpenAI and Anthropic Claude. AI Smart Folders (coming soon)

    Stop wasting time on paywalls, pirated sites and scattered journal portals

    Streamline your research workflow with DeepDyve's comprehensive literature management solution for less than the price of buying a single PDF.

    Try 1 month for $0