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Бактериофаги (Russian Wikipedia)

Analysis of information sources in references of the Wikipedia article "Бактериофаги" in Russian language version.

refsWebsite
Global rank Russian rank
39doi.org
2nd place
3rd place
33nih.gov
4th place
6th place
8web.archive.org
1st place
1st place
3worldcat.org
5th place
5th place
1nkj.ru
2,738th place
199th place
1thelancet.com
2,393rd place
1,504th place
1horizonpress.com
low place
low place
1wikipedia.org
low place
low place
1labnews.co.uk
low place
low place
1aphage.com
low place
low place
1fedpress.ru
low place
1,207th place
1nature.com
234th place
157th place
1biopreparations.ru
low place
low place
1regmed.ru
low place
1,047th place

aphage.com

biopreparations.ru

doi.org

doi.org

  • Abedon ST, Thomas-Abedon C, Thomas A, Mazure H (2011). "Bacteriophage prehistory: Is or is not Hankin, 1896, a phage reference?". Bacteriophage. 1 (3): 174–178. doi:10.4161/bact.1.3.16591. PMID 22164351.
  • Twort FW (1915). "An investigation on the nature of ultra-microscopic viruses". The Lancet. 186 (4814): 1241–1243. doi:10.1016/S0140-6736(01)20383-3.
  • Lwoff A (1953). "Lysogeny". Bacteriological Reviews. 17 (4): 269–337. doi:10.1128/br.17.4.269-337.1953. PMID 13105613.
  • Summers WC (2012). "The strange history of phage therapy". Bacteriophage. 2 (2): 130–133. doi:10.4161/bact.20757. PMID 23050223.
  • Ackermann HW (2003). "Bacteriophage observations and evolution". Research in Microbiology. 154 (4): 245–251. doi:10.1016/S0923-2508(03)00067-6. PMID 12798228.
  • Al-Shayeb B; Sachdeva R; Chen LX; et al. (2020). "Clades of huge phages from across Earth's ecosystems". Nature. 578 (7795): 425–431. doi:10.1038/s41586-020-2007-4. PMID 32051592.
  • Salem M; Virtanen S; Korkeala H; Skurnik M (2015). "Isolation and characterization of Yersinia-specific bacteriophages from pig stools in Finland". J Appl Microbiol. 118 (3): 599–608. doi:10.1111/jam.12722. PMID 25495090.
  • Oliveira H; Costa AR; Konstantinides N; Ferreira A; Akturk E; Sillankorva S; Nemec A; Shneider M; Dötsch A; Azeredo J (2017). "Ability of phages to infect Acinetobacter calcoaceticus-Acinetobacter baumannii complex species through acquisition of different pectate lyase depolymerase domains". Environ Microbiol. 19 (12): 5060–5077. doi:10.1111/1462-2920.13970. PMID 29076652.
  • Jun JW; Park SC; Wicklund A; Skurnik M (2018). "Bacteriophages reduce Yersinia enterocolitica contamination of food and kitchenware". Int J Food Microbiol. 271: 33–47. doi:10.1016/j.ijfoodmicro.2018.02.007. PMID 29477807.
  • Zaczek-Moczydłowska MA; Young GK; Trudgett J; Plahe C; Fleming CC; Campbell K; O'Hanlon R (2020). "Phage cocktail containing Podoviridae and Myoviridae bacteriophages inhibits the growth of Pectobacterium spp. under in vitro and in vivo conditions". PLoS One. 15 (4): e0230842. doi:10.1371/journal.pone.0230842. PMID 32240203.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Hyman P; Abedon ST (2010). "Bacteriophage host range and bacterial resistance". Advances in Applied Microbiology. 70: 217–248. doi:10.1016/S0065-2164(10)70007-1. PMID 20359459.
  • Ross A; Ward S; Hyman P (2016). "More is better: selecting for broad host range bacteriophages". Frontiers in Microbiology. 7: 1352. doi:10.3389/fmicb.2016.01352. PMID 27660623.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Sáez Moreno D; Visram Z; Mutti M; Restrepo-Córdoba M; Hartmann S; Kremers AI; Tišáková L; Schertler S; Wittmann J; Kalali B; et al. (2021). "ε2-phages are naturally bred and have a vastly improved host range in Staphylococcus aureus over wild type phages". Pharmaceuticals (Basel). 15 (4): 325. doi:10.3390/ph14040325. PMID 33918287.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Hendrix RW (2002). "Bacteriophages: evolution of the majority". Theoretical Population Biology. 61 (4): 471–480. doi:10.1006/tpbi.2002.1590. PMID 12167366.
  • Suttle CA (2005). "Viruses in the sea". Nature. 437 (7057): 356–361. doi:10.1038/nature04160. PMID 16163346.
  • Suttle CA (1994). "The significance of viruses to mortality in aquatic microbial communities". Microb Ecol. 28 (2): 237–243. doi:10.1007/BF00166813. PMID 24186450.
  • Duhamel S; Domaizon-Pialat I; Personnic S; Jacquet S (2006). "Assessing the microbial community dynamics and the role of bacteriophages in bacterial mortality in Lake Geneva". Revue des sciences de l'eau. 19 (2): 115–126. doi:10.7916/d8-twsz-xt06.
  • Touchon M; Moura de Sousa JA; Rocha EP (2017). "Embracing the enemy: the diversification of microbial gene repertoires by phage-mediated horizontal gene transfer". Curr Opin Microbiol. 38: 66–73. doi:10.1016/j.mib.2017.04.010. PMID 28527384.
  • López-Leal G; Camelo-Valera LC; Hurtado-Ramírez JM; Verleyen J; Castillo-Ramírez S; Reyes-Muñoz A (2022). "Mining of thousands of prokaryotic genomes reveals high abundance of prophages with a strictly narrow host range". mSystems. 7 (4): e0032622. doi:10.1128/msystems.00326-22. PMID 35880895.
  • Weinbauer MG (2004). "Ecology of prokaryotic viruses". FEMS Microbiology Reviews. 28 (2): 127–181. doi:10.1016/j.femsre.2003.08.001. PMID 15109783.
  • Knowles B; Silveira CB; Bailey BA; et al. (2016). "Lytic to temperate switching of viral communities". Nature. 531 (7595): 466–470. doi:10.1038/nature17193. PMID 26982729.
  • Silveira CB; Rohwer FL (2016). "Piggyback-the-Winner in host-associated microbial communities". NPJ Biofilms Microbiomes. 2: 16010. doi:10.1038/npjbiofilms.2016.10. PMID 28721247.
  • Brown TL; Charity OJ; Adriaenssens EM (2023). "Ecological and functional roles of bacteriophages in contrasting environments: marine, terrestrial and human gut". Curr Opin Microbiol. 70: 102229. doi:10.1016/j.mib.2022.102229. PMID 36347213.
  • Shkoporov AN, Hill C (2019). "Bacteriophages of the Human Gut: The "Known Unknown" of the Microbiome". Cell Host & Microbe. 25 (2): 195–209. doi:10.1016/j.chom.2019.01.017. PMID 30763534.
  • Guliy OI, Bunin VD, O'Neil D, Ivnitski D, Ignatov OV (2007). "A new electro-optical approach to rapid assay of cell viability". Biosensors and Bioelectronics. 23 (4): 583–587. doi:10.1016/j.bios.2007.06.008. PMID 17764921.
  • Pirnay JP; Verbeken G (2023). "Magistral phage preparations: is this the model for everyone?". Clinical Infectious Diseases. 77 (Supplement_5): S360 – S369. doi:10.1093/cid/ciad481. PMID 37932120.
  • Djebara S; Maussen C; De Vos D; et al. (2019). "Processing phage therapy requests in a Brussels military hospital: lessons identified". Viruses. 11 (3): 265. doi:10.3390/v11030265. PMID 30884879.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Onallah H; Hazan R; Nir-Paz R; et al. (2023). "Compassionate use of bacteriophages for failed persistent infections during the first 5 years of the Israeli phage therapy center". Open Forum Infectious Diseases. 10 (5): ofad221. doi:10.1093/ofid/ofad221. PMID 37234511.
  • Aslam S; Lampley E; Wooten D; et al. (2020). "Lessons learned from the first 10 consecutive cases of intravenous bacteriophage therapy to treat multidrug-resistant bacterial infections at a single center in the United States". Open Forum Infectious Diseases. 7 (9): ofaa389. doi:10.1093/ofid/ofaa389. PMID 33005701.
  • Uyttebroek S; Chen B; Onsea J; et al. (2022). "Safety and efficacy of phage therapy in difficult-to-treat infections: a systematic review". The Lancet Infectious Diseases. 22 (8): e208 – e220. doi:10.1016/S1473-3099(21)00612-5. PMID 35248167.
  • Pirisi A (2000). "Phage therapy—advantages over antibiotics?". The Lancet. 356 (9239): 1418. doi:10.1016/S0140-6736(05)74059-9. PMID 11052592.
  • Voronina MV, Bugaeva EN, Vasiliev DM, et al. (2019). "Characterization of Pectobacterium carotovorum subsp. carotovorum bacteriophage PP16 prospective for biocontrol of potato soft rot". Microbiology. 88 (5): 451–460. doi:10.1134/S0026261719040118.

dx.doi.org

  • А.В. Летаров. История ранних исследований бактериофагов и рождение основных концепций вирусологии (рус.) // Биохимия : журнал. — 2020. — Т. 85, № 9. — С. 1189–1212. — doi:10.31857/S0320972520090031.
  • McCallin, S. Clinical Trials of Bacteriophage Therapeutics // Bacteriophages / S McCallin, H Brüssow. — Cham : Springer, 2017. — doi:10.1007/978-3-319-40598-8_38-1.
  • Atterbury, RJ. The Use of Bacteriophages in Veterinary Therapy // Bacteriophages / RJ Atterbury, PA Barrow. — Cham : Springer, 2019. — doi:10.1007/978-3-319-40598-8_32-1.
  • Harper, DR. Introduction to Bacteriophages // Bacteriophages. — Cham : Springer, 2020. — doi:10.1007/978-3-319-40598-8_48-2.
  • Jean-Paul Pirnay, Sarah Djebara, Griet Steurs, Johann Griselain, Christel Cochez, Steven De Soir, Tea Glonti, An Spiessens, Emily Vanden Berghe, Sabrina Green, Jeroen Wagemans, Cédric Lood, Eddie Schrevens, Nina Chanishvili, Mzia Kutateladze, Mathieu de Jode, Pieter-Jan Ceyssens, Jean-Pierre Draye, Gilbert Verbeken, Daniel De Vos, Thomas Rose, Jolien Onsea, Brieuc Van Nieuwenhuyse, Bacteriophage Therapy Providers, Kim Win Pang, Willem-Jan Metsemakers, Dimitri Van der Linden, Olga Chatzis, Anaïs Eskenazi, Angel Lopez, Adrien De Voeght, Anne Françoise Rousseau, Anne Tilmanne, Daphne Vens, Jean Gérain, Brice Layeux, Erika Vlieghe, Ingrid Baar, Sabrina Van Ierssel, Johan Van Laethem, Julien Guiot, Sophie De Roock, Serge Jennes, Saartje Uyttebroek, Laura Van Gerven, Peter W. Hellings, Lieven Dupont, Yves Debaveye, David Devolder, Isabel Spriet, Paul De Munter, Melissa Depypere, Michiel Vanfleteren, Olivier Cornu, Stijn Verhulst, Tine Boiy, Stoffel Lamote, Thibaut Van Zele, Grégoire Wieërs, Cécile Courtin, David Lebeaux, Jacques Sartre, Tristan Ferry, Frédéric Laurent, Kevin Paul, Mariagrazia Di Luca, Stefan Gottschlich, Tamta Tkhilaishvili, Novella Cesta, Karlis Racenis, Telma Barbosa, Luis Eduardo López-Cortés, Maria Tomás, Martin Hübner, Truong-Thanh Pham, Paul Nagtegaal, Jaap Ten Oever, Johannes Daniels, Maartje Loubert, Ghariani Iheb, Joshua Jones, Lesley Hall, Matthew Young, Bacteriophage Donors, Nana Balarjishvili, Marina Tediashvili, Yigang Tong, Christine Rohde, Johannes Wittmann, Ronen Hazan, Ran Nir-Paz, Joana Azeredo, Victor Krylov, David Cameron, Melissa Pitton, Yok-Ai Que, Gregory Resch, Shawna McCallin, Matthew Dunne, Samuel Kilcher, Patrick Soentjens, Rob Lavigne, Maya Merabishvili. Personalized bacteriophage therapy outcomes for 100 consecutive cases: a multicentre, multinational, retrospective observational study (англ.) // Nature Microbiology. — 2024-06-04. — Vol. 9, iss. 6. — P. 1434–1453. — ISSN 2058-5276. — doi:10.1038/s41564-024-01705-x. Архивировано 20 декабря 2024 года.
  • D. S. Davydov, R. L. Parfenyuk, Z. V. Durmanova, V. A. Merkulov, A. A. Movsesyants. Characteristic aspects of marketing authorisation and quality assurance of bacteriophage medicinal products in the Russian Federation // Biological Products. Prevention, Diagnosis, Treatment. — 2023-01-24. — Т. 23, вып. 2. — С. 181–193. — ISSN 2619-1156. — doi:10.30895/2221-996X-2023-431. Архивировано 10 сентября 2024 года.
  • Jones, JB. Crop Use of Bacteriophages // Bacteriophages / JB Jones, AM Svircev, AŽ Obradović. — Cham : Springer, 2018. — doi:10.1007/978-3-319-40598-8_28-1.

fedpress.ru

horizonpress.com

labnews.co.uk

nature.com

  • Jean-Paul Pirnay, Sarah Djebara, Griet Steurs, Johann Griselain, Christel Cochez, Steven De Soir, Tea Glonti, An Spiessens, Emily Vanden Berghe, Sabrina Green, Jeroen Wagemans, Cédric Lood, Eddie Schrevens, Nina Chanishvili, Mzia Kutateladze, Mathieu de Jode, Pieter-Jan Ceyssens, Jean-Pierre Draye, Gilbert Verbeken, Daniel De Vos, Thomas Rose, Jolien Onsea, Brieuc Van Nieuwenhuyse, Bacteriophage Therapy Providers, Kim Win Pang, Willem-Jan Metsemakers, Dimitri Van der Linden, Olga Chatzis, Anaïs Eskenazi, Angel Lopez, Adrien De Voeght, Anne Françoise Rousseau, Anne Tilmanne, Daphne Vens, Jean Gérain, Brice Layeux, Erika Vlieghe, Ingrid Baar, Sabrina Van Ierssel, Johan Van Laethem, Julien Guiot, Sophie De Roock, Serge Jennes, Saartje Uyttebroek, Laura Van Gerven, Peter W. Hellings, Lieven Dupont, Yves Debaveye, David Devolder, Isabel Spriet, Paul De Munter, Melissa Depypere, Michiel Vanfleteren, Olivier Cornu, Stijn Verhulst, Tine Boiy, Stoffel Lamote, Thibaut Van Zele, Grégoire Wieërs, Cécile Courtin, David Lebeaux, Jacques Sartre, Tristan Ferry, Frédéric Laurent, Kevin Paul, Mariagrazia Di Luca, Stefan Gottschlich, Tamta Tkhilaishvili, Novella Cesta, Karlis Racenis, Telma Barbosa, Luis Eduardo López-Cortés, Maria Tomás, Martin Hübner, Truong-Thanh Pham, Paul Nagtegaal, Jaap Ten Oever, Johannes Daniels, Maartje Loubert, Ghariani Iheb, Joshua Jones, Lesley Hall, Matthew Young, Bacteriophage Donors, Nana Balarjishvili, Marina Tediashvili, Yigang Tong, Christine Rohde, Johannes Wittmann, Ronen Hazan, Ran Nir-Paz, Joana Azeredo, Victor Krylov, David Cameron, Melissa Pitton, Yok-Ai Que, Gregory Resch, Shawna McCallin, Matthew Dunne, Samuel Kilcher, Patrick Soentjens, Rob Lavigne, Maya Merabishvili. Personalized bacteriophage therapy outcomes for 100 consecutive cases: a multicentre, multinational, retrospective observational study (англ.) // Nature Microbiology. — 2024-06-04. — Vol. 9, iss. 6. — P. 1434–1453. — ISSN 2058-5276. — doi:10.1038/s41564-024-01705-x. Архивировано 20 декабря 2024 года.

nih.gov

pubmed.ncbi.nlm.nih.gov

  • Abedon ST, Thomas-Abedon C, Thomas A, Mazure H (2011). "Bacteriophage prehistory: Is or is not Hankin, 1896, a phage reference?". Bacteriophage. 1 (3): 174–178. doi:10.4161/bact.1.3.16591. PMID 22164351.
  • Lwoff A (1953). "Lysogeny". Bacteriological Reviews. 17 (4): 269–337. doi:10.1128/br.17.4.269-337.1953. PMID 13105613.
  • Summers WC (2012). "The strange history of phage therapy". Bacteriophage. 2 (2): 130–133. doi:10.4161/bact.20757. PMID 23050223.
  • Ackermann HW (2003). "Bacteriophage observations and evolution". Research in Microbiology. 154 (4): 245–251. doi:10.1016/S0923-2508(03)00067-6. PMID 12798228.
  • Al-Shayeb B; Sachdeva R; Chen LX; et al. (2020). "Clades of huge phages from across Earth's ecosystems". Nature. 578 (7795): 425–431. doi:10.1038/s41586-020-2007-4. PMID 32051592.
  • Salem M; Virtanen S; Korkeala H; Skurnik M (2015). "Isolation and characterization of Yersinia-specific bacteriophages from pig stools in Finland". J Appl Microbiol. 118 (3): 599–608. doi:10.1111/jam.12722. PMID 25495090.
  • Oliveira H; Costa AR; Konstantinides N; Ferreira A; Akturk E; Sillankorva S; Nemec A; Shneider M; Dötsch A; Azeredo J (2017). "Ability of phages to infect Acinetobacter calcoaceticus-Acinetobacter baumannii complex species through acquisition of different pectate lyase depolymerase domains". Environ Microbiol. 19 (12): 5060–5077. doi:10.1111/1462-2920.13970. PMID 29076652.
  • Jun JW; Park SC; Wicklund A; Skurnik M (2018). "Bacteriophages reduce Yersinia enterocolitica contamination of food and kitchenware". Int J Food Microbiol. 271: 33–47. doi:10.1016/j.ijfoodmicro.2018.02.007. PMID 29477807.
  • Zaczek-Moczydłowska MA; Young GK; Trudgett J; Plahe C; Fleming CC; Campbell K; O'Hanlon R (2020). "Phage cocktail containing Podoviridae and Myoviridae bacteriophages inhibits the growth of Pectobacterium spp. under in vitro and in vivo conditions". PLoS One. 15 (4): e0230842. doi:10.1371/journal.pone.0230842. PMID 32240203.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Hyman P; Abedon ST (2010). "Bacteriophage host range and bacterial resistance". Advances in Applied Microbiology. 70: 217–248. doi:10.1016/S0065-2164(10)70007-1. PMID 20359459.
  • Ross A; Ward S; Hyman P (2016). "More is better: selecting for broad host range bacteriophages". Frontiers in Microbiology. 7: 1352. doi:10.3389/fmicb.2016.01352. PMID 27660623.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Sáez Moreno D; Visram Z; Mutti M; Restrepo-Córdoba M; Hartmann S; Kremers AI; Tišáková L; Schertler S; Wittmann J; Kalali B; et al. (2021). "ε2-phages are naturally bred and have a vastly improved host range in Staphylococcus aureus over wild type phages". Pharmaceuticals (Basel). 15 (4): 325. doi:10.3390/ph14040325. PMID 33918287.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Hendrix RW (2002). "Bacteriophages: evolution of the majority". Theoretical Population Biology. 61 (4): 471–480. doi:10.1006/tpbi.2002.1590. PMID 12167366.
  • Suttle CA (2005). "Viruses in the sea". Nature. 437 (7057): 356–361. doi:10.1038/nature04160. PMID 16163346.
  • Suttle CA (1994). "The significance of viruses to mortality in aquatic microbial communities". Microb Ecol. 28 (2): 237–243. doi:10.1007/BF00166813. PMID 24186450.
  • Touchon M; Moura de Sousa JA; Rocha EP (2017). "Embracing the enemy: the diversification of microbial gene repertoires by phage-mediated horizontal gene transfer". Curr Opin Microbiol. 38: 66–73. doi:10.1016/j.mib.2017.04.010. PMID 28527384.
  • López-Leal G; Camelo-Valera LC; Hurtado-Ramírez JM; Verleyen J; Castillo-Ramírez S; Reyes-Muñoz A (2022). "Mining of thousands of prokaryotic genomes reveals high abundance of prophages with a strictly narrow host range". mSystems. 7 (4): e0032622. doi:10.1128/msystems.00326-22. PMID 35880895.
  • Weinbauer MG (2004). "Ecology of prokaryotic viruses". FEMS Microbiology Reviews. 28 (2): 127–181. doi:10.1016/j.femsre.2003.08.001. PMID 15109783.
  • Knowles B; Silveira CB; Bailey BA; et al. (2016). "Lytic to temperate switching of viral communities". Nature. 531 (7595): 466–470. doi:10.1038/nature17193. PMID 26982729.
  • Silveira CB; Rohwer FL (2016). "Piggyback-the-Winner in host-associated microbial communities". NPJ Biofilms Microbiomes. 2: 16010. doi:10.1038/npjbiofilms.2016.10. PMID 28721247.
  • Brown TL; Charity OJ; Adriaenssens EM (2023). "Ecological and functional roles of bacteriophages in contrasting environments: marine, terrestrial and human gut". Curr Opin Microbiol. 70: 102229. doi:10.1016/j.mib.2022.102229. PMID 36347213.
  • Shkoporov AN, Hill C (2019). "Bacteriophages of the Human Gut: The "Known Unknown" of the Microbiome". Cell Host & Microbe. 25 (2): 195–209. doi:10.1016/j.chom.2019.01.017. PMID 30763534.
  • Guliy OI, Bunin VD, O'Neil D, Ivnitski D, Ignatov OV (2007). "A new electro-optical approach to rapid assay of cell viability". Biosensors and Bioelectronics. 23 (4): 583–587. doi:10.1016/j.bios.2007.06.008. PMID 17764921.
  • Pirnay JP; Verbeken G (2023). "Magistral phage preparations: is this the model for everyone?". Clinical Infectious Diseases. 77 (Supplement_5): S360 – S369. doi:10.1093/cid/ciad481. PMID 37932120.
  • Djebara S; Maussen C; De Vos D; et al. (2019). "Processing phage therapy requests in a Brussels military hospital: lessons identified". Viruses. 11 (3): 265. doi:10.3390/v11030265. PMID 30884879.{{cite journal}}: Википедия:Обслуживание CS1 (не помеченный открытым DOI) (ссылка)
  • Onallah H; Hazan R; Nir-Paz R; et al. (2023). "Compassionate use of bacteriophages for failed persistent infections during the first 5 years of the Israeli phage therapy center". Open Forum Infectious Diseases. 10 (5): ofad221. doi:10.1093/ofid/ofad221. PMID 37234511.
  • Aslam S; Lampley E; Wooten D; et al. (2020). "Lessons learned from the first 10 consecutive cases of intravenous bacteriophage therapy to treat multidrug-resistant bacterial infections at a single center in the United States". Open Forum Infectious Diseases. 7 (9): ofaa389. doi:10.1093/ofid/ofaa389. PMID 33005701.
  • Uyttebroek S; Chen B; Onsea J; et al. (2022). "Safety and efficacy of phage therapy in difficult-to-treat infections: a systematic review". The Lancet Infectious Diseases. 22 (8): e208 – e220. doi:10.1016/S1473-3099(21)00612-5. PMID 35248167.
  • Pirisi A (2000). "Phage therapy—advantages over antibiotics?". The Lancet. 356 (9239): 1418. doi:10.1016/S0140-6736(05)74059-9. PMID 11052592.

ncbi.nlm.nih.gov

  • Bacillus phage G, complete genome. GenBank. Дата обращения: 23 июля 2017. Архивировано 21 августа 2018 года.
  • Thomas MJN, Brockhurst MA, Coyte KZ. What makes a temperate phage an effective bacterial weapon? mSystems. 2024;9(6):e0103623. doi: 10.1128/msystems.01036-23. PMID 38727217
  • Laanto E, Hoikkala V, Ravantti J, Sundberg LR. Long-term genomic coevolution of host-parasite interaction in the natural environment. Nat Commun. 2017;8(1):111. doi: 10.1038/s41467-017-00158-7. PMID 28740072
  • Dewald-Wang EA, Parr N, Tiley K, Lee A, Koskella B. Multiyear Time-Shift Study of Bacteria and Phage Dynamics in the Phyllosphere. Am Nat. 2022;199(1):126–140. doi: 10.1086/717181. PMID 34978974

nkj.ru

regmed.ru

pharmacopoeia.regmed.ru

thelancet.com

web.archive.org

wikipedia.org

en.wikipedia.org

worldcat.org

  • Félix d' Hérelle. Autobiographie de Félix d'Hérelle 1873-1949. — Paris, DL 2017. — 1 v. (XXIX-347 p.) с. — ISBN 978-2-86728-015-3, 2-86728-015-X.
  • Jean-Paul Pirnay, Sarah Djebara, Griet Steurs, Johann Griselain, Christel Cochez, Steven De Soir, Tea Glonti, An Spiessens, Emily Vanden Berghe, Sabrina Green, Jeroen Wagemans, Cédric Lood, Eddie Schrevens, Nina Chanishvili, Mzia Kutateladze, Mathieu de Jode, Pieter-Jan Ceyssens, Jean-Pierre Draye, Gilbert Verbeken, Daniel De Vos, Thomas Rose, Jolien Onsea, Brieuc Van Nieuwenhuyse, Bacteriophage Therapy Providers, Kim Win Pang, Willem-Jan Metsemakers, Dimitri Van der Linden, Olga Chatzis, Anaïs Eskenazi, Angel Lopez, Adrien De Voeght, Anne Françoise Rousseau, Anne Tilmanne, Daphne Vens, Jean Gérain, Brice Layeux, Erika Vlieghe, Ingrid Baar, Sabrina Van Ierssel, Johan Van Laethem, Julien Guiot, Sophie De Roock, Serge Jennes, Saartje Uyttebroek, Laura Van Gerven, Peter W. Hellings, Lieven Dupont, Yves Debaveye, David Devolder, Isabel Spriet, Paul De Munter, Melissa Depypere, Michiel Vanfleteren, Olivier Cornu, Stijn Verhulst, Tine Boiy, Stoffel Lamote, Thibaut Van Zele, Grégoire Wieërs, Cécile Courtin, David Lebeaux, Jacques Sartre, Tristan Ferry, Frédéric Laurent, Kevin Paul, Mariagrazia Di Luca, Stefan Gottschlich, Tamta Tkhilaishvili, Novella Cesta, Karlis Racenis, Telma Barbosa, Luis Eduardo López-Cortés, Maria Tomás, Martin Hübner, Truong-Thanh Pham, Paul Nagtegaal, Jaap Ten Oever, Johannes Daniels, Maartje Loubert, Ghariani Iheb, Joshua Jones, Lesley Hall, Matthew Young, Bacteriophage Donors, Nana Balarjishvili, Marina Tediashvili, Yigang Tong, Christine Rohde, Johannes Wittmann, Ronen Hazan, Ran Nir-Paz, Joana Azeredo, Victor Krylov, David Cameron, Melissa Pitton, Yok-Ai Que, Gregory Resch, Shawna McCallin, Matthew Dunne, Samuel Kilcher, Patrick Soentjens, Rob Lavigne, Maya Merabishvili. Personalized bacteriophage therapy outcomes for 100 consecutive cases: a multicentre, multinational, retrospective observational study (англ.) // Nature Microbiology. — 2024-06-04. — Vol. 9, iss. 6. — P. 1434–1453. — ISSN 2058-5276. — doi:10.1038/s41564-024-01705-x. Архивировано 20 декабря 2024 года.
  • D. S. Davydov, R. L. Parfenyuk, Z. V. Durmanova, V. A. Merkulov, A. A. Movsesyants. Characteristic aspects of marketing authorisation and quality assurance of bacteriophage medicinal products in the Russian Federation // Biological Products. Prevention, Diagnosis, Treatment. — 2023-01-24. — Т. 23, вып. 2. — С. 181–193. — ISSN 2619-1156. — doi:10.30895/2221-996X-2023-431. Архивировано 10 сентября 2024 года.