Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis
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The model of T4 phage, Lambda phage, and E. coli is often used in research on virus-host interactions. This paper reports for the first time the thermodynamic driving force of biosynthesis, catabolism and metabolism for the three organisms, on the M9 medium. Moreover, the influence of activities of nutrients and metabolic products is analyzed. All three organisms were found to have very similar Gibbs energies of metabolism. Moreover, since they share the same catabolism, their Gibbs energies of catabolism are identical. However, Gibbs energies of biosynthesis differ. The calculated thermodynamic properties have been used to explain the coexistence of both bacteria and phages in a dynamic equilibrium in natural ecosystems.
Кључне речи:
activity / driving force / metabolism / catabolism / environmentИзвор:
Thermal Science, 2022, 27, 1A, 411-431Издавач:
- Society of Thermal Engineers of Serbia
Институција/група
IHTMTY - JOUR AU - Popović, Marko PY - 2022 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/6096 AB - The model of T4 phage, Lambda phage, and E. coli is often used in research on virus-host interactions. This paper reports for the first time the thermodynamic driving force of biosynthesis, catabolism and metabolism for the three organisms, on the M9 medium. Moreover, the influence of activities of nutrients and metabolic products is analyzed. All three organisms were found to have very similar Gibbs energies of metabolism. Moreover, since they share the same catabolism, their Gibbs energies of catabolism are identical. However, Gibbs energies of biosynthesis differ. The calculated thermodynamic properties have been used to explain the coexistence of both bacteria and phages in a dynamic equilibrium in natural ecosystems. PB - Society of Thermal Engineers of Serbia T2 - Thermal Science T1 - Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis VL - 27 IS - 1A SP - 411 EP - 431 DO - 10.2298/TSCI2301411P ER -
@article{ author = "Popović, Marko", year = "2022", abstract = "The model of T4 phage, Lambda phage, and E. coli is often used in research on virus-host interactions. This paper reports for the first time the thermodynamic driving force of biosynthesis, catabolism and metabolism for the three organisms, on the M9 medium. Moreover, the influence of activities of nutrients and metabolic products is analyzed. All three organisms were found to have very similar Gibbs energies of metabolism. Moreover, since they share the same catabolism, their Gibbs energies of catabolism are identical. However, Gibbs energies of biosynthesis differ. The calculated thermodynamic properties have been used to explain the coexistence of both bacteria and phages in a dynamic equilibrium in natural ecosystems.", publisher = "Society of Thermal Engineers of Serbia", journal = "Thermal Science", title = "Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis", volume = "27", number = "1A", pages = "411-431", doi = "10.2298/TSCI2301411P" }
Popović, M.. (2022). Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis. in Thermal Science Society of Thermal Engineers of Serbia., 27(1A), 411-431. https://doi.org/10.2298/TSCI2301411P
Popović M. Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis. in Thermal Science. 2022;27(1A):411-431. doi:10.2298/TSCI2301411P .
Popović, Marko, "Thermodynamics of bacteria-phage interactions T4 and Lambda bacteriophages, and E. coli can coexist in natural ecosystems due to the ratio of their Gibbs energies of biosynthesis" in Thermal Science, 27, no. 1A (2022):411-431, https://doi.org/10.2298/TSCI2301411P . .