Add to ORKGViruses infecting bacteria (phages) are the most abundant and ubiquitous entities on Earth and likely critical to any ecosystem, as they influence nutrient cycling, mortality and evolution. Ultimately, their impact depends on whether phage—host interactions lead to intracellular phage coexistence (temperate phage) or cell death (lytic phage). Temperate phages in the lysogenic cycle replicate their genome (either integrated into the host chromosome or extrachromosomally), until induced to become lytic, when they create and release progeny via cell lysis. While knowledge on lytic versus lysogenic outcomes is vast, it largely derives from few model systems that underrepresent natural diversity. Further, less is known about the efficiency of ph...
Microbes drive the biogeochemical cycles that fuel planet Earth, and their viruses (phages) alter mi...
Viruses influence the ecology and evolutionary trajectory of microbial communities. Yet our understa...
Viruses in aquatic environments play a key role in microbial population dynamics and nutrient cyclin...
Viruses numerically dominate our oceans; however, we have only just begun to document the diversity,...
Viruses numerically dominate our oceans; however, we have only just begun to document the diversity,...
Contains fulltext : 176885.pdf (publisher's version ) (Open Access)Marine viruses ...
Viruses are the most abundant biological entities in the ocean and are believed to contribute to nut...
Viruses in aquatic environments play a key role in microbial population dynamics and nutrient cyclin...
Viruses are the most abundant biological entities in the ocean and are believed to contribute to nut...
versión pre-print: 30 páginas, 5 figurasTemperate bacteriophages (phages) are viruses of bacteria. U...
Bacteriophages, or as they are most commonly referred to as phages, are viruses which are capable of...
Bacteria are engaged in a never-ending struggle with their viral predators, termed bacteriophages or...
Bacteriophages, or as they are most commonly referred to as phages, are viruses which are capable of...
A bacteriophage (often referred to as a "phage") is a type of virus that infects bacteria. Specific ...
Bacteria impact humans, industry and nature, but do so under viral constraints. Problematically, kno...
Microbes drive the biogeochemical cycles that fuel planet Earth, and their viruses (phages) alter mi...
Viruses influence the ecology and evolutionary trajectory of microbial communities. Yet our understa...
Viruses in aquatic environments play a key role in microbial population dynamics and nutrient cyclin...
Viruses numerically dominate our oceans; however, we have only just begun to document the diversity,...
Viruses numerically dominate our oceans; however, we have only just begun to document the diversity,...
Contains fulltext : 176885.pdf (publisher's version ) (Open Access)Marine viruses ...
Viruses are the most abundant biological entities in the ocean and are believed to contribute to nut...
Viruses in aquatic environments play a key role in microbial population dynamics and nutrient cyclin...
Viruses are the most abundant biological entities in the ocean and are believed to contribute to nut...
versión pre-print: 30 páginas, 5 figurasTemperate bacteriophages (phages) are viruses of bacteria. U...
Bacteriophages, or as they are most commonly referred to as phages, are viruses which are capable of...
Bacteria are engaged in a never-ending struggle with their viral predators, termed bacteriophages or...
Bacteriophages, or as they are most commonly referred to as phages, are viruses which are capable of...
A bacteriophage (often referred to as a "phage") is a type of virus that infects bacteria. Specific ...
Bacteria impact humans, industry and nature, but do so under viral constraints. Problematically, kno...
Microbes drive the biogeochemical cycles that fuel planet Earth, and their viruses (phages) alter mi...
Viruses influence the ecology and evolutionary trajectory of microbial communities. Yet our understa...
Viruses in aquatic environments play a key role in microbial population dynamics and nutrient cyclin...