TY  - BOOK
AU  - Aneja, K R
TI  - Experiments in microbiology, plant pathology and biotechnology
SN  - 9788122414943
PY  - 2012///
CY  - New Delhi
PB  - New Age International Pvt. Ltd.
KW  - Molecular Biology
KW  - Plant Pathology
N1  - SECTION 1 Scope and Historical Development of Microbiology
• Introduction
• Scope of Microbiology
• History of Microbiology—Milestones of Progress
• The Discovery Era
• Transition Period
• Golden Age of Microbiology (1857-1911)
• Fermentation
• The Germ Theory of Disease
• Immunization
• Chemotherapy and Wonder Drugs
• Microbiology in the 20th Century: Era of Molecular Biology
• Nobel Prize Awards for Research Involving Microbiology (1901-2016)
• Taxonomy and Nomenclature of Living Organisms
• Classification of Bacteria

SECTION 2 Laboratory Rules, Tools, Equipment and Other Requirements in Microbiology and Biotechnology Laboratories
• Laboratory Rules
• Equipment Requirements in Microbiology and Biotechnology
• Bunsen Burner
• Laminar Flow Hood
• Inoculation Chamber/Sterile Chamber
• Autoclave
• Pressure Cooker
• Oven
• Microbiological Incubator
• BOD Incubator
• Fermenter (Bioreactor)
• Constant Temperature Water Bath
• Shaking-water Bath
• Hot Plate Stirrer
• Quebec Colony Counter
• Refrigerator (Fridge)
• Deep-Fridge (Deep Freezer)
• Centrifuge
• Spectrophotometer
• pH Meter
• Photomicrographic Camera
• Agar Slants
• Agar Deep Tubes
• Agar Plates
• Pipette
• Inoculating Loops and Inoculating Needles
• Throat Swab
• Ocular Micrometer
• Stage Micrometer

SECTION 3 Microscopy
• Introduction
Experiment 1 The components, use and care of the bright-field compound microscope
Experiment 2 Use and care of the dissecting microscope

SECTION 4 Micrometry
Introduction
Experiment 3 Calibration of an ocular micrometer for different objectives (low-power, high-power and oil-immersion) of a microscope
Experiment 4 Measurement of microorganisms by the use of an-ocular micrometer

SECTION 5 Counting of Cells/Spores of Microorganisms
• Introduction
Experiment 5 Measurement of cells concentration of bacteria or fungal conidia by the use of a counting chamber.
Experiment 6 Enumeration (counting) of bacteria by plate count or serial dilution agar plate technique
Experiment 7 Counting of bacterial population by the use of spectrophotometer

SECTION 6 Microscopic Examination of Living Microorganisms
Introduction
Experiment 8 Temporary wet mount (TWM) technique for observation of living microorganisms
Experiment 9 Hanging drop technique for demonstrating motility of bacteria
Experiment 10 Microscopic examination of free-living protozoa of a pond
Experiment 11 Microscopic examination of parasitic protozoa
Experiment 12 Demonstration of bacterial lysis by bacteriophages
Experiment 13 Slide culture technique for studying morphology of molds
Experiment 14 Cover slip culture technique for preparing permanent fungus mounts
Experiment 15 Scotch tape preparation for studying morphology of fungi

SECTION 7 Preparation of Bacterial and Blood Smear
Introduction
Experiment 16 Preparation of a bacterial smear
Experiment 17 Preparation of a blood smear and differential blood count

SECTION 8 Staining Methods
Introduction
Experiment 18 Simple staining of bacteria
Experiment 19 Negative staining of bacteria
Experiment 20 Gram staining of bacteria
Experiment 21 Acid-fast staining of bacteria
Experiment 22 Bacterial cell wall staining
Experiment 23 Cytoplasmic membrane staining
Experiment 24 Bacterial spore (endospore) staining
Experiment 25 Capsule staining
Expt. 25.1 Capsule staining by negative staining technique
Expt. 25.1I Capsule staining by Anthony staining method
Experiment 26 Flagella staining
Experiment 27 Staining of nuclear material of bacteria
Experiment 28 Viability staining technique for bacteria
Experiment 29 Lactophenol cotton blue mounting of fungi.
Experiment 30 Nuclear staining in filamentous fungi
Experiment 31 Staining of actinomycetes
Experiment 32 Staining of spirochetes by Fontana’s method
Experiment 33 Staining of mycoplasmas (PPLO)
Experiment 34 Staining of vesicular arbuscular mycorrhizae (VAM)

SECTION 9 Control of Microorganisms
Introduction
Experiment 35 Physical agents of control: Moist heat
Experiment 36 Physical agents of control: Dry heat (hot air)
Experiment 37 Physical methods of control: Ultraviolet radiations
Experiment 38 Mechanical removal methods: Sterilization by filtration
Experiment 39 Chemical agents of control: Evaluation of antiseptics by filter paper disk method
Experiment 40 Chemical agents 136 of control: Evaluation of alcohol effectiveness as a skin antiseptic
Experiment 41 Chemical agents 139 of control: Evaluation of disinfectants (phenol coefficient)

SECTION 10 Preparation of Culture Media
• Introduction
Experiment 42 Preparation of basic liquid media (broth) for the routine cultivation of bacteria
Experiment 43 Preparation of basic solid media, agar slants and agar deep tubes for the routine cultivation of microorganisms
Experiment 44 Demonstration of selective and differential media

SECTION 11 Cultivation Techniques for Isolation and Enumeration of Microorganisms
• Introduction
Experiment 45 Isolation and enumeration of microorganisms from soil by the serial dilution-agar plating method (or viable plate count method)
Experiment 46 Isolation of fungi by Warcup method
Experiment 47 Isolation of vesicular-arbuscular mycorrhizal (VAM) spores from soil
Experiment 48 Isolation of Azotobacter from soil
Experiment 49 Isolation of algae from soil
Experiment 50 Isolation of protozoa from soil
Experiment 51 Isolation of microorganisms from air
Experiment 52 Effect of dusting and sweeping on the indoors microbial population of a laboratory
Experiment 53 Isolation of microorganisms from rhizosphere
Experiment 54 Isolation of microorganisms from phyllosphere (phylloplane)
Expt. 54.1 Study of phylloplane microflora by serial dilution plate method
Expt. 54.11 Study of phylloplane microflora by leaf impression method
Experiment 55 Isolation of rhizobia from root nodules
Experiment 56 Isolation of cyanobacteria (blue green algae) from paddy fields
Experiment 57 Isolation of aquatic fungi
Expt. 57.1 Isolation of aquatic fungi by baiting in the laboratory
Expt. 57.II Isolation of aquatic fungi by baiting in the field
Experiment 58 Isolation of slime molds
Experiment 59 Isolation of mycoplasmas

SECTION 12 Methods of Obtaining Pure Cultures of Microorganisms
• Introduction
Experiment 60 Streak-plate method
Experiment 61 Pour-plate method
Experiment 62 Spread-plate technique
Experiment 63 Subculturing (or picking off) technique
Experiment 64 Broth cultures
Experiment 65 Cultivation of anaerobes
Expt. 65.1 Shake-culture method for culturing anaerobic microorganisms
Expt. 65.11 Pyrogallic acid-sodium hydroxide method for culturing anaerobic microorganisms

SECTION 13 Maintenance of Pure Cultures
• Introduction
Experiment 66 Paraffin method
Experiment 67 Freeze-drying (lyophilization) method
Experiment 68 Maintenance (storage) of mold cultures on distilled water
Experiment 69 Control of mites in fungal cultures by fumigation

SECTION 14 Measurement of Growth and Enumeration of Microorganisms and Factors Influencing Growth
• Introduction
Experiment 70 Measurement of fungal growth by linear determination
Experiment 71 Measurement of fungal growth by mycelial weight determination
Experiment 72.1 Determination of population growth by turbidometry (spectrophotometric method)
Experiment 72.1] Determination of population growth curve in bacteria by viable plate count
Experiment 73 Determination of algal growth
Experiment 74 Effect of temperature
Expt. 74.1 Effect of incubation temperature on microbial growth
Expt. 74.11 Determination of thermal death point (TDP)
Expt. 74.01 Determination of thermal death time (TDT)
Experiment 75 Effect of pH
Experiment 76 Effect of relative humidity
Experiment 77 Effect of molecular oxygen (air)
Experiment 78 Effect of Osmotic pressure
Experiment 79 Effect of salt concentration
Experiment 80 Effect of metals
Experiment 81 Effect of dyes
Experiment 82 Effect of different wavelengths of light
Experiment 83 Effect of light on growth and sporulation of fungi
Experiment 84 Lethal effects of ultraviolet radiations (UV rays)

SECTION 15 Biochemical Activities of Microorganisms
• Introduction
Experiment 85 Amylase production test (or demonstration of starch hydrolysis)
Experiment 86 Cellulase production test (degradation of cellulose)
Experiment 87 Production of pectolytic enzymes (degradation of pectin)
Experiment 88 Hydrolysis of gelatin, a protein (production of gelatinase)
Experiment 89 Casein hydrolysis
Experiment 90 Urease test
Experiment 91 Hydrogen sulfide production test
Experiment 92 Carbohydrate catabolism by microorganisms (oxidation and fermentation of glucose)
Experiment 93 Fermentation of carbohydrates
Experiment 94 Microbial reactions in litmus milk
Experiment 95 IMViC tests
Expt. 95.1 Indole production test
Expt. 95.11 Methyl-Red and Voges-Proskauer tests
Expt. 95.11 Citrate utilization test
Experiment 96 Catalase test

SECTION 16 Identification of an Unknown Microorganism (Bacterium, Mold, Protozoan)
• Introduction
Experiment 97 Identification of an unknown bacterial culture
Experiment 98 Identification of an unknown fungus: Mold
Experiment 99 Identification of an unknown protozoan

SECTION 17 Medical Microbiology and Immunology
• Introduction
Collection and handling of specimens for microbiological examination
Experiment 100 Normal bacterial flora of the skin
Expt. 100.1 Demonstration of bacterial flora of skin
Expt. 100.11 Testing of antibacterial activity of skin
Experiment 101 Pathogenic fungal flora of skin
Expt. 101.1 Direct examination of dermatophytes
236 Expt. 101.11 Isolation and identification of dermatophytes
Experiment 102 Microorganisms of wounds
Experiment 103 Normal flora of oral cavity
Expt. 103.1 Study of normal flora of mouth
Expt. 103.11 Study of normal flora of the teeth crevices
Experiment 104 Determination of dental caries susceptibility
Experiment 105 Microorganisms of upper respiratory tract-I (throat)
Experiment 106 Microorganisms of upper respiratory tract-I] (nasopharynx)
Experiment 107 Microorganisms of respiratory tract-III (examination of sputum)
Experiment 108 Examination of sputum for tuberculosis
Experiment 109 Microorganisms of gastrointestinal tract
Expt. 109.1 Primary isolation of enteric pathogens—Salmonella and Shigella
Expt. 109.11 Preliminary identification of enteric pathogens, triple Sugar iron agar medium
Experiment 110 Microorganisms of urinary tract (urine)
Expt. 110.1 Estimation of urine bacteria by calibrated loop direct streak method
Expt. 110.1 Estimation of urine bacteria by pour-plate (dilution) method
Expt. 110.11] Examination of bacteria by urine dip-slide
Experiment 111 Microorganisms of genital tract (normal and pathogenic)
Expt. 111.1 Examination of direct smears for gonococci
Expt. 111.11 Isolation and identification of gonococcus from vaginal and anorectal specimens
Experiment 112 VDRL and RPR serological tests for syphilis
Expt. 112.1 VDRL test for syphilis
Expt. 112.1. RPR card test for syphilis
Experiment 113 Estimation of hemoglobin (Hb) by Sahli’s hemoglobinometer
Experiment 114 Blood group determination: Slide agglutination
Experiment 115 Rh factor determination
Experiment 116 Slide-agglutination test for serotyping pathogens
Experiment 117 Tube agglutination test: The Widal test

SECTION 18 Water Microbiology
• Introduction
Experiment 118 Determination of total dissolved solids of water
Experiment 119 Determination of dissolved oxygen (DO) of water
Experiment 120 Determination of biochemical oxygen demand (BOD) of water
Experiment 121 Determination of chemical oxygen demand (COD) of water
Experiment 122 Determination of total bacterial population by standard plate count technique
Experiment 123 Sanitary analysis of water by multiple-tube fermentation test (or multiple-tube test)
Expt. 123.1 Presumptive coliforms test
Expt. 123.II Confirmed coliforms test
Expt. 123.111 Completed coliforms test
Experiment 124 Detection of coliforms to determine water purity using membrane filter method

SECTION 19 Food, Dairy, Industrial and Agricultural Microbiology
• Introduction
Experiment 125 Detection of arsenic by microbiological methods
Experiment 126 Bioassay of nicotinic acid
Experiment 127 Detection of number of bacteria in milk by SPC
Experiment 128 Detection of number of bacteria in milk by breed count
Experiment 129 Determination of quality of raw milk by methylene blue reduction test
Experiment 130 Microbiological examination of food
Experiment 131 Production of alcohol from grape juice
Experiment 132 Role of yeasts in bread-making
Experiment 133 Isolation of antibiotic-producing microorganisms from soil
Experiment 134 Antibiotic production and testing of its antimicrobial activity
Expt. 134.1 Production of penicillin in the laboratory
Expt. 134.II Antibiotic sensitivity test by Kirby-Bauer method
Experiment 135 Testing of nodulation ability by rhizobia
Experiment 136 Seed inoculation with rhizobia
Experiment 137 Production of wine from grapes
Experiment 138 Isolation of lipolytic microorganisms from butter
Experiment 139 Lipase production test (or demonstration of lipid or fat hydrolysis by microbes)
Experiment 140 Production of sauerkraut by lactic acid bacteria

SECTION 20 Bacterial Genetics
• Introduction
Experiment 141 Isolation of antibiotic-resistant bacterial population by gradient—plate method
Experiment 142 Isolation of streptomycin-resistant mutants by replica plating technique
Experiment 143 Demonstration of genetic recombination in bacteria by conjugation
Experiment 144 Isolation of plasmids from bacteria
Experiment 145 UV induced auxotrophic mutants production and isolation of mutants by replica plating technique
Experiment 146 The Ames test: for detecting potential carcinogens
Expt. 146.1 The Ames test by plate incorporation method
Expt. 146.11 The Ames test by spot method
Experiment 147 Sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) of proteins

SECTION 21 Plant Pathological Methods
• Introduction
Experiment 148 Isolation of fungal pathogens from plant materials.
Expt. 148.1 Isolation of fungal pathogens from leaves
Expt. 148.11 Isolation of fungal pathogens from stems, fruits and other aerial plant parts
Expt. 148.11 Isolation of fungal plant pathogens from soil
Experiment 149 Isolation of bacterial plant pathogens
Experiment 150 Isolation (purification) of plant viruses
Experiment 151 Proving plant pathogenicity and Koch’s postulates
Expt. 151.1 Demonstration of Koch’s postulates for a bacterial plant pathogen
Expt. 151.11 Demonstration of Koch’s postulates for a fungal plant pathogen
Experiment 152 Cellulases from plant pathogens
Expt. 152.I Extraction of cellulase from a plant pathogen (in vitro)
Expt. 152.II Extraction of cellulase enzyme from diseased plants (in vivo)
Expt. 152.III Measurement of CMCase or β (1-4) glucanases (or Cx) by viscometric method
Expt. 152.IV Measurement of endoglucanase or carboxymethyl cellulase by reducing sugars determination
Experiment 153 Pectinases or pectolytic enzymes from plant pathogens
Expt. 153.1 Extraction of pectolytic enzymes from diseased plants (in vivo)
Expt. 153.11 Extraction of pectolytic enzymes from a plant pathogen (in vitro)
Expt. 153.111 Assaying of polygalacturonase
Expt. 153.1V Assaying of pectin transeliminases (PTE, PATE)
Experiment 154 Screening for antagonism by dual culture method

SECTION 22 Plant Tissue Culture
• Introduction
• Equipment and other requirements in a tissue culture laboratory
• Steps generally followed in tissue culture technique.
Experiment 155 Sterilization of plant materials
Experiment 156 Preparation of tissue culture media
Experiment 157 Plant cell culture techniques
Expt. 157.1 Isolation of single cells from intact plant organs
Expt. 157.11 Single cell culture by Bergmann’s cell plating technique
Experiment 158 Plant regeneration from callus or plant tissue
Experiment 159 Isolation and culture of plant protoplasts
Experiment 160 Protoplast fusion (somatic cell hybridization)
Experiment 161 Production of pathogen-free plants through meristem culture

SECTION 23 Mushroom Production Technology
• Introduction
• What are mushrooms?
• Food value of edible mushrooms
• Cultivated edible mushrooms.
• Poisonous mushrooms
• Diseases of mushrooms
• Cultivation of mushrooms
Experiment 162 Spawn production for white 488 button mushroom (Agaricus bisporus)
Experiment 163 Commercial cultivation 489 of white button mushroom
Experiment 164 Cultivation of paddy 493 straw mushroom (Volvariella volvacea)
Experiment 165 Cultivation of Oyster mushroom (Pleurotus spp.)

APPENDICES
Appendix A-I. 506-576 Classification of Prokaryotes According to Bergey's Manual of Systematic Bacteriology, Second edition, 2001-2012 (5 Volumes)
Appendix A-II, Classification of 506 Prokaryotes: According to Bergey’s Manual of Systematic Bacteriology, First Edition, 1984—19g9 52]
Appendix B. World’s major microbial ‘culture collections
Appendix C. Units of Measurement and conversion factors
Appendix D. Atomic numbers and weights of the elements
Appendix E. Preparation of biochemical test reagents
Appendix F, Preparation of indicators
Appendix G Preparation of stains
Appendix H. Preparation of buffers
Appendix I. Culture Media
Appendix J. Identification common bacteria—cultural and biochemical characteristics
Appendix K, Some milestones in biotechnology and recombinant DNA technology

BIBLIOGRAPHY
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