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Koudelka

Showing results (31-40 of 397) with videos related to

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DNA and Cell Biology|November 4, 2000
DNA sequence requirements for the activation of 434 P(RM) transcription by 434 repressorJ Xu, G B Koudelka
The Journal of Biological Chemistry|September 5, 1993
Sequence-dependent differences in DNA structure influence the affinity of P22 operator for P22 repressorL Wu, G B Koudelka
Current Opinion in Chemical Biology|November 2, 2010
Chemically modified viruses: principles and applicationsKristopher J Koudelka, Marianne Manchester
Nature|January 2, 1992
DNA twisting and the effects of non-contacted bases on affinity of 434 operator for 434 repressorG B Koudelka, P Carlson
Microbiology Spectrum|January 17, 2023
The Oligosaccharide Region of LPS Governs Predation of E. coli by the Bacterivorous Protist, Acanthamoeba castellaniiYing Liu, Gerald B Koudelka
The Journal of Biological Chemistry|September 3, 1998
DNA-based positive control mutants in the binding site sequence of 434 repressorJ Xu, G B Koudelka
Microbiologyopen|April 21, 2018
Cheating, facilitation and cooperation regulate the effectiveness of phage-encoded exotoxins as antipredator moleculesIqbal Aijaz, Gerald B Koudelka
Journal of Bacteriology|December 18, 2003
The preferred substrate for RecA-mediated cleavage of bacteriophage 434 repressor is the DNA-bound dimerDavid R Pawlowski, Gerald B Koudelka
Journal of Pediatric Surgery|December 1, 1992
Giant Meckel's diverticulumJ Koudelka, M Králová, J Preis
The Journal of Biological Chemistry|January 17, 1997
DNA-based loss of specificity mutations. Effects of DNA sequence on the contacted and non-contacted base preferences of bacteriophage P22 repressorS P Hilchey, G B Koudelka
Pageof 40

Showing results (31-40 of 397) with videos related to

Sort By:
Pageof 40
DNA and Cell Biology|November 4, 2000
DNA sequence requirements for the activation of 434 P(RM) transcription by 434 repressorJ Xu, G B Koudelka
The Journal of Biological Chemistry|September 5, 1993
Sequence-dependent differences in DNA structure influence the affinity of P22 operator for P22 repressorL Wu, G B Koudelka
Current Opinion in Chemical Biology|November 2, 2010
Chemically modified viruses: principles and applicationsKristopher J Koudelka, Marianne Manchester
Nature|January 2, 1992
DNA twisting and the effects of non-contacted bases on affinity of 434 operator for 434 repressorG B Koudelka, P Carlson
Microbiology Spectrum|January 17, 2023
The Oligosaccharide Region of LPS Governs Predation of E. coli by the Bacterivorous Protist, Acanthamoeba castellaniiYing Liu, Gerald B Koudelka
The Journal of Biological Chemistry|September 3, 1998
DNA-based positive control mutants in the binding site sequence of 434 repressorJ Xu, G B Koudelka
Microbiologyopen|April 21, 2018
Cheating, facilitation and cooperation regulate the effectiveness of phage-encoded exotoxins as antipredator moleculesIqbal Aijaz, Gerald B Koudelka
Journal of Bacteriology|December 18, 2003
The preferred substrate for RecA-mediated cleavage of bacteriophage 434 repressor is the DNA-bound dimerDavid R Pawlowski, Gerald B Koudelka
Journal of Pediatric Surgery|December 1, 1992
Giant Meckel's diverticulumJ Koudelka, M Králová, J Preis
The Journal of Biological Chemistry|January 17, 1997
DNA-based loss of specificity mutations. Effects of DNA sequence on the contacted and non-contacted base preferences of bacteriophage P22 repressorS P Hilchey, G B Koudelka
Pageof 40