Scientific Study:(Solutions and Recommendations to avoid the Spread of Corona Virus Covid 19 in Iraq)
DOI:
https://doi.org/10.5281/zenodo.10450092Keywords:
Cov.19, corona virus19 , social problem, Corona Virus, scientific study, case studyAbstract
This case study to solve social scientific problem in Iraq and world like spread of infection , that described some suggestions and solutions to reduce the spread of corona virus infection, especially among children and the elderly, who have immune system problems, heart diseases and respiratory diseases, in addition to finding solutions of the infection Problem :
Name Problem : Suggestions and solutions of Social problem(spread of corona virus.19 ).
Type of Study : Scientific Study for Treatment of Scientific-Social Problem (spread of corona virus.19).
Aim of Scientific Study : Finding solutions of spread of corona virus. 19.
References
Almeida, J., Berry, D., Cunningham, C., Hamre, D., Hofstad, MS. Mallucci, L., McIntosh, K. and Tyrrell, D. (1968). [T]here is also a characteristic "fringe" of projections 200 A long, which are rounded or petal shaped ... This appearance, recalling the solar corona, is shared by mouse hepatitis virus and several viruses recently recovered from man, namely strain B814, 229E and several others. "Virology: Coronaviruses" 220, 650.
Bande, F., Arshad, S., Bejo, M., Moeini, H. and Omar, A. (2015). "Progress and challenges toward the development of vaccines against avian infectious bronchitis". Journal of Immunology Research.
Bidokhti, M., Tråvén, M., Krishna, N., Munir, M., Belák, S., Alenius, S. and Cortey, M. (2013). "Evolutionary dynamics of bovine coronaviruses: natural selection pattern of the spike gene implies adaptive evolution of the strains". The Journal of General Virology 94, 2036–49.
Chang, C., Hou, M., Chang, C., Hsiao, C. and Huang, T. (2004). "The SARS coronavirus nucleocapsid protein– forms and functions". Antiviral Research 103, 39–50.
Cohen, J. (2020). "Wuhan seafood market may not be source of novel virus spreading globally". ScienceMag American Association for the Advancement of Science. (AAAS).
Cruz, J., Becares, M., Sola, I., Oliveros, J., Enjuanes, L. and Zúñiga, S. (2013). "Alphacoronavirus protein 7 modulates host innate immune response". Journal of Virology 87, 9754–67.
Cruz, J., Sola, I., Becares, M., Alberca, B., Plana, J., Enjuanes, L. and Zuñiga, S. (2011). "Coronavirus gene 7 counteracts host defenses and modulates virus virulence". PLoS Pathogens 7.
Cui, J., Li, F. and Shi, Z. (2019). "Origin and evolution of pathogenic coronaviruses". Different SARS-CoV strains isolated from several hosts vary in their binding affinities for human ACE2 and consequently in their infectivity of human cells 76, 78 . Nature Reviews. Microbiology 17, 181–92.
De, G. R., Baker, S., Baric, R. and et.al. (2011). "Family Coronaviridae". In King AM, Lefkowitz E, Adams MJ, Carstens EB, International Committee on Taxonomy of Viruses, International Union of Microbiological Societies. Virology Division (eds.). Ninth Report of the International Committee on Taxonomy of Viruses. Oxford: Elsevier.
Eschner, K. (2020). "We’re still not sure where the COVID-19 really came from". Popular Science.
Fan, Y., Zhao, K., Shi, Z. and Zhou, P. (2019). "Bat Coronaviruses in China". Viruses 11, 210.
Fehr, A. and Perlman, S. (2015). "Coronaviruses: an overview of their replication and pathogenesis". In Maier HJ, Bickerton E, Britton P (eds.). Coronaviruses. Methods in Molecular Biology. Springer 1282, 1–23.
Fehr, A., Perlman, S., Maier, H., Bickerton, E. and Britton, P. e. (2015). "Coronaviruses: an overview of their replication and pathogenesis". Methods in Molecular Biology. Springer. 1282, 1–23.
Geller, C., Varbanov, M. and Duval, R. (2012). "Human coronaviruses: insights into environmental resistance and its influence on the development of new antiseptic strategies". Viruses 4, 3044– 68.
Goldsmith, C., Tatti, K., Ksiazek, T., Rollin, P., Comer, J., Lee, W. and et al. (2004). Virions acquired an envelope by budding into the cisternae and formed mostly spherical, sometimes pleomorphic, particles that averaged 78 nm in diameter (Figure 1A). "Ultrastructural characterization of SARS coronavirus". Emerging Infectious Diseases. 10, 320– 26.
Hui, D., Azhar, E., Madani, T., Ntoumi, F., Kock, R., Dar, O. and et. al. (2020). "The continuing 2019-nCoV epidemic threat of novel coronaviruses to global health—The latest 2019 novel coronavirus outbreak in Wuhan, China". International Journal of Infectious Diseases 91, 264–66.
Kahn, J. and McIntosh, K. (2005). "History and recent advances in coronavirus discovery". The Pediatric Infectious Disease Journal 24, S223–27.
Kelland, K. (2012). New virus not spreading easily between people: WHO". Reuter.
Lai, M. and Cavanagh, D. (1997). "The molecular biology of coronaviruses". Advances in Virus Research 48, 1–100.
Li, F., Li, W., Farzan, M. and Harrison, S. (2005). "Structure of SARS coronavirus spike receptor-binding domain complexed with receptor". Science 309, 1864–68.
Masters, P. (2006). "The molecular biology of coronaviruses". Advances in Virus Research. Academic Press 66, 193–292.
McIntosh, K. (1974). Arber, W. and Haas, R. and Henle, W. and Hofschneider, PH. and Jerne, NK. and Koldovský, P. and Koprowski, H. and Maaløe, O. and Rott, R. (eds.)."Coronaviruses: A Comparative Review". Current Topics in Microbiology and Immunology / Ergebnisse der Mikrobiologie und Immunitätsforschung. Berlin, Heidelberg: Springer 87.
Murphy, F., Gibbs, E., Horzinek, M. and Studdart, M. (1999). Veterinary Virology., vol. 3,. Boston: Academic Press.
Murray, J. (2014). "What’s New With Ferret FIP-like Disease?" (xls). Archived from the original on 2014-04-24. Retrieved 2014-04- 24.
Neuman, B., Adair, B., Yoshioka, C., Quispe, J., Orca, G. and Kuhn, P. e. a. (2006). "Supramolecular architecture of severe acute respiratory syndrome coronavirus revealed by electron cryomicroscopy". Journal of Virology 80, 7918– 7928.
Neuman, B., Kiss, G., Kunding, A., Bhella, D., Baksh, M. and Connelly, S. e. a. (2011). "A structural analysis of M protein in coronavirus assembly and morphology". Journal of Structural Biology 174, 11– 22.
Sang-Hun, C. (2015). "MERS Virus’s Path: One Man, Many South Korean Hospitals". The New York Times.
Sexton, N., Smith, E., Blanc, H., Vignuzzi, M., Peersen, O. and Denison, M. (2016a). "Homology-Based Identification of a Mutation in the Coronavirus RNA-Dependent RNA Polymerase That Confers Resistance to Multiple Mutagens". Journal of Virology 90, 7415–28.
Sexton, N., Smith, E., Blanc, H., Vignuzzi, M., Peersen, O. and Denison, M. (2016b). "Homology-Based Identification of a Mutation in the Coronavirus RNA-Dependent RNA Polymerase That Confers Resistance to Multiple Mutagens". Journal of Virology 90, 7415–28.
Simmons, G., Zmora, P., Gierer, S., Heurich, A. and Pöhlmann, S. (2013). "Proteolytic activation of the SARScoronavirus spike protein: cutting enzymes at the cutting edge of antiviral research". Antiviral Research 100, 605–14.
Snijder, E., Bredenbeek, P., Dobbe, J., Thiel, V., Ziebuhr, J. and Poon, L. e. a. (2003). "Unique and conserved features of genome and proteome of SARS-coronavirus, an early split-off from the coronavirus group 2 lineage". Journal of Molecular Biology 331, 991–1004.
Sturman, L., Holmes, K., Lauffer, M. and Maramorosch, K. e. (1983). [T]hese viruses displayed a characteristic fringe of large, distinctive, petal-shaped peplomers or spikes which resembled a crown, like the corona spinarum in religious art; hence the name coronaviruses. "The molecular biology of coronaviruses". Advances in Virus Research 28, 35–112.
Thiel, V. (2007). Coronaviruses: Molecular and Cellular Biology (1st ed.). Caister Academic Press. Caister Academic Press.
Tirotta, E., Carbajal, K., Schaumburg, C., Whitman, L. and Lane, T. (2010). "Cell replacement therapies to promote remyelination in a viral model of demyelination". Journal of Neuroimmunology 224, 101– 07.
Vijgen, L., Keyaerts, E., Moës, E., Thoelen, I., Wollants, E. and Lemey, P. e. a. (2005). "Complete genomic sequence of human coronavirus OC43: molecular clock analysis suggests a relatively recent zoonotic coronavirus transmission event". Journal of Virology 79, 1595–604.
Wei, X., She, G., Wu, T., Xue, C. and Cao, Y. (2020). "PEDV enters cells through clathrin-, caveolae-, and lipid raftmediated endocytosis and traffics via the endo-/lysosome pathway". Veterinary Research 51.
Weiss, S. and Navas-Martin, S. (2005). "Coronavirus pathogenesis and the emerging pathogen severe acute respiratory syndrome coronavirus". Microbiology and Molecular Biology Reviews 69, 635– 64.
Wertheim, J., Chu, D., Peiris, J., Kosakovsky, P. S. and Poon, L. (2013). "A case for the ancient origin of coronaviruses". Journal of Virology 87, 7039–45.
Woo, P., Lau, S., Lam, C., Lau, C., Tsang, A. and Lau, J. e. a. (2012). "Discovery of seven novel Mammalian and avian coronaviruses in the genus deltacoronavirus supports bat coronaviruses as the gene source of alphacoronavirus and betacoronavirus and avian coronaviruses as the gene source of gammacoronavirus and delta coronavirus". Journal of Virology 86, 3995–4008.
Zhou, P., Fan, H., Lan, T., Yang, X., Shi,W. and Zhang,W. e. a. (2018). "Fatal swine acute diarrhoea syndrome caused by an HKU2-related coronavirus of bat origin". Nature 556, 255– 58.
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