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1 ttsii, the causative agent of Rocky Mountain spotted fever.
2 ranulocytic ehrlichioses, and Rocky Mountain spotted fever.
3 tsia rickettsii, the agent of Rocky Mountain spotted fever.
4 m, and the etiologic agent of Rocky Mountain spotted fever.
5 um and the etiologic agent of Rocky Mountain spotted fever.
6 ttsii, the etiologic agent of Rocky Mountain spotted fever.
7 hat is the etiologic agent of Rocky Mountain spotted fever.
8 drivers of epidemic levels of Rocky Mountain spotted fever.
9 for the development of diagnostic tests for spotted fever.
10 that are the causative agents of typhus and spotted fever.
11 hat is the causative agent of Rocky Mountain spotted fever.
12 s of tissues from humans with Rocky Mountain spotted fever.
15 the R. rickettsia, the etiological agent of spotted fever, able to activate dendritic and macrophage
16 ra antibodies (human IgG) from patients with spotted fever aimed at improving sensitivity and minimiz
18 yphi, the etiologic agents of Rocky Mountain spotted fever and murine typhus, respectively, were clon
20 d clinical characteristics of Rocky Mountain spotted fever and other spotted fever rickettsioses.
21 oth species are possible vectors of Japanese spotted fever and severe fever with thrombocytopenia syn
26 ickettsioses (SFR), including Rocky Mountain spotted fever, are tick-borne infections with frequent n
27 rickettsii, the etiologic agent of Brazilian spotted fever (BSF), this study evaluated infection by R
28 actin-based motility for the non-pathogenic spotted fever group (SFG) R. peacockii, we identified a
30 ring tick transmission, then a more virulent spotted fever group (SFG) Rickettsia species is transmit
33 o members of this family, rOmpA and rOmpB of spotted fever group (SFG) rickettsiae have been identifi
34 sial isolate (isolate MOAa) belonging to the spotted fever group (SFG) was obtained from the lone sta
35 ickettsia, ABM is confined to members of the spotted fever group (SFG), such as Rickettsia rickettsii
36 parthenogenetic book lice species are in the spotted fever group and in the basal limoniae group.
37 t this is the case for the metK genes of the spotted fever group and the Madrid E strain of R. prowaz
40 3), scrub typhus (OR 2.37, CI 1.41-3.96) and spotted fever group diseases (OR 3.91, CI 2.61-5.85).
42 as a model to study different aspects of the spotted fever group of rickettsial disease establishment
43 to develop a tick transmission model of the spotted fever group of rickettsial infections to study t
44 typhus group genes, like the more degenerate spotted fever group orthologs, are in the process of gen
48 ia-tick interaction have discovered that the spotted fever group rickettsia Rickettsia montanensis, a
49 s identified ambiguously as the unclassified spotted fever group Rickettsia species 364-D, Rickettsia
52 how that challenge of D. variabilis with the spotted fever group rickettsia, Rickettsia montanensis,
54 chia chaffeensis, and 6 were infected with a spotted fever group rickettsia; 1 patient had evidence o
55 gic and epidemiologic evidence suggests that spotted fever group rickettsiae (SFGR) other than Ricket
57 role of T lymphocyte subsets in immunity to spotted fever group rickettsiae and the first demonstrat
58 d by insects (i.e., lice and fleas), whereas spotted fever group rickettsiae are exclusively vectored
60 n of R. rickettsii and 10 other genotypes of spotted fever group rickettsiae but not for R. akari, R.
63 nd the first demonstration that clearance of spotted fever group rickettsiae from endothelial cells r
64 differentiate among the causative agents of spotted fever group rickettsiae, and existing polymerase
65 re found to be shared by many species of the spotted fever group rickettsiae, but not typhus group ri
66 n mainland China, including eight species of spotted fever group rickettsiae, seven species in the fa
67 a canis, Babesia canis, Babesia gibsonii, or spotted fever group rickettsiae, was obtained for seven
77 gen rely on the amplification of a conserved spotted fever group rickettsial gene (ompA) followed by
78 at ehrlichial infections may be as common as spotted fever group rickettsial infections in febrile pa
81 ckettsia akari are the most common causes of spotted fever group rickettsioses indigenous to the Unit
83 ases (TBDs) other than Lyme disease, such as spotted fever group rickettsiosis, ehrlichiosis, and gal
86 All patients with confirmed Rocky Mountain spotted fever had contact with tick-infested dogs, and f
87 ach unambiguously showed that Rocky Mountain spotted fever has a tick-borne mode of transmission, the
88 ach unambiguously showed that Rocky Mountain spotted fever has a tick-borne mode of transmission, the
89 ion documents the presence of Rocky Mountain spotted fever in eastern Arizona, with common brown dog
91 eview explores the history of Rocky Mountain spotted fever in Mexico, current epidemiology, and the m
92 ttsii, the etiologic agent of Rocky Mountain spotted fever, induces differential gene expression patt
93 A total of 16 patients with Rocky Mountain spotted fever infection (11 with confirmed and 5 with pr
95 ttsii, the etiologic agent of Rocky Mountain spotted fever, involves the vascular endothelium of vari
99 able tests of early infection, Mediterranean spotted fever is often undiagnosed and untreated, result
100 onorii, the causative agent of Mediterranean spotted fever, is a tick-borne pathogen that primarily i
101 ttsii, the etiologic agent of Rocky Mountain spotted fever, is an obligate intracellular bacterial or
102 ttsii, the causative agent of Rocky Mountain spotted fever, is found throughout the Americas, where i
104 rickettsial infection, primarily tick-borne spotted fever, occurred more frequently than typhoid or
107 ttsii, the etiologic agent of Rocky Mountain spotted fever, replicates within the cytosol of infected
109 st common, with relapsing fever Borrelia and spotted fever Rickettsia found in 15.5% and 3.8% of case
111 at that the etiologic agent of Mediterranean spotted fever, Rickettsia conorii, is susceptible to com
112 pecifically identify cases of Rocky Mountain spotted fever, rickettsialpox, and R. parkeri rickettsio
114 sing R. rickettsii antigen may miss cases of spotted fever rickettsioses caused by other species of S
118 RD diagnosis during 2005-2017; 7,517 (50.7%) spotted fever rickettsiosis (SFR), 4,571 ( 30.8%) ehrlic
119 +) CD25(+) T cells generated in acute murine spotted fever rickettsiosis are Th1-cell-related adaptiv
120 availability of an excellent mouse model of spotted fever rickettsiosis enabled investigation of a p
121 2000, the reported prevalence of tick-borne spotted fever rickettsiosis has increased considerably.
123 for patients with suspected ehrlichiosis and spotted fever rickettsiosis using results from a large a
131 f fatal and nonfatal cases of Rocky Mountain spotted fever (RMSF) were compared to identify risk fact
132 kborne illness that resembles Rocky Mountain spotted fever (RMSF), was first isolated in 1966 from sp
134 a that had been submitted for Rocky Mountain spotted fever testing to the North Carolina State Labora
135 r occlusions in patients with Rocky Mountain Spotted Fever, the results imply a potential role for en
136 NA from 11Rickettsiaspecies belonging to the spotted fever, typhus, and ancestral groups and, in para
137 e are the causative agents of Rocky Mountain spotted fever, typhus, and other human diseases with hig
138 2002 through 2004, a focus of Rocky Mountain spotted fever was investigated in rural eastern Arizona.
139 ablished murine model of fatal Mediterranean spotted fever, we demonstrate that R. conorii(pRam18dRGA
140 ckettsia conorii, the agent of Mediterranean spotted fever, we report here that the autotransporter p