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J T Patton

Showing results (31-40 of 103) with videos related to

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Journal of Virology|November 1, 1987
Synthesis of plus- and minus-strand RNA in rotavirus-infected cellsS Stacy-Phipps, J T Patton
Virology|October 1, 1988
Structure and protein composition of the rotavirus replicase particleJ T Patton, C O Gallegos
Virology|October 1, 1989
Characterization of rotavirus replication intermediates: a model for the assembly of single-shelled particlesC O Gallegos, J T Patton
Virology|November 2, 1999
Open reading frame in rotavirus mRNA specifically promotes synthesis of double-stranded RNA: template size also affects replication efficiencyJ T Patton, J Chnaiderman, E Spencer
Journal of Virology|November 13, 1999
Multimers formed by the rotavirus nonstructural protein NSP2 bind to RNA and have nucleoside triphosphatase activityZ Taraporewala, D Chen, J T Patton
Journal of Virology|June 1, 1994
Deletion mapping of the rotavirus metalloprotein NS53 (NSP1): the conserved cysteine-rich region is essential for virus-specific RNA bindingJ Hua, X Chen, J T Patton
Virology|February 13, 2001
Multimers of the bluetongue virus nonstructural protein, NS2, possess nucleotidyl phosphatase activity: similarities between NS2 and rotavirus NSP2Z F Taraporewala, D Chen, J T Patton
Clinical Genetics|January 1, 1972
Pseudo-achondrogenesis with fracturesR Harris, J T Patton, A J Barson
Virology|September 1, 1993
Comparative analysis of the rotavirus NS53 gene: conservation of basic and cysteine-rich regions in the protein and possible stem-loop structures in the RNAJ Hua, E A Mansell, J T Patton
Virology|August 1, 1994
The rotavirus RNA-binding protein NS35 (NSP2) forms 10S multimers and interacts with the viral RNA polymeraseM D Kattoura, X Chen, J T Patton
Pageof 11

Showing results (31-40 of 103) with videos related to

Sort By:
Pageof 11
Journal of Virology|November 1, 1987
Synthesis of plus- and minus-strand RNA in rotavirus-infected cellsS Stacy-Phipps, J T Patton
Virology|October 1, 1988
Structure and protein composition of the rotavirus replicase particleJ T Patton, C O Gallegos
Virology|October 1, 1989
Characterization of rotavirus replication intermediates: a model for the assembly of single-shelled particlesC O Gallegos, J T Patton
Virology|November 2, 1999
Open reading frame in rotavirus mRNA specifically promotes synthesis of double-stranded RNA: template size also affects replication efficiencyJ T Patton, J Chnaiderman, E Spencer
Journal of Virology|November 13, 1999
Multimers formed by the rotavirus nonstructural protein NSP2 bind to RNA and have nucleoside triphosphatase activityZ Taraporewala, D Chen, J T Patton
Journal of Virology|June 1, 1994
Deletion mapping of the rotavirus metalloprotein NS53 (NSP1): the conserved cysteine-rich region is essential for virus-specific RNA bindingJ Hua, X Chen, J T Patton
Virology|February 13, 2001
Multimers of the bluetongue virus nonstructural protein, NS2, possess nucleotidyl phosphatase activity: similarities between NS2 and rotavirus NSP2Z F Taraporewala, D Chen, J T Patton
Clinical Genetics|January 1, 1972
Pseudo-achondrogenesis with fracturesR Harris, J T Patton, A J Barson
Virology|September 1, 1993
Comparative analysis of the rotavirus NS53 gene: conservation of basic and cysteine-rich regions in the protein and possible stem-loop structures in the RNAJ Hua, E A Mansell, J T Patton
Virology|August 1, 1994
The rotavirus RNA-binding protein NS35 (NSP2) forms 10S multimers and interacts with the viral RNA polymeraseM D Kattoura, X Chen, J T Patton
Pageof 11