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NAJRAN UNIVERSITY College of Applied Medical Sciences

NAJRAN UNIVERSITY College of Applied Medical Sciences. General Microbiology Course Lecture No. 8. By. Dr. Ahmed Morad Asaad Associate Professor of Microbiology. Genotypic variations:

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NAJRAN UNIVERSITY College of Applied Medical Sciences

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  1. NAJRAN UNIVERSITY College of Applied Medical Sciences General Microbiology Course Lecture No. 8 By Dr. Ahmed MoradAsaad Associate Professor of Microbiology

  2. Genotypic variations: • These are permanent (irreversible) variations, which are heritable, i.e. they will be transmitted among generations. They may be due to: • 1-Mutation • 2-Gene transfer: • *-Transfer of DNA within bacterial cell (transposition) • *-Transfer of DNA between bacterial cells (transformation, transduction and conjugation)

  3. Gene transfer Transfer of bacterial DNA within or between bacterial cells • Transfer of DNA within bacterial cells • Transposition: • Movement of transposons from one site in a DNA molecule to other target chromosomal or plasmid sites. • It results in insertion or deletion mutations secondary to alternative excision/insertion of a transposon from one DNA locus to another

  4. Transfer of bacterial DNA between bacterial cells By Transformation – transduction - conjugation • Transformation: • The transfer of DNA from one cell to another by either of 2 mechanisms: • 1- In nature, dying bacteria may release their DNA which may be taken by another cells • 2- In the lab, DNA may be extracted from one bacterial cell into another one

  5. Transduction Transfer of bacterial DNA by means of a bacterial virus (bacteriophage). 2 types of transduction: generalized and specialized • Generalized transduction: • This occurs when the bacterial virus carries a segment from any part of the bacterial chromosome. This occurs because cell DNA is fragmented after phage infection and a piece of DNA is incorporated into the virus.

  6. Specialized transduction: • This occurs when the bacterial virus that has integrated into the cell DNA is excised and carries with it an adjacent part of the cell DNA

  7. Conjugation: • 1- It is the mating of 2 bacterial cells during which DNA is transferred from the donor to recipient cell. • 2- The mating process is controlled by F (fertility) plasmid (F factor) which carries genes for synthesis of pilin and form sex pilus. • 3- Mating begins when the sex pilus of donor male bacteria carrying F factor (F+) attach to to recipient female bacteria (F-). • 4- Cleavage of F factor DNA: one strand to recipient cell. • The process is completed by synthesis of a complementary strand in each cell

  8. Plasmid: • 1- Extrachromosomal small circular double-stranded DNA. • 2- Dispensable • 3- Carry genetic informations that confer new phenotypic properties: • *- Antibiotic resistance • *- Sex pillus (F pillus) • *- Virulence factors • *- Bacteriocin • *- Enzymes

  9. Genetic engineering • *- A method to isolate genes coding for certain properties and join them together to form new combinations. • *- Also called genetic recombination, recombinant DNA technology, DNA cloning. • *- Major 3 steps (It requires): • 1- Separation of required gene (by restriction endonuclease). • 2- Carrying this gene by a vector • 3- Introducing the gene into a host cell (by transformation)

  10. Restriction endonucleases: • *- Enzymes from bacteria and fungi that can recognize and cut DNA fragments (genes) at specific sites • Vectors: • 1- Plasmids • 2- Bacteriophage • 3- Cosmids: circular double-stranded DNA molecule constructed from plasmid DNA+phage DNA. They carry large genes • 4- Retroviruses and adenoviruses

  11. Applications of recombinant DNA technology: • 1- Extensive chromosomal and genes studies • 2- Preparation of probes for diagnostic purposes • 3- Production of proteins of medical importance (large amount + low coast) • 4- production of recombinant vaccines • 5- Gene therapy (virus vectors)

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