about
Recombinase polymerase amplification assay for rapid detection of Francisella tularensisIdentification of a new Borrelia species among small mammals in areas of northern Spain where Lyme disease is endemic.Complement factor H binding by different Lyme disease and relapsing fever Borrelia in animals and humanDescription of Francisella hispaniensis sp. nov., isolated from human blood, reclassification of Francisella novicida (Larson et al. 1955) Olsufiev et al. 1959 as Francisella tularensis subsp. novicida comb. nov. and emended description of the genusVariability of Bartonella genotypes among small mammals in Spain.Phylogenetic analysis of a virulent Borrelia species isolated from patients with relapsing fever.Molecular method for the characterization of Coxiella burnetii from clinical and environmental samples: variability of genotypes in Spain.Distribution of Bartonella henselae variants in patients, reservoir hosts and vectors in SpainTick-borne zoonotic bacteria in wild and domestic small mammals in northern SpainLong-range dispersal moved Francisella tularensis into Western Europe from the East.Tularemia Outbreaks and Common Vole (Microtus arvalis) Irruptive Population Dynamics in Northwestern Spain, 1997-2014.In vitro culture of Borrelia garinii results in loss of flagella and decreased invasiveness.Density-Dependent Prevalence of Francisella tularensis in Fluctuating Vole Populations, Northwestern Spain.Detection of Coxiella burnetii in ticks collected from Central Spain.[Diseases produced by Borrelia].Towards Development of Improved Serodiagnostics for Tularemia by Use of Francisella tularensis Proteome MicroarraysPatterns of tick infestation and their Borrelia burgdorferi s.l. infection in wild birds in Portugal.Francisella species in ticks and animals, Iberian Peninsula.Molecular method for identification of Rickettsia species in clinical and environmental samplesThe importance of lizards and small mammals as reservoirs for Borrelia lusitaniae in Portugal.Molecular method for Bartonella species identification in clinical and environmental samples.Molecular method for discrimination between Francisella tularensis and Francisella-like endosymbionts.Distribution of Borrelia burgdorferi sensu lato in Ixodes ricinus (Acari: Ixodidae) ticks from the Basque Country, Spain.Irruptive mammal host populations shape tularemia epidemiology.Use of the C3H/He Lyme disease mouse model for the recovery of a Spanish isolate of Borrelia garinii from erythema migrans lesions.A possible novel Francisella genomic species isolated from blood and urine of a patient with severe illness.[Tularemia: a decade in the province of Soria (Spain)].Zoonotic pathogens in fluctuating common vole (Microtus arvalis) populations: occurrence and dynamicsEritema migratorio por Borrelia afzeliiNuevo caso de tularemia autóctona transmitido por picadura de garrapataArthropod-Borne Bacteria Cause Nonmalarial Fever in Rural Ethiopia: A Cross-Sectional Study in 394 PatientsZoonotic Bacteria in Fleas Parasitizing Common Voles, Northwestern Spain
P50
Q24629492-8F6E8B28-C283-49DE-BE70-7D4EE25E08A3Q30984086-1A4C2820-EEF3-4358-9899-77244A0CBCDAQ33482470-D295CC96-6AA0-4EB6-BEB7-7EFEEF42560BQ33506930-460D173D-A396-4319-8411-4115F16B5849Q33714035-F8ED202A-22CA-4D12-8CEF-C898F2BC69FEQ33963701-B7870C3D-D24D-467D-8F86-2DA9F88DBDAEQ34289317-2F369CE1-568A-4AC6-B0D7-CF2C50DAF124Q34847640-B840746A-6131-4F0D-A086-4CDB59C0C6ACQ36137075-4C180AFE-598D-4441-A4DA-5F2E0E048865Q37712765-C74E2281-067F-426E-979F-5F2263077B23Q38968104-C7C57732-BFD6-4C03-840C-22636C39D118Q39656375-8E6DFBE1-32D0-4EB8-A051-65DAE522A228Q40115415-5BF792E6-609A-42D7-97D9-B745BF64015FQ40406736-F8D013E9-2A9E-466F-912F-2FD61A166FD2Q40510931-B9366664-F638-45B7-A1D9-348BCC5914BEQ40705741-BA52163B-6744-4219-A8A0-AB04EEF1D44DQ40753228-56B9472C-7C8E-4B2A-980B-0011488B65DEQ40929033-5FC3E72A-03BC-4017-A970-85DD081A65CAQ41071222-DF3ACA8E-F4C2-47B4-B702-F63B52384365Q41712524-839157F7-107B-4B5F-A42F-52822A0EAA19Q42154168-AFF55E21-A96B-4468-9F64-3FD3EAB4C898Q42752578-C8076A76-AE9B-40C6-A161-AA2F9C0A8F99Q44992015-C41CF36F-0DE8-421D-88A8-825E88323DADQ47136865-6730EC0C-0ED4-4364-8472-DE622D702469Q48017462-0334729A-7385-4A6F-BE7C-8C81F7A943EAQ48068178-9B1216F1-ACAE-4817-9C2D-CA6ACD8330ECQ52697313-937B605D-5AE7-4BA0-82D8-4C6DED2F464DQ57007278-9929545C-FF7D-452C-A3C1-A7732A40E3D5Q60586787-F547B072-2C62-4521-8CC2-F73868991C1EQ60586791-422C6A7C-56E1-477F-8142-70865FDE19B7Q92656893-CC0CA57B-7FCB-41F0-AECA-62CB375FBDFEQ92847873-29F231B3-2E17-4315-94A8-0B2067A2F1DD
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Raquel Escudero
@ast
Raquel Escudero
@en
Raquel Escudero
@es
Raquel Escudero
@nl
Raquel Escudero
@sl
type
label
Raquel Escudero
@ast
Raquel Escudero
@en
Raquel Escudero
@es
Raquel Escudero
@nl
Raquel Escudero
@sl
prefLabel
Raquel Escudero
@ast
Raquel Escudero
@en
Raquel Escudero
@es
Raquel Escudero
@nl
Raquel Escudero
@sl
P1053
I-3353-2017
P106
P21
P31
P3829
P496
0000-0001-6275-3225