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Merck

An engineered innate immune defense protects grapevines from Pierce disease.

Proceedings of the National Academy of Sciences of the United States of America (2012-02-23)
Abhaya M Dandekar, Hossein Gouran, Ana María Ibáñez, Sandra L Uratsu, Cecilia B Agüero, Sarah McFarland, Yasmin Borhani, Paul A Feldstein, George Bruening, Rafael Nascimento, Luiz R Goulart, Paige E Pardington, Anu Chaudhary, Meghan Norvell, Edwin Civerolo, Goutam Gupta
ZUSAMMENFASSUNG

We postulated that a synergistic combination of two innate immune functions, pathogen surface recognition and lysis, in a protein chimera would lead to a robust class of engineered antimicrobial therapeutics for protection against pathogens. In support of our hypothesis, we have engineered such a chimera to protect against the gram-negative Xylella fastidiosa (Xf), which causes diseases in multiple plants of economic importance. Here we report the design and delivery of this chimera to target the Xf subspecies fastidiosa (Xff), which causes Pierce disease in grapevines and poses a great threat to the wine-growing regions of California. One domain of this chimera is an elastase that recognizes and cleaves MopB, a conserved outer membrane protein of Xff. The second domain is a lytic peptide, cecropin B, which targets conserved lipid moieties and creates pores in the Xff outer membrane. A flexible linker joins the recognition and lysis domains, thereby ensuring correct folding of the individual domains and synergistic combination of their functions. The chimera transgene is fused with an amino-terminal signal sequence to facilitate delivery of the chimera to the plant xylem, the site of Xff colonization. We demonstrate that the protein chimera expressed in the xylem is able to directly target Xff, suppress its growth, and significantly decrease the leaf scorching and xylem clogging commonly associated with Pierce disease in grapevines. We believe that similar strategies involving protein chimeras can be developed to protect against many diseases caused by human and plant pathogens.

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

Sigma-Aldrich
Cecropin B, ≥97% (HPLC), powder