ライフサイエンスコーパス: RNA replicase

1 ing protein A, the viral contribution to the RNA replicase.

2 a working model for the assembly of the BMV RNA replicase.

3 ent of every virus with an RNA genome is the RNA replicase.

4 oteins (nsP1-4) representing subunits of the RNA replicase.

5 ozyme plus recognition sequences for Sindbis RNA replicase.

6 s a novel inhibitor of a viral RNA-dependent RNA replicase.

7 es of initiation site recognition by a viral RNA replicase.

8 The isolation of an RNA enzyme with RNA replicase activity, at present only a hypothetical m

9 formation and functioning of the alphavirus RNA replicase and highlights the possibilities for recom

10 me that encodes the catalytic subunit of the RNA replicase and the viral capsid protein precursor on

11 essary and sufficient for the binding of the RNA replicase, and for RNA replication.

12 itive-sense RNA segments: RNA1, encoding the RNA replicase, and RNA2, encoding the capsid protein pre

13 The emergence of an RNA replicase capable of self-replication is considered

14 embrane-based assay that consisted of a BVDV RNA replicase complex isolated from virus-infected cells

15 The RNA replicase extracted from Brome mosaic virus (BMV)-in

16 Understanding the principles of RNA replicase formation and functioning is therefore cru

17 smid DNA vaccine incorporating Sindbis virus RNA replicase functions (pSINCP) and expressing antigen

18 The FHV RNA replicase is encoded in the larger of the two segmen

19 NA synthesis by the brome mosaic virus (BMV) RNA replicase is more efficient if the template contains

20 the template affects RNA synthesis by viral RNA replicases is poorly understood.

21 eplication through proteolytic processing of RNA replicase machinery.

22 toffersen et al. recently revealed how these RNA replicases might have functioned by solving the stru

23 as precursors for the subunits of the viral RNA replicase (nsP1 to nsP4).

24 th the high-resolution structure of the core RNA replicase of chikungunya virus and the native RC arc

25 ccomplished this by using a gene encoding an RNA replicase polyprotein derived from the Semliki fores

26 plication and RNA3 synthesis depended on FHV RNA replicase protein A and 3'-terminal RNA1 sequences b

27 r host cell because of the strength of their RNA replicase proteins, even though only one copy of the

28 An RNA replicase ribozyme has long been sought by chemists

29 RNA [(-)ssRNA] viruses carry at infection an RNA replicase that makes multiple translation-competent

30 Within the core RNA replicase, the viral polymerase nsP4, which is in co

31 gain insights into the functions of a viral RNA replicase, we have assembled in vitro and entirely f

32 When yeast cells expressing FHV RNA replicase were transfected with a chimeric RNA compo

33 The ability of EEEV P123 to form functional RNA replicases with heterologous nsP4s was more efficien