2. Microbiology Part I:Microbiology & Immunology Part II: Pharmaceutical Microbiology

3. Textbook MICROBIOLOGY AN INTRODUCTION TORTORA, FUNKE AND CASE 9 th. Edition (2007)

4. Part 1 Microbiology & Immunology ## Introduction to Microbiology----classification, history, & how Microorganisms affect human lives ## Eukaryotes & Prokaryotes ## Morphology, metabolism, reproduction ## Physical factors that affect microbial growth

5. General Microbiology ## Antimicrobial chemotherapy ## Normal flora & host parasite relationship ## Mechanisms of virulence ## Virology, Parasitology, Mycology

6. ## Immunology # innate = physical & chemical (Phagocytosis, complement activation, interferons) # Acquired = Naturally & artificially Humeral & cell-mediated immune responses ## Vaccines & vaccination program

7. First exam. = 20 marks Second exam. = 20 marks Quiz & reports = 20 marks Final exam. = 40 marks Total = 100 marks

8. Microbiology microorganisms

9. Is the biology of microorganisms. - It is a bioscience for the study of the evolution, classification, morphology, physiology, genetics, ecology of microbes under certain definite conditions The law of their life activities and their interaction with human being, animals or plants as well as with natural environment.

10. Is a science dealing with Microorganisms

11. What are Microorganisms?. - Microorganisms -- are minute living things that are too small to be seen by naked eye microscope

12. What are Microorganisms? - Viruses, bacteria, fungi, protozoa and some algae are all in this category - All with the exception of plants and animals

13. Branches of Microbiology Bacteria - Bacteriology Mycology - Fungus Parasitology - Protozoology & Helminthology Immunology - Host defenses Virology - Viruses Recombinant DNA technology

14. Distribution of microorganisms Air Soil Water Animals Human body

15. Microorganisms and Human Beings Beneficial activities: Most microbes are of benefit to human beings, some are necessary ( nitrogen, carbon cycles) Harmful activities: A portion of microbes cause diseases and are poisonous to human, and these are really that concern us in the study of Medical Microbiology, etc.

16. The Importance of Microbiology Environment Medicine Food Industry Biotechnology Research

17. The Importance of Microbiology Ecological importance Maintaining the ecological balance in the environment (on the earth) by recycling chemical elements such as Carbon & Nitrogen between the soil & the atmosphere

18. The Importance of Microbiology Soil microbes help breakdown wastes &incorporate nitrogen gas from the air into organic compounds --certain microbes play important roles in photosynthesis (carbon) --a food & oxygen generating process that is critical to life on earth

19. The Importance of Microbiology Humans & many other animals depend on the microbes in their intestines (microflora) for: The digestion & the synthesis of some vitamins that their bodies require some B vitamins = metabolism vitamin K = blood clotting

20. The Importance of Microbiology ----Some microorganisms are used in commercial & industrial application # Industry: Chemicals --- organic acids,enzymes & alcohol (ethanol, acetone, etc.) # Food: cheese, yogurt, bread, pickles & vinegar # Drugs --- antibiotics (penicillin )

21. The Importance of Microbiology Biotechnology: Recombinant products (e.g., human insulin, vaccines)

22. Modern Biotechnology & Recombinant DNA technology Biotechnology =practical application of microbiology to produce some common foods & chemicals Recombinant DNA technology=have been used to produce a number of natural proteins vaccines & enzymes Gene therapy=inserting missing gene or replacing defective one in human cells,,,harmless virus to carry gene

23. Recombinant DNA technology: A series of procedures that are used to join together (recombine) DNA segments. A recombinant DNA molecule is constructed from segments of two or more different DNA molecules. Under certain conditions, a recombinant DNA molecule can enter a cell and replicate there, either on its own or after it has been integrated into a chromosome.

24. The use of microorganisms, such as bacteria or yeasts, or biological substances, such as enzymes, to perform specific industrial or manufacturing processes. Applications include the production of certain drugs, synthetic hormones, and bulk foodstuffs as well as the bioconversion of organic waste and the use of genetically altered bacteria in the cleanup of oil spills.

25. The Importance of Microbiology Environment: microbes used to treat sewage and clean up pollution Bioremediation microbes cultured for their ability to digest oil and other petroleum derivatives.

27. The History and Scope of Microbiology ## today we understand that microorganisms are found almost everywhere ## before the invasion of the microscope microbes were unknown to scientist ## thousands of people died in devastating epidemics, the causes of which were not understood ## entire families died because vaccination & antibiotics were not available to fight infections

28. The History and Scope of Microbiology #### we can get an idea of how our current concepts of Microbiology developed by looking at a few of the historic milestones in Microbiology that have changed our lives

29. History of Microbiology Experience phase Experimental phase Modern phase

30. Experience phase The most important discovery in the history of biology occurred in 1665 with crude microscope, Robert Hooke report that living thing are made of small unite (cells) Cell Theory

31. Experience phase Cell theory = all living things are composed of cells The structure & functions of cells were based on this theory Robert Hooke 1665 (English) = reported that life’s smallest structural units were cells

32. Experience phase Anton van Leewenhoek (Dutch merchant) 1673 = the first to actually observe live microorganisms through the magnifying lens He made detailed drawings (bacteria & protozoa)

33. Microbiology, b. 1674 Microscope of Antony van Leeuwenhoek (1673) Simple-single-lens microscope

34. Spontaneous generation Dr. Francsco Redi tried to disprove it

35. Experimental phase Spontaneous generation = living organisms could arise from non-living matter Dr. Francsco Redi (1668) tried to disprove it He demonstrated that maggots appear on decaying meat only when flies are able to lay eggs on meat

36. The Theory of biogenesis (1861) :Living cells can arise only from preexisting living cells

37. Experimental phase  Louis Pasteur (French) 1861  He was Able to disproved the spontaneous generation and proved the Biogenesis theory the development of aseptic techniques used in the laboratory & medical procedures to prevent contamination by microorganisms

38. Louis Pasteur Fermentation & pasteurization Yeast ferment sugars alcohol Bacteria oxidize alcohol acetic acid Heating process is used to kill bacteria in milk

39. Louis Pasteur Introduced “Germ Theory of Disease” = causal relationship between microorganism & disease. Developed Pasteur treatment for preventing rabies

40. Disproved spontaneous generation Biogenesis theory Fermentation Pasteurization Rabies treatment Germ theory of disease

41. Germ Theory of Disease Microorganisms cause disease Robert Koch (1876) proved that a particular microorganism cause a particular disease

42. 19th Century surgery using Lister’s carbolic acid sprayer.

43. The golden age of Microbology Vaccination

44. Vaccination – immunity (= resistance to a particular disease) is conferred by inoculation with a vaccine Pasteur (1880) discovered that avirulant bacteria could be used as a vaccine for cholera (vaccine) Now modern vaccines are prepared from living or killed pathogens Recombinant DNA techniques

45. The Birth of modern Chemotherapy: “Dreams of Magic Bullet” Treatment of disease by using chemical substances Chemotherapy If prepared from chemical in the laboratory synthetic drugs Or produced by Microorganism Antibiotics

46. (1910) introduce salvarsan to treat syphilis

50. Modern Biotechnology & Recombinant DNA technology Biotechnology =practical application of microbiology to produce some common foods & chemicals Recombinant DNA technology=have been used to produce a number of natural proteins vaccines & enzymes Gene therapy=inserting missing gene or replacing defective one in human cells harmless virus to carry gene

51. Cell theory Spontaneous generation The Theory of biogenesis “Germ Theory of Disease”

52. Anton van Leewenhoek Louis Pasteur Robert Koch Joseph Lister Paul Ehrlich Alexander Fleming Edward Jenner

53. Classification of Microorganisms & Taxonomy

54. Relationship of Microbes

55. Classification of microbes and taxonomy prokaryoteseukaryotes

56. Classification of microbes and taxonomy prokaryotesbacteriaarchaea

57. Types of Microorganisms Bacteria (singular: bacterium) are relatively simple single-celled prokaryotes Cell shape are either rods or coccus Enclosed in cell wall largely composed of carbohydrate and protein complex called peptidoglycan Bacteria reproduce by binary fission For nutrition, most bacteria use organic chemicals derived from living or nonliving Some can do photosynthesis Some are motile

58. Archae Like bacteria Cell wall lack peptidoglycan - Extremely salty environment Not cause disease in human

60. microorganisms that are composed of single or multicellular Eukarya - Algae - Fungi - Protozoa - Helminths

61. Are photosynthesis Eukaryotes with wide variety of shapes Reproduce sexually or asexually Cell wall like plants are compose of cellulose Algae are abundant in fresh water and salt Play an important role in the balance of nature (produce Oxygen& carbohydrates) Major food source of small aquatic animals

62. Fungi (singular: fungus) are Eukaryotes They may be unicellular ( yeast )- are oval in shape larger than bacteria OR multicellular ( mold)- form visible masses called mycelia compose of long filaments ( hyphae)cottony growths on bread&fruit). Large multicellular like mushroom look somewhat like plant but they are not photosynthesis Cell wall compose of chitin Fungi reproduce sexually or asexually They absorbing solution of organic materials to get their nourishements

63. Protozoa are unicellular Eukaryotic microbes Move by flagella, cilia, pseudopods Have variety of shapes, Lives free or as parasite They absorb or ingest organic compounds from their environment They reproduce by sexually or asexually

64. Compare Algae, Fungi, & Protozoa.

65. Multicellular animal parasites Helminths included: Flat helminths and round helminths During some stages of their life cycle, helminths are microscopic in size

66. Relationship of Microbes

68. Viruses are differ from all others They are so small that need electron microscopy to be seen they are acellular (not cellular) Structurally very simple: core made of only one type of nucleic acid ( either DNA, or RNA) This core surrounded by protein coat Sometimes this coat is enclosed by an additional layer, a lipid layer called envelope Viruses can reproduce only by using the cellular (Replication) ٌ machinery of the host, living when inside living cell, non living outside

70. viroids generally cause plant diseases prion -mad cow disease in cattle -Kuru & - Creutzfeldt-Jakob in man