Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
Temperate bacteriophages lyse or lysogenize host cells depending on various parameters
of infection, a key one being the ratio of the number of free viruses to the number of host …
of infection, a key one being the ratio of the number of free viruses to the number of host …
[PDF][PDF] Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheonga, T Wena, S Benlerb, JM Koha… - 2022 - authors.library.caltech.edu
Results in a Winning Outcome for a Phage. We designed a population model to investigate
the outcomes of infection between two competing phages that differ in their rates of …
the outcomes of infection between two competing phages that differ in their rates of …
Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheong, T Wen, S Benler… - Proceedings of the …, 2022 - ui.adsabs.harvard.edu
Bacteriophages, the most widespread reproducing biological entity on Earth, employ two
strategies of virus-host interaction: lysis of the host cell and lysogeny whereby the virus …
strategies of virus-host interaction: lysis of the host cell and lysogeny whereby the virus …
Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheong, T Wen, S Benler… - Proceedings of the …, 2022 - pubmed.ncbi.nlm.nih.gov
SignificanceBacteriophages, the most widespread reproducing biological entity on Earth,
employ two strategies of virus-host interaction: lysis of the host cell and lysogeny whereby …
employ two strategies of virus-host interaction: lysis of the host cell and lysogeny whereby …
Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox.
KH Cheong, T Wen, S Benler, JM Koh… - Proceedings of the …, 2022 - europepmc.org
Results in a Winning Outcome for a Phage. We designed a population model to investigate
the outcomes of infection between two competing phages that differ in their rates of …
the outcomes of infection between two competing phages that differ in their rates of …
[HTML][HTML] Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheong, T Wen, S Benler, JM Koh… - Proceedings of the …, 2022 - ncbi.nlm.nih.gov
Results in a Winning Outcome for a Phage. We designed a population model to investigate
the outcomes of infection between two competing phages that differ in their rates of …
the outcomes of infection between two competing phages that differ in their rates of …
[PDF][PDF] Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheonga, T Wena, S Benlerb, JM Koha… - 2022 - pdfs.semanticscholar.org
Results in a Winning Outcome for a Phage. We designed a population model to investigate
the outcomes of infection between two competing phages that differ in their rates of …
the outcomes of infection between two competing phages that differ in their rates of …
[PDF][PDF] Alternating lysis and lysogeny is a winning strategy in bacteriophages due to Parrondo's paradox
KH Cheonga, T Wena, S Benlerb, JM Koha… - 2022 - authors.library.caltech.edu
Results in a Winning Outcome for a Phage. We designed a population model to investigate
the outcomes of infection between two competing phages that differ in their rates of …
the outcomes of infection between two competing phages that differ in their rates of …