Referencias

1. DeLano WL, others. Pymol: An open-source molecular graphics tool. CCP4 Newsl Protein Crystallogr. 2002;40:82-92.

2. Forterre P. Defining life: the virus viewpoint. Origins of Life and Evolution of Biospheres. 2010;40:151-60.

3. Mukhopadhyay S, Kim B-S, Chipman PR, Rossmann MG, Kuhn RJ. Structure of west nile virus. Science. 2003;302:248-8.

4. Krupovic M, Dolja VV, Koonin EV. Origin of viruses: primordial replicators recruiting capsids from hosts. Nature Reviews Microbiology. 2019;17:449-58.

5. Raoult D, Forterre P. Redefining viruses: lessons from Mimivirus. Nature Reviews Microbiology. 2008;6:315-9.

6. Claverie J-M, Abergel C. Mimivirus: the emerging paradox of quasi-autonomous viruses. Trends in Genetics. 2010;26:431-7.

7. Claverie J-M, Grzela R, Lartigue A, Bernadac A, Nitsche S, Vacelet J, et al. Mimivirus and Mimiviridae: giant viruses with an increasing number of potential hosts, including corals and sponges. Journal of invertebrate pathology. 2009;101:172-80.

8. Scola BL, Audic S, Robert C, Jungang L, Lamballerie X de, Drancourt M, et al. A giant virus in amoebae. Science. 2003;299:2033-3.

9. Colson P, La Scola B, Levasseur A, Caetano-Anollés G, Raoult D. Mimivirus: leading the way in the discovery of giant viruses of amoebae. Nature Reviews Microbiology. 2017;15:243-54.

10. Elisco D. The Virus Hunters. National Geographic Explorer.

11. Moreira D, Brochier-Armanet C. Giant viruses, giant chimeras: the multiple evolutionary histories of Mimivirus genes. BMC Evolutionary Biology. 2008;8:1-0.

12. Jeudy S, Abergel C, Claverie J-M, Legendre M. Translation in giant viruses: a unique mixture of bacterial and eukaryotic termination schemes. PLoS genetics. 2012;8:e1003122.

13. Brandes N, Linial M. Giant viruses—big surprises. Viruses. 2019;11:404.

14. Seppälä O, Valtonen ET, Benesh DP. Host manipulation by parasites in the world of dead-end predators: adaptation to enhance transmission? Proceedings of the Royal Society B: Biological Sciences. 2008;275:1611-5.

15. Wertheim HFL, Nguyen TQ, Nguyen KAT, Jong MD de, Taylor WRJ, Le TV, et al. Furious rabies after an atypical exposure. PLoS medicine. 2009;6:e1000044.

16. Sanjuán R. The Social Life of Viruses. Annual Review of Virology. 2021;8:183-99.

17. Williams T, Virto C, Murillo R, Caballero P. Covert infection of insects by baculoviruses. Frontiers in microbiology. 2017;8:1337.

18. Candiru T. Death March of the Zombie Caterpillars. 2020.

19. Villarreal L. From Bacteria to Belief: Immunity and Security. In ““Natural Security: a Darwinian approach to a dangerous world””(SRD, and T. Taylor, Eds.). 2008.

20. Broecker F, Moelling K. Evolution of immune systems from viruses and transposable elements. Frontiers in microbiology. 2019;51.

21. Villarreal LP. Origin of group identity: viruses, addiction and cooperation. Springer Science & Business Media; 2008.

22. Volkoff A-N, Cusson M. The unconventional viruses of ichneumonid parasitoid wasps. Viruses. 2020;12:1170.

23. Burke GR, Strand MR. Polydnaviruses of parasitic wasps: domestication of viruses to act as gene delivery vectors. Insects. 2012;3:91-119.

24. Tang C-K, Tsai C-H, Wu C-P, Lin Y-H, Wei S-C, Lu Y-H, et al. MicroRNAs from Snellenius manilae bracovirus regulate innate and cellular immune responses of its host Spodoptera litura. Communications biology. 2021;4:1-1.

25. Gauthier J, Boulain H, Vugt JJ van, Baudry L, Persyn E, Aury J-M, et al. Chromosomal resolution reveals symbiotic virus colonization of parasitic wasp genomes. BioRxiv. 2020.

26. Oliver KM, Degnan PH, Hunter MS, Moran NA. Bacteriophages encode factors required for protection in a symbiotic mutualism. Science. 2009;325:992-4.

27. Eleftherianos I, Atri J, Accetta J, Castillo J. Endosymbiotic bacteria in insects: guardians of the immune system? Frontiers in physiology. 2013;4:46.

28. Baker CA. Hosta virus X, a Potexvirus. Florida Department of Agriculture; Consumer Services, Division of Plant …; 2013.

29. Valverde RA, Sabanadzovic S, Hammond J. Viruses that enhance the aesthetics of some ornamental plants: beauty or beast? Plant disease. 2012;96:600-11.

30. Luang-Suarkia D, Mitja O, Ernst T, Bennett S, Tay A, Hays R, et al. Hyperendemic dengue transmission and identification of a locally evolved DENV-3 lineage, Papua New Guinea 2007-2010. PLoS Neglected Tropical Diseases. 2018;12:e0006254.

31. Nanaware N, Banerjee A, Mullick Bagchi S, Bagchi P, Mukherjee A. Dengue virus infection: a tale of viral exploitations and host responses. Viruses. 2021;13:1967.

32. Hadfield J, Megill C, Bell SM, Huddleston J, Potter B, Callender C, et al. Nextstrain: real-time tracking of pathogen evolution. Bioinformatics. 2018;34:4121-3.

33. WHO. Dengue and severe dengue. World Health Organization. 2022.

34. Terrell J. Biology, biogeography and man. World Archaeology. 1977;8:237-48.

35. Kolb AW, Ané C, Brandt CR. Using HSV-1 genome phylogenetics to track past human migrations. PloS one. 2013;8:e76267.

36. Wohns AW, Wong Y, Jeffery B, Akbari A, Mallick S, Pinhasi R, et al. A unified genealogy of modern and ancient genomes. Science. 2022.

37. Kaján GL, Doszpoly A, Tarján ZL, Vidovszky MZ, Papp T. Virus–host coevolution with a focus on animal and human DNA viruses. Journal of molecular evolution. 2020;88:41-56.

38. Urrezola JU. Los signos y el significado en la naturaleza. Investigación y ciencia. 2021;46-7.

39. Romero J. Biosemiótica: Hacia una teorÍa general de los signos de la naturaleza humana y no humana. Signa: Revista de la Asociación Española de Semiótica. 29:787-805.

40. Schoch CL, Ciufo S, Domrachev M, Hotton CL, Kannan S, Khovanskaya R, et al. NCBI Taxonomy: a comprehensive update on curation, resources and tools. Database. 2020;2020.

41. Ling J, O’donoghue P, Söll D. Genetic code flexibility in microorganisms: novel mechanisms and impact on physiology. Nature Reviews Microbiology. 2015;13:707-21.

42. Vera LF. El código genético cumple 40 años. Revista de la Real Academia de Ciencias Exactas, Fı́sicas y Naturales. 2008;102:201-14.

43. Robertson WE, Funke LF, Torre D de la, Fredens J, Elliott TS, Spinck M, et al. Sense codon reassignment enables viral resistance and encoded polymer synthesis. Science. 2021;372:1057-62.

44. Andersen KG, Rambaut A, Lipkin WI, Holmes EC, Garry RF. The proximal origin of SARS-CoV-2. Nature medicine. 2020;26:450-2.

45. Gamero AM, Chamorro MR, Rojas NG. Las secuelas de la COVID-19: entre la anosmia y la ageusia. Acta Otorrinolaringologica Espanola. 2021.

46. Horton R. Offline: COVID-19 is not a pandemic. The lancet. 2020;396:874.

47. CDC. Obesity, race/ethnicity, and COVID-19. Centers for Disease Control and Prevention. 2022.

48. Casalino L, Gaieb Z, Goldsmith JA, Hjorth CK, Dommer AC, Harbison AM, et al. Beyond shielding: the roles of glycans in the SARS-CoV-2 spike protein. ACS central science. 2020;6:1722-34.

49. Guillon P, Clément M, Sébille V, Rivain J-G, Chou C-F, Ruvoën-Clouet N, et al. Inhibition of the interaction between the SARS-CoV spike protein and its cellular receptor by anti-histo-blood group antibodies. Glycobiology. 2008;18:1085-93.

50. Breiman A, Ruvën-Clouet N, Le Pendu J. Harnessing the natural anti-glycan immune response to limit the transmission of enveloped viruses such as SARS-CoV-2. PLoS Pathogens. 2020;16:e1008556.

51. Yamamoto F, Yamamoto M, Muñiz-Diaz E. Blood group ABO polymorphism inhibits SARS-CoV-2 infection and affects COVID-19 progression. Vox Sanguinis. 2020.

52. Misevic G. ABO blood group system. Asia Pacific J Blood Types Genes. 2018;2:71-84.

53. ABO-NX model (teaching resource). Wsu.edu.

54. contributors W. Grupo sanguíneo. Wikipedia, The Free Encyclopedia.

55. Wu J, McCann A, Katz J, Peltier E, Singh KD. The pandemic’s hidden toll: Half a million deaths. The New York times. 2020.

56. Viglione G. How many people has the coronavirus killed? Nature. 2020;585:22-4.

57. Wamai RG, Hirsch JL, Van Damme W, Alnwick D, Bailey RC, Hodgins S, et al. What could explain the lower COVID-19 burden in Africa despite considerable circulation of the SARS-CoV-2 virus? International Journal of Environmental Research and Public Health. 2021;18:8638.