Lilian Järvekülg scite author profile

During the years 2008–2010 I. ricinus and I. persulcatus ticks were collected from 64 sites in mainland Estonia and on the island Saaremaa. Presence of B. miyamotoi was found in 0.9% (23/2622) of ticks. The prevalence in I. persulcatus and I. ricinus ticks differed significantly, 2.7% (15/561) and 0.4% (8/2061), respectively. The highest prevalence rates were in found South-Eastern Estonia in an area of I. persulcatus and I. ricinus sympatry and varied from 1.4% (1/73) to 2.8% (5/178). Co-infections with B. burgdorferi s.l. group spirochetes and tick-borne encephalitis virus were also revealed. Genetic characterization of partial 16S rRNA, p66 and glpQ genes demonstrated that Estonian sequences belong to two types of B. miyamotoi and cluster with sequences from Europe and the European part of Russia, as well as with sequences from Siberia, Asia and Japan, here designated as European and Asian types, respectively. Estonian sequences of the European type were obtained from I. ricinus ticks only, whereas the Asian type of B. miyamotoi was shown for both tick species in the sympatric regions.

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Biochemical and Genetic Evidence for Interactions between Potato A Potyvirus-Encoded Proteins P1 and P3 and Proteins of the Putative Replication Complex

Merits

Guo

Järvekülg

et al. 1999

Virology

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Interactions of the first and third proteins (P1 and P3) of the potato A potyvirus (PVA) with the other six main proteins of PVA were studied using Escherichia coli-expressed recombinant proteins in two in vitro interaction assays and a genetic assay yeast two-hybrid system (YTHS). In overlay blotting and binding assays in liquid, P1 and P3 interacted with each other and with proteins of the putative replication complex of potyvirus: RNA-helicase (CI), viral protein genome-linked (VPg), NIa proteinase part (NIaPro), and RNA-dependent-RNA-polymerase (NIb). In addition, P1 self-interaction and interaction with helper-component proteinase (HC-Pro) also were detected. Neither P1 nor P3 interact with coat protein (CP) or with various control proteins. In the YTHS, P1 interacted only with CI and P3 with NIb. The different results obtained using the two test systems may reflect changes in interactions at different stages of potyvirus infection: in the virus genome replication and the virion accumulation stages when nonstructural proteins form inclusions. Our data are consistent with previous functional data, indicating that P1 and P3 proteins are involved in potyvirus genome amplification and provide the first direct evidence that these proteins interact with the proteins that have been shown to be part of the replication complex.

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In Situ Spatial Organization of Potato Virus A Coat Protein Subunits as Assessed by Tritium Bombardment

Baratova

Ефимов

Добров

et al. 2001

J Virol

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Potato virus A (PVA) particles were bombarded with thermally activated tritium atoms, and the intramolecular distribution of the label in the amino acids of the coat protein was determined to assess their in situ steric accessibility. This method revealed that the N-terminal 15 amino acids of the PVA coat protein and a region comprising amino acids 27 to 50 are the most accessible at the particle surface to labeling with tritium atoms. A model of the spatial arrangement of the PVA coat protein polypeptide chain within the virus particle was derived from the experimental data obtained by tritium bombardment combined with predictions of secondary-structure elements and the principles of packing ␣-helices and ␤-structures in proteins. The model predicts three regions of tertiary structure: (i) the surface-exposed N-terminal region, comprising an unstructured N terminus of 8 amino acids and two ␤-strands, (ii) a C-terminal region including two ␣-helices, as well as three ␤-strands that form a two-layer structure called an abCd unit, and (iii) a central region comprising a bundle of four ␣-helices in a fold similar to that found in tobacco mosaic virus coat protein. This is the first model of the three-dimensional structure of a potyvirus coat protein.

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The organization of potato virus X coat proteins in virus particles studied by tritium planigraphy and model building

et al. 1992

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Tick-Borne Pathogens in Ticks Feeding on Migratory Passerines in Western Part of Estonia

Geller

Nazarova

Katargina

et al. 2013

Vector-Borne and Zoonotic Diseases

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During southward migration in the years [2006][2007][2008][2009] 178 migratory passerines of 24 bird species infested with ticks were captured at bird stations in Western Estonia. In total, 249 nymphal ticks were removed and analyzed individually for the presence of Borrelia burgdorferi sensu lato (s.l.), tick-borne encephalitis virus (TBEV), and Anaplasma phagocytophilum. The majority of ticks were collected from Acrocephalus (58%), Turdus (13%), Sylvia (8%), and Parus (6%) bird species. Tick-borne pathogens were detected in nymphs removed from Acrocephalus, Turdus, and Parus bird species. TBEV of the European subtype was detected in 1 I. ricinus nymph removed from A. palustris. B. burgdorferi s.l. DNA was found in 11 ticks (4.4%) collected from Turdus and Parus species. Birdassociated B. garinii and B. valaisiana were detected in I. ricinus nymphs removed from T. merula. Rodentassociated B. afzelii was detected in 3 I. ricinus nymphs from 2 P. major birds. One of the B. afzelii-positive nymphs was infected with a mix of 2 B. afzelii strains, whereas 1 of these strains was also detected in another nymph feeding on the same great tit. The sharing of the same B. afzelii strain by 2 nymphs indicates a possible transmission of B. afzelii by co-feeding on a bird. A. phagocytophilum DNA was detected in 1 I. ricinus nymph feeding on a T. iliacus. The results of the study confirm the possible role of migratory birds in the dispersal of ticks infected with tick-borne pathogens along the southward migration route via Estonia.

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