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Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
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Query: EC:4.2.2.10 (
PNL
)
341
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The potato leafhopper, Empoasca fabae, is a pest of economic crops in the United States and Canada, where it causes damage known as hopperburn. Saliva, along with mechanical injury, leads to decreases in gas exchange rates, stunting and
chlorosis
. Although E. fabae saliva is known to induce plant responses, little knowledge exists of saliva composition at the molecular level. We subjected the salivary glands of E. fabae to Roche 454-pyrosequencing which resulted significant number (30,893) of expressed sequence tags including 2805 contigs and 28,088 singletons. A high number of sequences (78%) showed similarity to other insect species in GenBank, including Triboliumcastaneum, Drosophilamelanogaster and Acrythosiphonpisum. KEGG analysis predicted the presence of pathways for purine and thiamine metabolic, biosynthesis of secondary metabolites, drug metabolism, and lysine degradation. Pfam analysis showed a high number of cellulase and carboxylesterase protein domains. Expression analysis of candidate genes (alpha amylase, lipase,
pectin lyase
, etc.) among different tissues revealed tissue-specific expression of digestive enzymes in E. fabae. This is the first study to characterize the sialotranscriptome of E. fabae and the first for any species in the family of Cicadellidae. Due to the status of these insects as economic pests, knowledge of which genes are active in the salivary glands is important for understanding their impact on host plants.
...
PMID:Transcriptome analysis of the salivary glands of potato leafhopper, Empoasca fabae. 2306
Xylella fastidiosa
releases outer membrane vesicles (OMVs) known to play a role in the systemic dissemination of this pathogen. OMVs inhibit bacterial attachment to xylem wall and traffic lipases/esterases that act on the degradation of plant cell wall. Here, we extended the characterization of
X. fastidiosa
OMVs by identifying proteins and metabolites potentially associated with OMVs produced by Temecula1, a Pierce's disease strain, and by 9a5c and Fb7, two citrus variegated
chlorosis
strains. These results strengthen that one of the OMVs multiple functions is to carry determinants of virulence, such as lipases/esterases, adhesins, proteases, porins, and a
pectin lyase
-like protein. For the first time, we show that the two citrus variegated
chlorosis
strains produce
X. fastidiosa
diffusible signaling factor 2 (DSF2) and citrus variegated
chlorosis
-DSF (likewise, Temecula1) and most importantly, that these compounds of the DSF (
X. fastidiosa
DSF) family are associated with OMV-enriched fractions. Altogether, our findings widen the potential functions of
X. fastidiosa
OMVs in intercellular signaling and host-pathogen interactions.
...
PMID:Proteomic and Metabolomic Analyses of
Xylella fastidiosa
OMV-Enriched Fractions Reveal Association with Virulence Factors and Signaling Molecules of the DSF Family. 3097 10
