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Bacteriophages Isolation & Characterization: PROTOCOLS
Rating: 4.4 out of 5(4 ratings)
10 students

Bacteriophages Isolation & Characterization: PROTOCOLS

Isolation; Characterization
Created byDr. Safia Samir
Last updated 6/2024
English

What you'll learn

  • Bacteriophages isolation definitions and protocols
  • Bacteriophages characterization definitions and protocols
  • Bacteriophages characterization and application in biotechnology and medicine
  • Protocols for phages isolation and characterization

Course content

1 section8 lectures32m total length
  • Bacteriophages Isolation4:10
  • Induction of lysogenic bacteriophages5:08
  • Storage of bacteriophages3:15
  • Bacteriophages characterization5:41
  • Mass spectrometry phage characterization3:28
  • Bacteriophages application in biotechnology and medicine3:17
  • Definitions1:17
  • PROTOCOLS5:46

Requirements

  • Learners should have information about microbiology and molecular biology

Description

The world is on the cusp of a post-antibiotic period. A century ago, before the advent of antibiotics, bacteriophage therapy was the treatment of choice for bacterial infections. Although bacteriophages have yet to be approved as a treatment in Western medicine, researchers and clinicians have begun to anticipate phage therapy. Bacteriophages are viruses that depend on bacterial cell metabolism to multiply. They offer a promising alternative to the use of antibiotics and an excellent antibacterial option for combating multidrug resistance in bacteria. However, not every phage is suitable for phage therapy. In particular, prophages should not be used because they can lysogenize host cells instead of lysing them. To offer adequate therapeutic options for patients suffering from various infectious diseases, a wide selection of different phages is needed. While there is no evidence of direct toxicity induced by phage particles, it is crucial to study mammalian cell-phage interactions. This requires phage preparations to be free of bacterial cells, toxins and other compounds to avoid skewing host responses. Negative staining of purified viruses and electron microscopy remain the gold standard in the identification of bacteriophages. Interestingly, genomics has greatly changed our understanding of phage biology. Bacteriophage genome sequencing is essential to obtain a complete understanding of the bacteriophages' biology and to obtain confirmation of their lifestyle. Full genetic sequencing of bacteriophage will enable a better understanding of the phage-encoded proteins and biomolecules (especially phage lytic enzymes) involved in the process of bacterial cell lysis and death. Mass spectrometry can be used for the identification of phage structural proteins. The use of lytic phages as biocontrol agents requires the most appropriate and standard methods to ensure application safety. This course pursues  methods in molecular biology for the isolation and characterization of phages to facilitate follow-up and implementation of work for other researchers.

Who this course is for:

  • All levels of microbiology and molecular biology academics and workers