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@article{2243538,
author = {Serbina, Liliia and Gajski, Domagoj and Pafčo, Barbora and Zurek, Ludek and Malenovský, Igor and Nováková, Eva and Schuler, Hannes and Dittmer, Jessica},
article_location = {Hoboken},
article_number = {12},
doi = {http://dx.doi.org/10.1111/1462-2920.16180},
keywords = {WHITEFLY BEMISIA-TABACI; DIAPHORINA-CITRI; BACTERIAL ENDOSYMBIONT; CACOPSYLLA-MELANONEURA; HEMIPTERA PSYLLOIDEA; APPLE PROLIFERATION; STABLE INTRODUCTION; WOLBACHIA; LIFE; ARSENOPHONUS},
language = {eng},
issn = {1462-2912},
journal = {Environmental Microbiology},
title = {Microbiome of pear psyllids: A tale about closely related species sharing their endosymbionts},
url = {https://doi.org/10.1111/1462-2920.16180},
volume = {24},
year = {2022}
}
TY - JOUR
ID - 2243538
AU - Serbina, Liliia - Gajski, Domagoj - Pafčo, Barbora - Zurek, Ludek - Malenovský, Igor - Nováková, Eva - Schuler, Hannes - Dittmer, Jessica
PY - 2022
TI - Microbiome of pear psyllids: A tale about closely related species sharing their endosymbionts
JF - Environmental Microbiology
VL - 24
IS - 12
SP - 5788-5808
EP - 5788-5808
PB - Wiley
SN - 14622912
KW - WHITEFLY BEMISIA-TABACI
KW - DIAPHORINA-CITRI
KW - BACTERIAL ENDOSYMBIONT
KW - CACOPSYLLA-MELANONEURA
KW - HEMIPTERA PSYLLOIDEA
KW - APPLE PROLIFERATION
KW - STABLE INTRODUCTION
KW - WOLBACHIA
KW - LIFE
KW - ARSENOPHONUS
UR - https://doi.org/10.1111/1462-2920.16180
N2 - Psyllids are phloem-feeding insects that can transmit plant pathogens such as phytoplasmas, intracellular bacteria causing numerous plant diseases worldwide. Their microbiomes are essential for insect physiology and may also influence the capacity of vectors to transmit pathogens. Using 16S rRNA gene metabarcoding, we compared the microbiomes of three sympatric psyllid species associated with pear trees in Central Europe. All three species are able to transmit 'Candidatus Phytoplasma pyri', albeit with different efficiencies. Our results revealed potential relationships between insect biology and microbiome composition that varied during psyllid ontogeny and between generations in Cacopsylla pyri and C. pyricola, as well as between localities in C. pyri. In contrast, no variations related to psyllid life cycle and geography were detected in C. pyrisuga. In addition to the primary endosymbiont Carsonella ruddii, we detected another highly abundant endosymbiont (unclassified Enterobacteriaceae). C. pyri and C. pyricola shared the same taxon of Enterobacteriaceae which is related to endosymbionts harboured by other psyllid species from various families. In contrast, C. pyrisuga carried a different Enterobacteriaceae taxon related to the genus Sodalis. Our study provides new insights into host-symbiont interactions in psyllids and highlights the importance of host biology and geography in shaping microbiome structure.
ER -
SERBINA, Liliia, Domagoj GAJSKI, Barbora PAFČO, Ludek ZUREK, Igor MALENOVSKÝ, Eva NOVÁKOVÁ, Hannes SCHULER a Jessica DITTMER. Microbiome of pear psyllids: A tale about closely related species sharing their endosymbionts. \textit{Environmental Microbiology}. Hoboken: Wiley, 2022, roč.~24, č.~12, s.~5788-5808. ISSN~1462-2912. Dostupné z: https://dx.doi.org/10.1111/1462-2920.16180.
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