ライフサイエンスコーパス: negative-strand RNA virus

1 rotein encoded by Rice stripe virus (RSV), a negative-strand RNA virus.

2 us, Indiana serotype (VSV(IND)), a prototype negative-strand RNA virus.

3 ratory syncytial virus (RSV), a nonsegmented negative-strand RNA virus.

4 loop of the PRNTase domain in non-segmented negative strand RNA viruses.

5 rapy for EVD, as has been proposed for other negative strand RNA viruses.

6 feron induction in cells infected with these negative strand RNA viruses.

7 information is available about SIE of plant negative-strand RNA viruses.

8 As, which are characteristic of nonsegmented negative-strand RNA viruses.

9 has counterparts in a number of nonsegmented negative-strand RNA viruses.

10 previously appreciated for the nonsegmented negative-strand RNA viruses.

11 enters, with an emphasis on the nonsegmented negative-strand RNA viruses.

12 ion of RNA replication in multiple-segmented negative-strand RNA viruses.

13 te efficient RNA synthesis, commonly used by negative-strand RNA viruses.

14 on template preference in multiple-segmented negative-strand RNA viruses.

15 ous recombination, which was not observed in negative-strand RNA viruses.

16 of the RNA polymerase (L) of non-segmented, negative-strand RNA viruses.

17 unique GDNQ motif normally characteristic of negative-strand RNA viruses.

18 ts in the design of new therapeutics against negative-strand RNA viruses.

19 ances led to a resurgence in DIP studies for negative-strand RNA viruses.

20 ire of targets for antiviral therapy against negative-strand RNA viruses.

21 and possibly other families of nonsegmented negative-strand RNA viruses.

22 which are a characteristic hallmark of many negative-strand RNA viruses.

23 autophagy can play an antiviral role against negative-strand RNA viruses.

24 , with implications for many other segmented negative-strand RNA viruses.

25 rget for developing antivirals against other negative-strand RNA viruses.

26 Arenaviruses are enveloped, negative-strand RNA viruses.

27 let-shaped rhabdovirus and a model system of negative-strand RNA viruses.

28 antiviral therapeutics against nonsegmented negative-strand RNA viruses.

29 virus (VSV), a prototype of the nonsegmented negative-strand RNA viruses.

30 Vesicular stomatitis virus is a negative-stranded RNA virus.

31 habdoviruses that may be applicable to other negative-stranded RNA viruses.

32 hanism of replication of influenza and other negative-stranded RNA viruses.

33 contribute to pathogenicity in a variety of negative-stranded RNA viruses.

34 importance for efficient budding of several negative-stranded RNA viruses.

35 es of a number of L proteins of nonsegmented negative-strand RNA viruses, a cluster of high-homology

36 The large (L) proteins of non-segmented, negative-strand RNA viruses, a group that includes Ebola

37 rate vaccine candidates against nonsegmented negative-strand RNA viruses, a large and expanding group

38 element in control of gene expression of the negative strand RNA viruses and a means by which express

39 J paramyxovirus (JPV) is a nonsegmented negative-strand RNA virus and a member of the proposed g

40 ties in the polymerase proteins of segmented negative-strand RNA viruses and for the search for antiv

41 e viral genome can form during infections of negative-strand RNA viruses and outgrow full-length vira

42 ation strategy should be applicable to other negative-strand RNA viruses and will promote studies int

43 Replication of genomes from negative strand RNA viruses (and RNA viruses in general)

44 he largest nucleoprotein of the nonsegmented negative-stranded RNA viruses, and like the NPs of other

45 The phosphoproteins (P) of nonsegmented negative strand RNA viruses are viral RNA polymerase sub

46 The negative-strand RNA viruses are a broad group of animal

47 Negative-stranded RNA viruses are a large group of virus

48 stomatitis virus, a prototypic nonsegmented negative-strand RNA virus, are required for terminal de

49 ratory syncytial virus (RSV), a nonsegmented negative-strand RNA virus, are separated by intergenic r

50 In addition, the use of different negative-strand RNA viruses as vectors to efficiently ex

51 nt RNA polymerase L proteins of nonsegmented negative-strand RNA viruses belonging to the Mononegavir

52 y delineate the evolutionary relationship of negative-strand RNA viruses but also provide insights in

53 Phosphorylation of P proteins in several negative strand RNA viruses by specific cellular kinases

54 tiviral action of IFN against a nonsegmented negative-strand RNA virus by targeting the primary trans

55 that La supports the growth of nonsegmented negative-strand RNA viruses by both IFN suppression and

56 function, against a number of positive- and negative-strand RNA viruses by enhancing type I IFN indu

57 In addition, recombinant negative-strand RNA viruses can now be designed to have

58 dependent RNA polymerase of the nonsegmented negative-strand RNA viruses carries out two distinct RNA

59 Importance: The paramyxovirus family of negative-strand RNA viruses cause significant disease in

60 ses are a large family of membrane-enveloped negative-stranded RNA viruses causing important diseases

61 irovirus (HAZV) is an enveloped trisegmented negative-strand RNA virus classified within the Nairovir

62 The nonsegmented negative strand RNA viruses comprise hundreds of human,

63 mal RNA synthesis machinery of non-segmented negative-strand RNA viruses comprises a genomic RNA enca

64 Negative-strand RNA viruses condense their genome into h

65 cular stomatitis virus (VSV), a nonsegmented negative-strand RNA virus, directs two discrete RNA synt

66 For some negative-strand RNA viruses (e.g., vesicular stomatitis

67 verse members of the Paramyxovirus family of negative-strand RNA viruses effectively suppress host in

68 Paramyxoviruses and other negative-strand RNA viruses encode matrix proteins that

69 Negative-strand RNA viruses encode their own polymerases

70 this control, HDV behaves similarly to other negative-strand RNA viruses, even though there is no gen

71 irus, which represent viruses from different negative-strand RNA virus families.

72 ttenuate VSV, and perhaps other nonsegmented negative-strand RNA viruses, for potential application a

73 The nucleoprotein of negative-strand RNA viruses forms a major component of t

74 Rescue of negative-stranded RNA viruses from full-length genomic c

75 In contrast to most negative-stranded RNA viruses, hantaviruses and other vi

76 etics techniques to manipulate the genome of negative-strand RNA viruses has contributed enormously t

77 w that the mechanism of RNA encapsidation in negative-strand RNA viruses has many common features.

78 ies to genetically manipulate the genomes of negative-strand RNA viruses has provided us with new too

79 Because monopartite negative strand RNA viruses have not been reported to un

80 Thus, our characterization of this negative-strand RNA virus identified a novel replication

81 encoded by Rice grassy stunt virus (RGSV), a negative-strand RNA virus in the Bunyavirales, causes de

82 The mumps virus is a negative-strand RNA virus in the family Paramyxoviridae.

83 (VSV) is the prototype virus for 75 or more negative-strand RNA viruses in the rhabdovirus family.

84 the closest relatives of NYNV and MIDWV are negative-stranded-RNA viruses in the order Mononegaviral

85 Negative-strand RNA viruses include a diverse set of vir

86 is required for the entry of the prototypic negative-strand RNA virus, including influenza A virus a

87 Nonsegmented negative-strand RNA viruses, including measles virus (Me

88 Negative-strand RNA viruses, including paramyxoviruses,

89 rnalized viral ribonucleoproteins (vRNPs) of negative-strand RNA viruses induce an early IFN response

90 Rabies viruses, negative-strand RNA viruses, infect neurons through axon

91 itive-strand RNA virus infections but not in negative-strand RNA virus infections.

92 The nucleocapsid of a negative-strand RNA virus is assembled with a single nuc

93 Gene expression among the nonsegmented negative-strand RNA viruses is controlled by distance fr

94 The genome of nonsegmented negative-strand RNA viruses is tightly embedded within a

95 The viral polymerase of influenza virus, a negative-strand RNA virus, is believed to polyadenylate

96 and reveal the structural organization of a negative-strand RNA virus L protein.

97 The negative-strand RNA virus measles virus (MeV) uses tissu

98 tinuous RNA-protective path, consistent with negative-strand RNA virus mechanisms.

99 een documented previously for a nonsegmented negative-strand RNA virus (mononegavirus).

100 riation of the adaptability of a debilitated negative-strand RNA virus, namely the generation of defe

101 ding is a departure from other nonsegmented, negative-strand RNA viruses (NNSVs) that have been studi

102 Vesicular stomatitis virus (VSV) is a negative-stranded RNA virus normally sensitive to the an

103 by modeling crystal structures of homologous negative strand RNA virus Ns in NC.

104 and replication processes of non-segmented, negative-strand RNA viruses (nsNSVs) are catalyzed by a

105 The nonsegmented, negative-strand RNA viruses (nsNSVs), also known as the

106 The negative-strand RNA viruses (NSRVs) are unique because t

107 What separates negative-strand RNA viruses (NSVs) from the rest of the

108 Negative-strand RNA viruses (NSVs) include some of the m

109 SV genome for viral RNA synthesis.IMPORTANCE Negative-strand RNA viruses (NSVs) include the most path

110 Like other negative-strand RNA viruses (NSVs) such as influenza and

111 nfluenza virus type 3 (PIV3), a nonsegmented negative-strand RNA virus of the Paramyxoviridae family

112 nt to be a previously unrecognized enveloped negative-strand RNA virus of the Paramyxoviridae family,

113 Rhabdoviruses are negative-stranded RNA viruses of the order Mononegaviral

114 nges of the M proteins of other nonsegmented negative-strand RNA viruses on their interactions with m

115 r Mononegavirales (comprised of nonsegmented negative-stranded RNA viruses or NNSVs) contains many im

116 eplication and transcription of nonsegmented negative strand RNA viruses (or Mononegavirales) are bel

117 rus (BDV) is a newly classified nonsegmented negative-strand RNA virus (order of Mononegavirales) tha

118 The nonsegmented negative-strand RNA viruses (order Mononegavirales) incl

119 that both the N- and C-terminal regions of a negative-strand RNA virus P are involved in binding the

120 itis virus (VSV, a prototype of nonsegmented negative-strand RNA viruses) plays pivotal roles in tran

121 st oligomerisation as a conserved feature of negative strand RNA virus polymerases.

122 The polymerase complex of nonsegmented negative-strand RNA viruses primarily consists of a larg

123 This suggested that negative-strand RNA viruses produce little, if any, dsRN

124 ing those by ssDNA viruses and positive- and negative-strand RNA viruses, produce dsRNAs detectable b

125 RTANCEMeasles virus (MeV), a non-integrating negative-strand RNA virus, rarely causes subacute sclero

126 of the RNA than the NP protein of some other negative-strand RNA viruses, reflecting the degree of NP

127 polymerase complex.IMPORTANCE Replication of negative-strand RNA viruses relies on two components: a

128 etween arboviruses and ticks, especially for negative-strand RNA viruses, remain largely unexplored.

129 However, the impact of TRIM56 on negative-strand RNA viruses remains unclear.

130 h has served in the past as a model to study negative-strand RNA virus replication.

131 Negative-strand RNA viruses represent a significant clas

132 MuV is a negative strand RNA virus, similar to rabies virus or Eb

133 bly diverse family of enveloped nonsegmented negative-strand RNA viruses, some of which are the most

134 The nucleoprotein (NP) of segmented negative-strand RNA viruses such as Orthomyxo-, Arena-,

135 Infection of human dendritic cells (DCs) by negative-strand RNA viruses, such as Newcastle disease v

136 The genomic RNA of negative-strand RNA viruses, such as vesicular stomatiti

137 s instead, suggesting that current segmented negative-strand RNA virus taxonomy may need revision.

138 Ebola virus (EBOV) is a negative strand RNA virus that causes Ebola virus diseas

139 al virus (RSV) is an enveloped, filamentous, negative-strand RNA virus that causes significant respir

140 Human metapneumovirus (HMPV) is a negative-strand RNA virus that frequently causes respira

141 Borna disease virus (BDV) is a nonsegmented negative-strand RNA virus that replicates and transcribe

142 Paramyxoviruses are enveloped negative-strand RNA viruses that are significant human a

143 Paramyxoviruses are enveloped, nonsegmented, negative-strand RNA viruses that cause a wide spectrum o

144 Arenaviruses are negative-strand RNA viruses that cause human diseases su

145 Arenaviruses are enveloped negative-strand RNA viruses that cause significant human

146 Influenza virus, a negative-stranded RNA virus that causes severe illness i

147 Arenaviruses are enveloped, negative-stranded RNA viruses that belong to the family

148 Thus, we examined two negative-stranded RNA viruses that have dsRNA intermedia

149 In a negative strand RNA virus, the genomic RNA is sequestere

150 For the nonsegmented negative-strand RNA viruses, the polymerase is comprised

151 virus (VSV), a prototype of the nonsegmented negative-strand RNA viruses, the two methylase activitie

152 In the replication cycle of nonsegmented negative-strand RNA viruses, the viral RNA-dependent RNA

153 A reverse genetics system for negative-strand RNA viruses was first successfully devel

154 aramyxoviruses, and by analogy for all other negative-strand RNA viruses, we show that directional se

155 Hantaviruses are enveloped, negative-strand RNA viruses which can be lethal to human

156 d vesicular stomatitis virus, a nonsegmented negative-strand RNA virus, which carries out transcripti

157 Vesicular stomatitis virus (VSV) is a negative-strand RNA virus with a non-segmented genome, c

158 Vesicular stomatitis virus (VSV) is a negative-strand RNA virus with inherent specificity for

159 se virus (BDV) is a neurotropic nonsegmented negative-strand RNA virus with limited homology to rhabd

160 Newcastle disease virus (NDV) is a negative-strand RNA virus with oncolytic activity agains

161 Lassa virus is a negative-strand RNA virus with only four structural prot

162 es order comprises tick-borne, trisegmented, negative-strand RNA viruses, with several members being