AC Item No. UNIVERSITY OF MUMBAI Revised Syllabus for T.Y.B.Sc. Program: B.Sc. Course : Microbiology(USMB) (Credit Based Semester and Grading System with effect from the academic year 2016–2017) PREAMBLE With the introduction of Credit Based Semester & Grading System (CBSGS) and continuous evaluation consisting of components of Internal Assessment & External Assessment by the esteemed University from the academic year 2011-12 at F.Y.B.Sc.level,the earlier existing syllabus of F.Y.B.Sc.Microbiology was restructured according to the CBSGS pattern for implementation from 2011-12.Likewise the existing syllabi of S.Y.B.Sc.and T.Y. B.Sc. Microbiology were restructured as per the CBSGS pattern for their implementation from 2012-13 and 2013-14 respectively. The existing syllabi of F.Y.B.Sc.and S.Y.B.Sc. Microbiology were due for revision and for it’s implementation from the academic year 2014-15 and 2015-16 respectively. Now it is the existing syllabus of T.Y.B.Sc. Microbiology which was due for revision as per the CBSGS pattern and for it’s implementation from the academic year 2016-17. Keeping in tune with the revised syllabi of F.Y.B.Sc. and S.Y.B.Sc., the sub-committee has taken utmost care to maintain the continuity in the flow of information of higher level at T.Y.B.Sc.Hence some of the modules of the earlier syllabus of T.Y.B.Sc.have been upgraded with the new modules in order to make the learners aware about the recent developments in various branches of Microbiology (like Microbial Genetics, Molecular Biology, Virology, Medical Microbiology, Immunology, Microbial Biochemistry, Industrial Microbiology, Microbial Biotechnology) with an objective to raise the students awareness in interdisciplinary courses such as Biostatistics, Biophysics, Bioinformatics , Computational Biochemistry, Bioinstrumentation, Nanoscience and Astrobiology. All the 08 courses of theory and practicals (Semester-V & Semester-VI together) are compulsory to the students offering microbiology as a single major subject (6 units pattern of the old course).These courses are :- 1. USMB501and USMB601 2. USMB502 and USMB602 3. USMB503 and USMB603 4. USMB504 and USMB604 However,students opting for double major subject (3 units pattern of old course) shall have following 04 courses of theory and practicals (Semester-V & Semester-VI together) compulsory:- 1. USMB501 and USMB601 2. USMB502 and USMB602 I am thankful to co-conveners and all the members of our sub-committees for their great efforts and for timely submission of the draft syllabus. T. Y. B. Sc. MICROBIOLOGY THEORY SEMESTER-V COURSE CREDITS AND TITLE CODE LECTURES/SEM 2.5 credits USMB501 MICROBIAL GENETICS (60 Lectures) Unit I DNA REPLICATION 15 lectures Unit II MUTATION AND REPAIR 15 lectures HOMOLOGOUS RECOMBINATION &GENETIC 15 lectures Unit III EXCHANGE Unit IV PLASMIDS, TRANSPOSONS & OPERONS 15 lectures USMB502 MEDICAL MICROBIOLOGY & IMMUNOLOGY : 2.5 credits PART-I (60 Lectures) BACTERIAL STRATEGIES FOR EVASION AND 15 Lectures Unit I STUDY OF A FEW DISEASES STUDY OF A FEW DISEASES WITH EMPHASIS ON 15 Lectures CULTURAL CHARACTERISTICS OF THE Unit II AETIOLOGICAL AGENT, PATHOGENESIS, LABORATORY DIAGNOSIS AND PREVENTION. GENERAL IMMUNOLOGY-I 15 Lectures Unit III GENERAL IMMUNOLOGY-II 15 Lectures Unit IV USMB503 MICROBIAL BIOCHEMISTRY : PART- I 2.5 credits (60 Lectures) BIOLOGICAL MEMBRANES & TRANSPORT 15 Lectures Unit I BIOENERGETICS & BIOLUMINESCENCE 15 Lectures Unit II METHODS OF STUDYING METABOLISM 15 Lectures Unit III &CATABOLISM OF CARBOHYDRATES FERMENTATIVE PATHWAY& ANABOLISM OF 15 Lectures Unit IV CARBOHYDRATES USMB504 BIOPROCESS TECHNOLOGY & 2.5 credits ENVIRONMENTAL MICROBIOLOGY. (60 Lectures) Unit I UPSTREAM PROCESSING 15 lectures Unit II FERMENTER EQUIPMENT AND CONTROL: 15 lectures DOWNSTREAM PROCESSING & ENVIRONMENTAL 15 lectures Unit III ASPECTS TRADITIONAL INDUSTRIAL FERMENTATIONS : 15 lectures Unit IV PART-I N.B.- (I) Each theory period shall be of 48 minutes duration.Theory component shall have 240 instructional periods plus 240 notional periods per semester which is equal to 384 learning hours.For theory component the value of One Credit is equal to 38.40 learning hours. (II) Each practical period shall be of 48 minutes duration.Practical component shall have 240 instructional periods plus 60 notional periods per semester which is equal to 240 learning hours.For practical component the value of One Credit is equal to 40 learning hours. T.Y.B.Sc. Microbiology Theory : USMB-501(Microbial Genetics) Learning Objectives: Microbial Genetics isan undergraduate T.Y. B.Sc. Microbiology coursethat deals with both conceptual and practicaltools for generating, processing and understanding biological genetic information. It develops knowledge of the underlying theories of genetics which exhibits a broad understanding of genetic exchange among prokaryotes.It also gives students hands-on competence in fundamental molecular biology theories and laboratory techniques.It gives an overview of recombinant DNA technology and biotechnology applications utilising genetic manipulation.It also provides practical experience of the major analytical techniques used in bioinformatics.It also deals with basic structure and life cycle of different types of viruses and explains different terminologies like cancer, prions, viriods and their mechanism.This course will help students to build on the basic information regarding DNA structure transcription, translation and genetic code that they have gained in S. Y. B.Sc. Learning Outcomes: Students should be able to-  Understand the molecular mechanism involved in DNA replication  Understand how to identify and classify mutations in DNA followed bymechanism of DNA repair  Understand basic concepts of homologous recombination and genetic exchange among prokaryotes  Understand natural plasmids and transposons present in prokaryotes  Understand an account of prokaryotic gene structure and the mechanisms controlling gene expression USMB-501: DETAIL SYLLABUS Course Title Lectures/ Notional Code Semester Periods 2.5 Credits Self USMB501 MICROBIAL GENETICS (60 Study Lectures) (60) UNIT I DNA REPLICATION 15 15 Lectures 1.1. Historical perspective— conservative, dispersive, semi-conservative, Bidirectional and semi- 4 Lectures discontinuous 1.2. Prokaryotic DNA replication – Details of 4 Lectures molecular mechanism involved in Initiation, Elongation nd Termination 4 Lecture 1.3. Enzymes and proteins associated with DNA replication- primase, helicase, topoisomerase, SSB, DNA polymerases, ligases, Ter and Tus proteins 2 Lecture 1.4. Eukaryotic DNA replication-- Molecular details of DNA synthesis, replicating the ends of the chromosomes 1 Lectures 1.5. Rolling circle mode of replication UNIT II 15 Lectures 15 MUTATION AND REPAIR 2.1. Mutation 1 Lectures 2.1.a.Terminology: alleles, homozygous, heterozygous, genotype, phenotype, Somatic mutation, Germline mutation, Gene mutation, Chromosome mutation, phenotypic lag, hotspots and mutator genes 2.1.b. Fluctuation test. 1 Lecture 2.1.c. Types of mutations: Point mutation, reverse mutation, suppressor mutation, frameshift mutation, 1 Lectures conditional lethal mutation, base pair substitution, transition, transversion, missense mutation, nonsense mutation, silent mutation, neutral mutation, pleiotropic mutations. 2.1.d. Causes of mutation: Natural/spontaneous 5 Lectures mutation--replication error, depurination, deamination. Induced mutation: principle and mechanism with illustrative diagrams for – i. Chemical mutagens- base analogues, nitrous acid, hydroxyl amine, intercalating agents and alkylating agents. ii. Physical mutagen iii. Biological mutagen(only examples) 2.1.e. Ames test 1 Lectures 2.1.f. Detection of mutants 1 Lectures 2.2. DNA Repair 5 Lectures a. Mismatch repair, b. Light repair c. Repair of alkylation damage d. Base excision repair e. Nucleotide excision repair f. SOS repair UNIT III 15 Lectures 15 GENETIC EXCHANGE 3.1. Gene transfer mechanisms in bacteria& homologous recombination 4 Lectures 3.1.a. Transformation i. Introduction and History ii. Types of transformation in prokaryotes--Natural transformation in 5 Lectures Streptococcus pneumoniae, Haemophilus influenzae, and Bacillus subtilis iii. Mapping of bacterial genes using transformation. iv. Problems based on transformation. 3.2.b. Conjugation i. Discovery of conjugation in bacteria ii. Properties of F plasmid/Sex factor iii. The conjugation machinery iv. Hfr strains, their formation and mechanism of conjugation v. F’ factor, origin and behavior of F’ strains, Sexduction. vi. Mapping of bacterial genes using conjugation (Wolman and Jacob experiment). vii. Problems based on conjugation 3.3.c.Transduction 3 Lectures i. Introduction and discovery ii. Generalised transduction iii. Use of Generalised transduction for mapping genes iv. Specialised transduction v. Problems based on transduction 3 Lectures 3.4. Recombination in bacteria 3.4.a. General/Homologous recombination i. Molecular mechanism ii. Holliday model of recombination b. Site –specific recombination UNIT IV 15 Lectures 15 PLASMIDS, TRANSPOSONS & OPERONS (REGULATION) 4 Lecture 4.1.Plasmids a. Physical nature b.Detection and isolation of plasmids c. Plasmid incompatibility and Plasmid curing d. Cell to cell transfer of plasmids e. Types of plasmids i. Resistance Plasmids, ii. Plasmids encoding Toxins and other Virulence characteristics iii. col factor iv. Degradative plasmids 4 Lectures 4.2.Transposable Elements in Prokaryotes a. Insertion sequences b. Transposons i. Types ii. Structure and properties iii. Mechanism of transposition iv. Transposon mutagenesis c. Integrons 7 Lectures 4.3. Lac operon and problems on Lac operon Trp operon T. Y. B. Sc. Microbiology Theory: USMB-502 (Medical Microbiology &Immunology: Part-I) Learning objectives: One of the most important areas of microbiology, medical microbiology encompasses the aetiology, transmission, pathogenesis, clinical manifestations, laboratory diagnosis, prophylaxis, and treatment of various diseases that are enlisted in the syllabus. This course will help students to build on the basic information regarding host defence mechanisms that they have gained in S. Y. B.Sc.Immunology is an integral part of Medical Microbiology and this course is designed for T.Y.B.Sc. Microbiology students and it is assumed that the students have achieved a basic understanding of Innate Immunity and Host Defence mechanisms. The course has been designed to help understand the ability of our immune system to defend against invading pathogens in a logical fashion. This includes our innate ability to defend against microorganisms (innate immunity); should this first line of defence fail, how we can fight infections (acquired immunity); if we react excessively, what price we pay (hypersesitivity); and very importantly, how we can prevent pathogens from infecting us (vaccinantion). Learning Outcomes: (Medical Microbiology) Students should be able to-  Give details of the virulence factors and other features of the pathogen  Correlate these virulence factors with the pathogenesis and clinical features of the disease  Comment on the mode of transmission, epidemiology and therefore modes of prophylaxis of these diseases  Given a few key clinical features, identify the likely causative agent.  Comment on the methods of diagnosis of the disease. Learning Outcomes: ( Immunology) Should be able to-  Conceptualize how the innate and adaptive immune responses coordinate to fight invading pathogens  Discuss the role of antigen in initiating the immune response  Correlate the structure & functions of immunoglobulin  Understand the importance of all the other entities involved ie T cells, B cells, NK cells, APCs, Cytokines, MHC, TcR, BcR, Co-receptors, Signalling pathways etc USMB-502: DETAIL SYLLABUS Course Title Lectures/ Notional Code Semester Periods USMB502 MEDICAL MICROBIOLOGY AND 2.5 Self Study IMMUNOLOGY Credits (60) (60 lectures) UNIT I 15 15 BACTERIAL STRATEGIES FOR EVASION AND STUDY OF A FEW DISEASES 1A. Study of virulence mechanisms in bacteria 01 1.1. Identifying bacteria that cause disease 1.2. Genomics and bacterial pathogenicity 01 1.2.1. The clonal nature of bacterial pathogens 1.2.2. Mobile genetic elements 1.2.3. Pathogenicity islands 1.3. Bacterial virulence factors 03 1.3.1. Adherence factors 1.3.2. Invasion of host cells and tissues 1.3.3. Toxins 1.3.3.1. Exotoxins 1.3.3.2. Exotoxins associated with diarrhoeal diseases and food poisoning 1.3.3.3. LPS of gram negative bacteria 1.3.4. Enzymes 1.3.4.1. Tissue degrading enzymes 1.3.4.2. IgA1 proteases 1.3.5. Antiphagocytic factors 1.3.6. Intracellular pathogenicity 1.3.7. Antigenic heterogeneity 1.3.8. The requirement for iron 1.3.9. The role of biofilms 1B. Study of A Few Infectious Diseases of the Respiratory Tract with Emphasis on Cultural 10 Characteristics of the Aetiological Agent, Pathogenesis & clinical features, Laboratory Diagnosis And Prevention 1.1. S. pyogenes infections 1.2. Diphtheria 1.3. Common cold 1.4. Tuberculosis 1.5. Pneumonia caused by K .pneumoniae