Mutational analysis of the RNA-fork model of the influenza A virus vRNA promoter in vivo

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Mutational analysis of the RNA-fork model of the influenza A virus vRNA promoter in vivo

HJ Kim, E Fodor, GG Brownlee and BL Seong
Institute of Biological Sciences, Hanhyo Institutes of Technology, Yoosung-ku, Taejeon, South Korea.

The genome of influenza A virus consists of eight negative-stranded RNA segments which have partially complementary non-coding terminal sequences. Previous transcription studies of the virion RNA promoter in vitro have shown that the 5' terminus forms an integral part of the promoter and an 'RNA-fork' model has been proposed for the initiation of transcription. According to this model part of the promoter is formed by an RNA-duplex which involves complementary residues 10 to 1 2 of the 3' end and residues 11' to 13' of the 5' end. With a reverse genetics system, based on the chloramphenicol acetyltransferase (CAT) gene, we have now tested this part of the promoter in vivo. Single mutations of the conserved residues at positions 11 and 12 of the 3' terminus and at positions 12' and 13' of the 5' terminus abolished promoter activity. The introduction of complementary mutations into both termini partially restored activity. On the other hand, mutations at positions 10 of the 3' terminus and 11' of the 5' terminus inhibited activity independently of whether a base-pair was formed or not. Thus, at these positions, the nature of the residues is apparently more important than their ability to form base-pairs. These results extend our previous virion 'RNA-fork' model and are consistent with in vitro findings that the 5' terminus is involved in the initiation of transcription.

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				M. Hass, M. Westerkofsky, S. Muller, B. Becker-Ziaja, C. Busch, and S. Gunther Mutational Analysis of the Lassa Virus Promoter J. Virol., December 15, 2006; 80(24): 12414 - 12419. [Abstract] [Full Text] [PDF]

				M. Crow, T. Deng, M. Addley, and G. G. Brownlee Mutational Analysis of the Influenza Virus cRNA Promoter and Identification of Nucleotides Critical for Replication J. Virol., June 15, 2004; 78(12): 6263 - 6270. [Abstract] [Full Text] [PDF]

				J. N. Barr and G. W. Wertz Bunyamwera Bunyavirus RNA Synthesis Requires Cooperation of 3'- and 5'-Terminal Sequences J. Virol., February 1, 2004; 78(3): 1129 - 1138. [Abstract] [Full Text] [PDF]

				A. K. Kar and P. Roy Defining the Structure-Function Relationships of Bluetongue Virus Helicase Protein VP6 J. Virol., November 1, 2003; 77(21): 11347 - 11356. [Abstract] [Full Text] [PDF]

				C.-J. Park, S.-H. Bae, M.-K. Lee, G. Varani, and B.-S. Choi Solution structure of the influenza A virus cRNA promoter: implications for differential recognition of viral promoter structures by RNA-dependent RNA polymerase Nucleic Acids Res., June 1, 2003; 31(11): 2824 - 2832. [Abstract] [Full Text] [PDF]

				M.-K. Lee, S.-H. Bae, C.-J. Park, H.-K. Cheong, C. Cheong, and B.-S. Choi A single-nucleotide natural variation (U4 to C4) in an influenza A virus promoter exhibits a large structural change: implications for differential viral RNA synthesis by RNA-dependent RNA polymerase Nucleic Acids Res., February 15, 2003; 31(4): 1216 - 1223. [Abstract] [Full Text] [PDF]

				M. Perez and J. C. de la Torre Characterization of the Genomic Promoter of the Prototypic Arenavirus Lymphocytic Choriomeningitis Virus J. Virol., December 20, 2002; 77(2): 1184 - 1194. [Abstract] [Full Text] [PDF]

				G. Neumann, M. A. Whitt, and Y. Kawaoka A decade after the generation of a negative-sense RNA virus from cloned cDNA - what have we learned? J. Gen. Virol., November 1, 2002; 83(11): 2635 - 2662. [Abstract] [Full Text] [PDF]

				R. Flick, F. Elgh, and R. F. Pettersson Mutational Analysis of the Uukuniemi Virus (Bunyaviridae Family) Promoter Reveals Two Elements of Functional Importance J. Virol., October 2, 2002; 76(21): 10849 - 10860. [Abstract] [Full Text] [PDF]

				G. G. Brownlee and J. L. Sharps The RNA Polymerase of Influenza A Virus Is Stabilized by Interaction with Its Viral RNA Promoter J. Virol., June 14, 2002; 76(14): 7103 - 7113. [Abstract] [Full Text] [PDF]

				S. D. Duhaut and N. J. Dimmock Defective segment 1 RNAs that interfere with production of infectious influenza A virus require at least 150 nucleotides of 5' sequence: evidence from a plasmid-driven system J. Gen. Virol., February 1, 2002; 83(2): 403 - 411. [Abstract] [Full Text] [PDF]

				B. Crescenzo-Chaigne and S. van der Werf Nucleotides at the extremities of the viral RNA of influenza C virus are involved in type-specific interactions with the polymerase complex J. Gen. Virol., May 1, 2001; 82(5): 1075 - 1083. [Abstract] [Full Text]

				F. Momose, C. F. Basler, R. E. O'Neill, A. Iwamatsu, P. Palese, and K. Nagata Cellular Splicing Factor RAF-2p48/NPI-5/BAT1/UAP56 Interacts with the Influenza Virus Nucleoprotein and Enhances Viral RNA Synthesis J. Virol., February 15, 2001; 75(4): 1899 - 1908. [Abstract] [Full Text]

				A. Solorzano, H. Zheng, E. Fodor, G. G. Brownlee, P. Palese, and A. García-Sastre Reduced levels of neuraminidase of influenza A viruses correlate with attenuated phenotypes in mice J. Gen. Virol., March 1, 2000; 81(3): 737 - 742. [Abstract] [Full Text]

				H. Zheng, H. A. Lee, P. Palese, and A. García-Sastre Influenza A Virus RNA Polymerase Has the Ability To Stutter at the Polyadenylation Site of a Viral RNA Template during RNA Replication J. Virol., June 1, 1999; 73(6): 5240 - 5243. [Abstract] [Full Text]

				S. P.�J. Whelan and G. W. Wertz Regulation of RNA Synthesis by the Genomic Termini of Vesicular Stomatitis Virus: Identification of Distinct Sequences Essential for Transcription but Not Replication J. Virol., January 1, 1999; 73(1): 297 - 306. [Abstract] [Full Text] [PDF]

				E. Fodor, P. Palese, G. G. Brownlee, and A. Garcia-Sastre Attenuation of Influenza A Virus mRNA Levels by Promoter Mutations J. Virol., August 1, 1998; 72(8): 6283 - 6290. [Abstract] [Full Text] [PDF]

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Mutational analysis of the RNA-fork model of the influenza A virus vRNA promoter in vivo