FB2026_02 , released June 18, 2026
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Leone, P., Bischoff, V., Kellenberger, C., Hetru, C., Royet, J., Roussel, A. (2008). Crystal structure of Drosophila PGRP-SD suggests binding to DAP-type but not lysine-type peptidoglycan.  Molec. Immunol. 45(9): 2521--2530.
FlyBase ID
FBrf0205182
Publication Type
Research paper
Abstract
In Drosophila the synthesis of antimicrobial peptides in response to microbial infections is under the control of the Toll and immune deficiency (Imd) signaling pathways. The Toll signaling pathway responds mainly to Gram-positive bacterial and fungal infection while the Imd pathway mediates the response to Gram-negative bacteria. Microbial recognition upstream of Toll involves, at least in part, peptidoglycan recognition proteins (PGRPs). The sensing of Gram-positive bacteria is mediated by the pattern recognition receptors PGRP-SA and Gram-negative binding protein 1 (GNBP1) that cooperate to detect the presence of lysine-type peptidoglycan in the host. Recently it has been shown that a loss-of-function mutation in peptidoglycan recognition protein SD (PGRP-SD) severely exacerbates the PGRP-SA and GNBP1 mutant phenotypes. Here we have solved the crystal structure of PGRP-SD at 1.5A resolution. Comparison with available structures of PGRPs in complex with their peptidoglycan (PGN) ligand strongly suggests a diaminopimelic acid (DAP) specificity for PGRP-SD. This result is supported by pull-down assays with insoluble PGNs. In addition we show that Toll pathway activation after infection by DAP-type PGN containing bacteria is clearly reduced in PGRP-SD mutant flies. Our hypothesis is that the role of PGRP-SD is the recognition of DAP-type PGNs responsible for the activation of the Toll pathway by Gram-negative bacteria.
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    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Molec. Immunol.
    Title
    Molecular Immunology
    Publication Year
    1979-
    ISBN/ISSN
    0161-5890
    Data From Reference
    Genes (5)