2014
DOI: 10.1016/j.asd.2014.07.005
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Symbiosis in the green leafhopper, Cicadella viridis (Hemiptera, Cicadellidae). Association in statu nascendi?

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Cited by 51 publications
(65 citation statements)
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“…Sulcia, the betaproteobacterium Zinderia and a Sodalis-like symbiont) in A. quadrinotata may represent a transitional state in which the most recently acquired Sodalis-like symbiont coexists with the ancestral betaproteobacterium, which has not yet been eliminated. This hypothesis corresponds well with the findings of MICHALIK et al (2014a), which indicate that in the green leafhopper Cicadella viridis (LINNAEUS, 1758) the Sodalis-like symbiont co-resides with the bacterium Sulcia. Moreover, in C. viridis the Sodalis-like symbionts may occur in their own bacteriocytes or may co-reside in bacteriocytes with Sulcia.…”
Section: Discussionsupporting
confidence: 75%
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“…Sulcia, the betaproteobacterium Zinderia and a Sodalis-like symbiont) in A. quadrinotata may represent a transitional state in which the most recently acquired Sodalis-like symbiont coexists with the ancestral betaproteobacterium, which has not yet been eliminated. This hypothesis corresponds well with the findings of MICHALIK et al (2014a), which indicate that in the green leafhopper Cicadella viridis (LINNAEUS, 1758) the Sodalis-like symbiont co-resides with the bacterium Sulcia. Moreover, in C. viridis the Sodalis-like symbionts may occur in their own bacteriocytes or may co-reside in bacteriocytes with Sulcia.…”
Section: Discussionsupporting
confidence: 75%
“…Results of earlier histological studies (MÜLLER 1962, BUCHNER 1965) and more recent ultrastructural and molecular analyses , 2005, TAKIYA et al 2006, MCCUTCHEON et al 2009, MICHALIK et al 2014a, NODA et al 2012, ISHII et al 2013, KOGA et al 2013, BENNETT et al 2014, KOGA & MORAN 2014 have shown that representatives of Cicadomorpha are characterized by an enormous diversity of their symbionts. MORAN et al (2005) and KOGA et al (2013) suggested that the common ancestor of the Cicadomorpha and Fulgoromorpha acquired the bacterium Sulcia and the betaproteobacterial symbiont over 260 million years ago.…”
Section: Discussionmentioning
confidence: 99%
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“…After the loss of critical translation-related genes in Tremblaya, the symbiosis would persist with a bacteria within a bacterium structure because no other structure is possible. We note that Sodalis-and Arsenophonus-allied symbionts were recently suggested to sometimes reside within Sulcia cells in the leafhoppers Cicadella viridis and Macrosteles laevis (66,67). Although these studies were based only on EM imaging and not confirmed by specific probes (e.g., with FISH), it is possible that symbioses formed by bacteria taking up residence inside of degenerate symbionts with host-derived cell envelopes are not uncommon.…”
Section: Diversity Of Intra-tremblaya Symbiont Genomes Suggests Multiplementioning
confidence: 99%