Using DNA Synthesis to Create Quick Responses to Emerging and Pandemic Pathogens
Received Date: Jan 27, 2023 / Published Date: May 01, 2023
Abstract
Arising conditions and epidemic outbreaks pose an adding trouble to the global community’s health and profitable stability given how connected our globe is moment. The current 2009 influenza A epidemic, the SARS outbreak and the patient trouble of transnational bioterrorism are evidence of this. Fortunately, the biomedical community has been suitable to snappily produce sequence data, allowing for the quick identification of these pathogens. Still, despite having sequencing data, it has taken a while for this information to be used to induce practicable treatments or useful experimental results. Therefore, it’s possible to snappily identify a pathogenic peril that has surfaced or progressed into an epidemic; but, doing so in a way that turns this identification into a focused remedy or treatment that's snappily available has proven grueling. Public health depends on being ready for bioterrorist strikes and early discovery of specific agents. Exigency apartments might have a significant impact in this area. The broad description of bioterrorism includes not just disastrous terrorism that results in high figures of casualties, but also micro events that use low tech yet nevertheless beget public uneasiness, dislocation, complaint, impairments, and death. It tries to undermine social and political order in addition to causing mortality and morbidity. The most effective protection against implicit bioterrorist attacks seems to be medication. In this essay, we want to raise mindfulness of natural agents and emphasize how pivotal exigency apartments are to working this public health issue.
Keywords: SARS, Pandemic, Biomedical, Protection, Bioterrorist
Citation: Mikus S (2023) Using DNA Synthesis to Create Quick Responses to Emerging and Pandemic Pathogens. J Bioterr Biodef 14: 338.
Copyright: © 2023 Mikus S. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.
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