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F Rojo

Showing results (1-10 of 118) with videos related to

Pageof 12
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Journal of Bacteriology|May 13, 1999
Repression of transcription initiation in bacteriaF Rojo
Current Opinion in Microbiology|April 3, 2001
Mechanisms of transcriptional repressionF Rojo
Gene|November 30, 1990
Short N-terminal deletions in the phage phi 29 transcriptional activator protein impair its DNA-binding abilityF Rojo, M Salas
The EMBO Journal|November 1, 1991
A DNA curvature can substitute phage phi 29 regulatory protein p4 when acting as a transcriptional repressorF Rojo, M Salas
Journal of Bacteriology|October 10, 2001
Role of the crc gene in catabolic repression of the Pseudomonas putida GPo1 alkane degradation pathwayL Yuste, F Rojo
Nucleic Acids Research|May 25, 1994
The beta recombinase from the Streptococcal plasmid pSM 19035 represses its own transcription by holding the RNA polymerase at the promoter regionF Rojo, J C Alonso
Nucleic Acids Research|August 25, 1995
The beta recombinase of plasmid pSM19035 binds to two adjacent sites, making different contacts at each of themF Rojo, J C Alonso
Journal of Molecular Biology|April 29, 1994
A novel site-specific recombinase encoded by the Streptococcus pyogenes plasmid pSM19035F Rojo, J C Alonso
Journal of Molecular Biology|October 20, 1993
Residues of the Bacillus subtilis phage phi 29 transcriptional activator required both to interact with RNA polymerase and to activate transcriptionM Mencía, M Salas, F Rojo
Proceedings of the National Academy of Sciences of the United States of America|December 1, 1992
Phage phi 29 regulatory protein p4 stabilizes the binding of the RNA polymerase to the late promoter in a process involving direct protein-protein contactsB Nuez, F Rojo, M Salas
Pageof 12

Showing results (1-10 of 118) with videos related to

Sort By:
Pageof 12
Journal of Bacteriology|May 13, 1999
Repression of transcription initiation in bacteriaF Rojo
Current Opinion in Microbiology|April 3, 2001
Mechanisms of transcriptional repressionF Rojo
Gene|November 30, 1990
Short N-terminal deletions in the phage phi 29 transcriptional activator protein impair its DNA-binding abilityF Rojo, M Salas
The EMBO Journal|November 1, 1991
A DNA curvature can substitute phage phi 29 regulatory protein p4 when acting as a transcriptional repressorF Rojo, M Salas
Journal of Bacteriology|October 10, 2001
Role of the crc gene in catabolic repression of the Pseudomonas putida GPo1 alkane degradation pathwayL Yuste, F Rojo
Nucleic Acids Research|May 25, 1994
The beta recombinase from the Streptococcal plasmid pSM 19035 represses its own transcription by holding the RNA polymerase at the promoter regionF Rojo, J C Alonso
Nucleic Acids Research|August 25, 1995
The beta recombinase of plasmid pSM19035 binds to two adjacent sites, making different contacts at each of themF Rojo, J C Alonso
Journal of Molecular Biology|April 29, 1994
A novel site-specific recombinase encoded by the Streptococcus pyogenes plasmid pSM19035F Rojo, J C Alonso
Journal of Molecular Biology|October 20, 1993
Residues of the Bacillus subtilis phage phi 29 transcriptional activator required both to interact with RNA polymerase and to activate transcriptionM Mencía, M Salas, F Rojo
Proceedings of the National Academy of Sciences of the United States of America|December 1, 1992
Phage phi 29 regulatory protein p4 stabilizes the binding of the RNA polymerase to the late promoter in a process involving direct protein-protein contactsB Nuez, F Rojo, M Salas
Pageof 12