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Archives of Clinical Microbiology

  • ISSN: 1989-8436
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Citations : 2234

Archives of Clinical Microbiology received 2234 citations as per Google Scholar report

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Antibiotic resistance and potential role of CRISPR type mechanisms

EuroSciCon Conference on Virology and Infectious Diseases
April 22-23, 2019 | Athens, Greece

Simon Raymond

Melbourne University, Australia

Posters & Accepted Abstracts: Arch Clin Microbiol

Abstract:

Potential role of CRISPR type mechanisms in antibiotic resistance: there has been increasing attention directed toward antimicrobial resistance as a contributory factor with respect to current severity level issues (as defined by UN and WHO) in regards to infectious disease type situations globally. This presentation discusses the possibility that pathogens may contain mechanisms similar to that of the CRISPR type category which conduct analysis of the human genes in assessment of what genes contribute the robustness of human cells with regards to antibiotics, as a means to determine how to enhance functioning in a manner as to achieve sturdy and robust protection against the anti-replicative (and toxic) effects of antimicrobials by way of mimicking the genetic functions of human beings. The above is as opposed to development of pathogen resistance being based simply on random mutation and survival of microorganisms that have (through random mutation) come to contain enhanced survival functioning. This research however is only in the early phases. Previous research has already shown that micro-organisms through actual molecular mimicry have managed to develop the ability to perform voltage gated ion channel communications to each other. Other current research by the presenting author: application of quantum physics to medicine and surgery; to advance into the future, the practice of medicine and surgery; site attachment inhibition therapeutics: development of the third branch of antimicrobial therapeutics. As opposed to the two historic methods, site attachment inhibition focuses on negation of attachment by the micro-organism to the human cellular biology. Site attachment inhibition includes new generation immunization which utilises stem cell therapy in the period of embryogenesis, spanning back to oogenesis and spermatogenesis. In conclusion, this presentation discusses new areas of research with regards to antibiotic resistance.

Biography :

E-mail:

simonraymondcontact@gmail.com

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