ASRB NET Agricultural Microbiology Exam Study Material/Course

ASRB-NET Exam Pattern

• There Will be One Paper Of 150 Marks Consisting of 150 Objective type Multiple Choice Questions to be Solved In 2 (Two) Hours.
• Each Question Carries One Mark.
• 1/3 Mark Will Be Deducted For Each Wrong Answer
• Exam Will Be Conducted in Both English and Hindi Language.

ASRB NET AGRICULTURAL MICROBIOLOGY SYLLABUS

Unit 1: History of Microbial World

History, development and scope of microbiology, evolution of microbial life. Theory of spontaneous generation. Prokaryotes, archaebacteria and eukaryotes. Techniques used in identification and classification of bacteria. Important groups of prokaryotes -photosynthetic bacteria, blue green algae, chemoautotrophic bacteria, spore forming bacteria, mycoplasma, viruses, bacteriophages and actinomycetes. Heterotrophic bacteria nitrobacteria, nitrogen-fixing bacteria and cyanobacteria, lactic acid bacteria, halophiles, thermophiles acidophiles and methanogens. Structure and classification of viruses, growth of viruses, lytic and lysogenic cycles, plant viruses, viroids.

Unit 2: Microbial Ecology and Physiology

soil, rhizosphere, Principles of microbial ecology, Microbiology of ecosystems phyllosphere, water - fresh and marine, and air. Microbial interactions - symbiosis, synergism, commensalism, parasitism, amensalism, antagonism and predation, adoption of micro-organisms to various ecosystems. Microbial growth curve. Mathematical expression of growth -continuous and batch cultures. Diauxic and aerobic and synchronous growth. Microbial nutrition. Bacterial metabolism anaerobic respiration, electron transport chain, microbial photosynthesis, oxidative and substrate level photo-phosphorylation. Biosynthesis of cell wall, protein breakdown by microbes.

Unit 3: Soil Microbiology

Soil microorganisms: major groups, decomposition of organic matter, soil health. Root exudates and rhizosphere effects. Manipulation of rhizosphere microflora in plant productivity. Microbial biomass. Nitrogen cycle: ammonification, nitrification and denitrification. Biological nitrogen fixation—symbiotic and asymbiotic. Biochemistry and genetics of nitrogen fixation. Microbial transformations of phosphorus, sulphur and minor nutrients. Role of bio-fertilizers in agriculture and forestry. Bioremediation of problem soils, plant growth promoting rhizobacteria and their mode of action. Formation and composition of soil organic matter: fulvic acid and humic acid.

Unit 4: Environmental Microbiology and Basic Microbiological Techniques

Isolation and presentation of different types of microorganisms. Methods of sterilization and disinfection. Microscopy: Optical, phase contrast, fluorescent, dark field and electron. Microbial assay of vitamins, enzymes and antibiotics, Pollution of soil, water and air, Role of microorganisms in pollution, sources of pollution and their impact on environment, of sewage and industrial effluents and their safe disposal, management of solid and liquid organic wastes, composting, biogas, water purification, sewage treatment, water-borne diseases and effluent management.

Unit 5: Microbial Biotechnology

Industrial production of metabolites - organic acids, alcohols, antibiotics. Fermenter batch, feed batch and designs and types. Control of fermentation process continuous. Downstream processing in fermentation industry. Production of single cell proteins and probiotics, hormones, biofertilizers, biopesticides. Phyto-remediation. of raw and processed foods. Fermented food — vinegar, wine sauerkraut, pickles, cheese, yogurt. Food preservation, contamination and spoilage, food-borne illness and intoxication. Food as substrate for micro-organism, microflora of meat, fish, egg, fruits, vegetables, juices, flour, canned foods; bio- degrading microbes, single cell protein for use as food and feed, bioactive food / probiotics.

Unit 6: Microbial Genetics, Genomics and GMOs

Genetic mechanisms in microorganisms, including bacteria, archaea, and viruses; principles of genetic variation, gene expression, and genetic engineering techniques used in microbiology; Basic concepts of genetics: DNA, RNA, and proteins; Types of genetic mutations Mechanisms of genetic variation Methods of detecting and analyzing mutations; Transcription and translation in prokaryotes; Regulation of gene expression; Operon model and other regulatory mechanisms; Horizontal Gene Transfer; Bacteriophages and Genetic Exchange; Plasmids and Mobile Genetic Elements; Genomic Analysis and Bioinformatics; DNA extraction and purification; Polymerase chain reaction (PCR); Gel electrophoresis and DNA sequencing; Transformation and cloning experiments; CRISPR, Gene/Genome editing; Genetically modified microorganisms

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PDF Language : English

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Ans : If you have missed your live class for the day, the recording of the live class will be provided within 0-6 hours after the live session ends.