ライフサイエンスコーパス: neurovirulent

1 G3BP protein families, made EEEV cease to be neurovirulent.

2 ore, neurotropic strains are not necessarily neurovirulent.

3 s of SIV/17E-Br is macrophage tropic but not neurovirulent.

4 WPV1-SOAS isolates were neurovirulent (50% intramuscular paralytic dose in Tg21-

5 eurovirulent (Jeryl Lynn vaccine) and highly neurovirulent (88-1961 wild type) mumps virus strains we

6 V-JHM strain and the hepatotropic and mildly neurovirulent A59 strain in acute infection of the mouse

7 wild-type JHM spike (SJHM/RA59) were highly neurovirulent, A59 recombinants containing the N514S mut

8 Bovine herpesvirus 5 (BHV-5) is a neurovirulent alphaherpesvirus that causes fatal encepha

9 ine encephalitis virus (NA-EEEV) is uniquely neurovirulent among encephalitic alphaviruses, causing m

10 SU/TM) within the CNS using either the "non-neurovirulent" amphotropic helper virus, 4070A, or pgag-

11 sites of several paramyxoviruses, including neurovirulent and avirulent strains of NDV.

12 The JHM strain of MHV is highly neurovirulent and expresses a second spike glycoprotein,

13 cellular GADD34 gene, renders the virus non-neurovirulent and imposes a block to viral replication i

14 Our results show that both neurovirulent and nonneurovirulent MLVs interfere with o

15 The relative abilities of neurovirulent and nonneurovirulent SINV strains to downr

16 tly into the bulb, both viruses were equally neurovirulent, and they were transported retrogradely to

17 Zika virus (ZIKV) is a neurotropic and neurovirulent arbovirus that has severe detrimental impa

18 They were as neurovirulent as the wild type 1 Mahoney strain, recombi

19 ions in the E2 cytoplasmic domain, using the neurovirulent background strain, TE12.

20 The gE sequence of the neurovirulent bovine herpesvirus 5 (BHV-5) was determine

21 In contrast, the YF/JE-N virus was neurovirulent, but the phenotype resembled parental YF v

22 aging/producer cells in order to deliver the neurovirulent CasBrE env gene to endogenous CNS cells.

23 seudotype, disseminate, and trans-complement neurovirulent (CasBrE, CasE, and CasES) or non-neuroviru

24 rotection from experimental challenge with a neurovirulent CHIKV.

25 Clinical signs caused by both neurovirulent chimeras appeared to be indistinguishable

26 rus for this type of modification, we used a neurovirulent chimeric tick-borne encephalitis/dengue vi

27 stems (CNS) of mice infected with the highly neurovirulent chimeric virus FrCas(E).

28 transforms live-attenuated polioviruses into neurovirulent circulating vaccine-derived polioviruses,

29 naive mice following ocular challenge with a neurovirulent clinical isolate of HSV-1.

30 viruses SIVmac239, a lymphocyte-tropic, non-neurovirulent clone, and SIV/17E-Br, a macrophage-tropic

31 protein synthesis lower than those of their neurovirulent counterparts.

32 ned the PreM-E genes or only the NS1 gene of neurovirulent DEN2 NGC substituting for the correspondin

33 The mutations present in the neurovirulent DEN2 PreM-E genes were then substituted si

34 lly protected from challenge with homologous neurovirulent dengue viruses by intracerebral inoculatio

35 challenge with 25 50% lethal doses of mouse neurovirulent DENV-4 strain H241.

36 ine isolate possesses enhanced neuroinvasive/neurovirulent disease causing fatal respiratory and neur

37 Infection with the neurovirulent dsTE12H strain was associated with both a

38 alaysia, and the appearance in Asia of a new neurovirulent enterovirus 71 strain that causes severe n

39 icroglia-mediated disease appears to require neurovirulent Env protein interaction with other viral p

40 these viruses encoding portions of the same neurovirulent envelope protein.

41 ly infect hBMECs.IMPORTANCE ZIKV is a unique neurovirulent flavivirus that persistently infects human

42 r, we produced four chimeras which contained neurovirulent FMCF98 envelope sequences combined with en

43 gue-4 virus, but not YFV/dengue-2 virus, was neurovirulent for 3-week-old mice by intracerebral inocu

44 The ChimeriVax-D2 was not neurovirulent for 4-week-old outbred mice inoculated int

45 er, laboratory strains of SB can be rendered neurovirulent for adult mice by introduction of a glutam

46 The DEN2 (PreM-E)/DEN4 chimera was neurovirulent for mice, whereas DEN2 (NS1)/DEN4 was not.

47 we examined here whether their infection by neurovirulent (FrCasE) or nonneurovirulent (Fr57E) ecotr

48 urovirulent (CasBrE, CasE, and CasES) or non-neurovirulent (Friend and SFF-FE) env sequences (SU or S

49 o whether the test can reliably discriminate neurovirulent from nonneurovirulent mumps virus strains.

50 Thus, identifying viral neurovirulent genes and characterizing their functions a

51 Modified, non-neurovirulent herpes simplex viruses (HSV) have shown pr

52 and replication, the evolution/selection of neurovirulent HIV-1 strains and the production of viral

53 Although both LACV and JCV are highly neurovirulent in 21 day-old mice, with 50% lethal dose (

54 ~7.5 log(10) PFU/ml in Vero cells, were not neurovirulent in 3- to 4-week-old ICR mice inoculated by

55 ber of the Sindbis group of alphaviruses, is neurovirulent in adult mice and has a unique threonine a

56 ken from neonates with encephalitis are more neurovirulent in human neuronal culture and mouse models

57 SIV/17E-Fr is macrophage tropic in vitro and neurovirulent in macaques.

58 All VDPVs were neurovirulent in mice.

59 ; the chimera was at least 28,500 times less neurovirulent in suckling mice inoculated intracerebrall

60 subsequent intracerebral challenge with the neurovirulent influenza A/WSN and this heterotypic prote

61 observed in sera from mice infected with the neurovirulent isolates of HVP2 (HVP2nv).

62 encephalitis and hepatitis, while the highly neurovirulent JHM strain induces a fatal encephalitis wi

63 ted the ability of this model to distinguish neurovirulent (Kilham) from nonneurovirulent (Jeryl Lynn

64 Both SP7 and LP5 variants were neurovirulent (lethal following intracranial inoculation

65 ch circulated and evolved into both a highly neurovirulent lineage and a less neurovirulent lineage.

66 th a highly neurovirulent lineage and a less neurovirulent lineage.

67 The development of potentially neurovirulent, live, attenuated mumps virus vaccines ste

68 MPRSS2 greatly enhanced entry, of the highly neurovirulent MHV strain JHM.SD relative to their effect

69 fluence of the replicase genes of the highly neurovirulent MHV-JHM strain and the hepatotropic and mi

70 stigated here whether their infection by the neurovirulent MLV FrCasE contributed to neurodegeneratio

71 mmunosuppressive virus (SIV/DeltaB670) and a neurovirulent molecularly cloned virus (SIV/17E-Fr), and

72 rrelate with neurovirulence, we compared two neurovirulent MuLV, Fr98 and Fr98/SE, with a nonneurovir

73 irus replication, Glycogag-null mutants of a neurovirulent murine oncornavirus are slow to spread in

74 CasBrE is a neurovirulent murine retrovirus which induces a spongifo

75 fection by FrCas(E) as well as that by other neurovirulent murine retroviruses has been described in

76 lpha to neurological disease induced by four neurovirulent murine retroviruses, with three of these v

77 Guinea C (NGC) strain and its mouse-adapted, neurovirulent mutant revealed that 10 nucleotide changes

78 ssage of dengue viruses in mice selected for neurovirulent mutants that also exhibited significant at

79 (MAPREC) is used to measure the frequency of neurovirulent mutations at the 5' untranslated region (U

80 ple strains of mice and were induced only by neurovirulent, not avirulent, virus infection.

81 Infection by neurovirulent pathogens in utero and during the neonatal

82 , the miRNA-targeted viruses can revert to a neurovirulent phenotype by accumulating deletions or mut

83 and sufficient for expression of the lethal neurovirulent phenotype in the natural host.

84 ns, demonstrating intra-host evolution and a neurovirulent phenotype in transgenic mice.

85 covery that this region strongly affects the neurovirulent phenotype of poliovirus, we have embarked

86 gene alone is sufficient to confer a highly neurovirulent phenotype to a recombinant virus deriving

87 n of the JHM spike is sufficient to confer a neurovirulent phenotype, as well as increased macrophage

88 102)A(103) reversion alone reestablished the neurovirulent phenotype.

89 protein (S310G) that recapitulated the more neurovirulent phenotype.

90 o confer the neurotropic, neuroinvasive, and neurovirulent phenotypes, in spite of all being at reduc

91 In contrast, many neurovirulent picornavirus infections are acute and tran

92 The IRES of a neurovirulent picornavirus, the GDVII strain of Theiler'

93 rm asymptomatic excretion of vaccine-derived neurovirulent poliovirus 2 was identified in this hypoga

94 studies, with a view to clearing persistent neurovirulent poliovirus infection in an individual with

95 Individuals who chronically excrete neurovirulent poliovirus of vaccine-origin are of consid

96 seful role for environmental surveillance of neurovirulent polioviruses in the overall polio eradicat

97 -related genes during infection of mice with neurovirulent polytropic retrovirus.

98 riants are tested in CD155 tg mice for their neurovirulent potential, particularly in assays of live

99 for the first time, potent neuroinvasive and neurovirulent properties of a WNV-like virus outside lin

100 Because of the highly neurotropic and neurovirulent properties of wild-type mumps viruses, mos

101 virus variant with decreased neurotropic and neurovirulent properties were recovered.

102 ed in the manufacture of mumps vaccines have neurovirulent properties, a monkey neurovirulence safety

103 virus; however, previous work indicated that neurovirulent PV type 1 Mahoney [PV(1)Mahoney] can produ

104 Among viruses carrying the neurovirulent RBD, the severity of the disease was incre

105 st 21 different genotypes, and SIV/17E-Fr, a neurovirulent recombinant clone.

106 ning, was detected in mice infected with the neurovirulent retrovirus Fr98 but not in mice infected w

107 NTES, are upregulated in the brain following neurovirulent retrovirus infection in humans and in anim

108 nvestigate these possibilities, we studied a neurovirulent retrovirus, Fr98, that induces severe non-

109 The neurovirulent retroviruses FrCasE and Moloney MLV-ts1 ca

110 ence in animals and also for the presence of neurovirulent revertants.

111 necessarily discriminate among the relative neurovirulent risks of mumps virus strains.

112 nized as a neurotropic gene in vivo, but its neurovirulent role remains unclear.

113 al parenchyma during encephalitis induced by neurovirulent Sindbis virus (NSV).

114 he host protective or pathologic response to neurovirulent Sindbis virus infection.

115 ontribute to adult mouse neurovirulence, the neurovirulent Sindbis virus strain AR86 was compared to

116 A neurovirulent Sindbis virus strain with neuroinvasive pr

117 ithelial cells (MEC), but laboratory-derived neurovirulent SINV strain TE/5'2J infects MEC poorly.

118 loped a reverse genetics system based on the neurovirulent Snyder Hill (SH) strain of CDV (CDV(SH)) a

119 4) A(2254) nucleotide mutation introduced in neurovirulent strain Ab4, which resulted in an asparagin

120 The adult mouse neurovirulent strain AR86 was found to rapidly and robus

121 myelitis and demyelination, while the highly neurovirulent strain JHM.SD (MHV-4) causes fatal encepha

122 o sensitively assess the in vivo spread of a neurovirulent strain of CDV provides a novel model syste

123 munodominant CD8+ T-cell epitope of a highly neurovirulent strain of mouse hepatitis virus (MHV), JHM

124 A neurovirulent strain of Sindbis virus (NSV) causes fatal

125 A neurovirulent strain of Sindbis virus (NSV) causes fatal

126 A neurovirulent strain of Sindbis virus causes immune-medi

127 rom sural nerves of macaques infected with a neurovirulent strain of SIV showed impaired mitochondria

128 , SIV/17E-Fr, that contained the 3' end of a neurovirulent strain of SIV, SIV/17E-Br, derived by in v

129 mortality rates after infection with NSV, a neurovirulent strain of SV, were as follows v: 81% (17 o

130 A neurovirulent strain of the alphavirus Sindbis virus (NS

131 ease in the current epidemic suggests a more neurovirulent strain of virus than the one classically a

132 Infection of BCECs by the neurovirulent strain SIV/17E-Fr was completely inhibited

133 on to introduce the S gene of MHV4, a highly neurovirulent strain, into the genome of MHV-A59, a mild

134 strain, into the genome of MHV-A59, a mildly neurovirulent strain, we have been able to directly addr

135 d by MHV-A59, a hepatotropic but only mildly neurovirulent strain.

136 Two neurovirulent strains of PV, PV(1)Mahoney and PV(2)MEF-1

137 s were infected with pairs of attenuated and neurovirulent strains of PV.

138 This study demonstrated that neurovirulent strains within the virus swarm can selecti

139 fferent target populations of neurons during neurovirulent SV infection of weanling mice.

140 course of infection in older animals, a more neurovirulent SV vector (dsNSV) was constructed from a v

141 55)= glutamine), yet TE is considerably more neurovirulent than 633.

142 esults which showed that while SHBRV is less neurovirulent than COSRV when administered via the intra

143 YFV/JEV SA14-14-2, or ChimeriVax-JE) is less neurovirulent than is YFV 17D vaccine in mouse and nonhu

144 ChimeriVax-WN virus vaccine is less neurovirulent than the commercial YF 17D vaccine in mice

145 ronavirus mouse hepatitis virus is much more neurovirulent than the MHV-A59 strain, although both str

146 the chimeras were at least 5,000 times less neurovirulent than their parental LGT virus in suckling

147 we show that an HSV-1 ICP47- mutant is less neurovirulent than wild-type HSV-1 in mice, but replicat

148 Powassan viruses (POWVs) are neurovirulent tick-borne flaviviruses emerging in the no

149 e used for maintaining global eradication of neurovirulent type-2 polioviruses.

150 nd genetically stable and do not become more neurovirulent upon 20 passages in Vero cells.

151 o vaccination with insufficiently attenuated neurovirulent vaccine strains.

152 cond compensatory mutation, yielded a highly neurovirulent variant.

153 Neurovirulent Venezuelan equine encephalitis virus (VEEV

154 nd wild-type 129 SV(ev) mice infected with a neurovirulent viral strain, neuroadapted Sindbis virus (

155 We have studied a highly neurovirulent virus called FrCasE that causes a rapidly

156 eptibility to excitotoxic insult mediated by neurovirulent virus effects on other glial subtypes.

157 wise, only viruses containing the RBD of the neurovirulent virus exhibited increased binding of the E

158 acaques in order to examine the effects of a neurovirulent virus in this context.

159 ned the receptor-binding domain (RBD) of the neurovirulent virus induced neurological disease.

160 ells and neuronal cells, as a correlate with neurovirulent virus infection.

161 s increased when envelope sequences from the neurovirulent virus outside the RBD were also present.

162 l of viral envelope glycoprotein gp41 of the neurovirulent virus SIVsm804E that enhance replication i

163 e role of gK/UL20 in the context of a highly neurovirulent virus strain, the HSV-1(McKrae) genome was

164 clone, and SIV/17E-Br, a macrophage-tropic, neurovirulent virus strain.

165 The more neurovirulent virus TE, which differs from 633 by a sing

166 ation, was able to convert rJL into a highly neurovirulent virus, highlighting mechanistic difference

167 ng the remainder of its genome from a mildly neurovirulent virus, MHV-A59.

168 Studies on the neurovirulent viruses FrCas(NC) and Moloney murine leuke

169 , as well as the infection of the brain with neurovirulent viruses in this behavioural disorder.

170 est that the selection of macrophage-tropic, neurovirulent viruses occurs not at the level of the blo

171 only a limited subset of macrophage-tropic, neurovirulent viruses replicate terminally in the brains

172 , we demonstrate that the macrophage-tropic, neurovirulent viruses SIV/17E-Br and SIV/17E-Fr replicat

173 Two macrophage-tropic, neurovirulent viruses, SIV/17E-Fr and SIV/DeltaB670 Cl-2

174 are pivotal in the selective replication of neurovirulent viruses.

175 when inoculated subcutaneously but remaining neurovirulent when inoculated intracranially.

176 and members of the GDVII subgroup are highly neurovirulent, while the DA strain and members of the TO

177 ns of genes derived from a cDNA clone of the neurovirulent wild-type 88-1961 strain (r88) and from a