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1
School of Biotechnology
4 Years B.Tech. Biotechnology Course Structure
Total Credits - 188
2
YEAR 1
SEMESTER 1
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SMA41101 Engineering Mathematics-I 3-1-0 4
2 Theory SPH41109 Engineering Physics 3-0-0 3
3 Theory ECS41101 Programming and Data Structure 3-0-0 3
4 Theory HEN41117 HSS-I 3-0-0 3
5 Theory HEN41119 HSS-II 3-0-0 3
6 Laboratory SPH41209 Engineering Physics Lab 0-0-3 2
7 Laboratory ECS41201 Data Structure Lab 0-0-3 2
8 Laboratory ECE41201 Engineering Drawing and CAD 0-0-3 2
Total 15-1-9 22
SEMESTER 2
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SMA41102 Engineering Mathematics-II 3-1-0 4
2 Theory HEN41112 HSS – III 3-0-0 3
3 Theory SCY41106 Engineering Chemistry 3-0-0 3
4 Theory EEE41102 Electrical and Electronics Technology 3-0-0 3
5 Theory SBT41108 Life Sciences 3-0-0 3
6 Theory EME41104 Engineering Mechanics 3-0-0 3
7 Laboratory SCY41206 Engineering Chemistry Lab 0-0-3 2
8 Laboratory EEE41202 Electrical and Electronics Technology Lab 0-0-3 2
9 Laboratory EME41204 Engineering Workshop 0-0-3 2
Total 18-1-9 25
HSS-I:
HSS-II:
HSS-III:
Total Credits (First Year): 47
3
YEAR 2
SEMESTER 3
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SBT42101 Biomolecules & Biomass 3-1-0 4
2 Theory SBT42103 Biochemistry, Bioenergetics & Reaction
Kinetics
3-1-0 4
3 Theory SBT42105 Microbiology 3-1-0 4
4 Theory SBT42107 Cell Biology 3-1-0 4
5 Laboratory SBT42201 Biochemistry Lab 0-0-3 2
6 Laboratory SBT42203 Microbiology Lab 0-0-3 2
7 Laboratory SBT42205 Cell Biology Lab 0-0-3 2
Total 12-4-9 22
SEMESTER 4
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SBT42102 Genetics & Biostatistics 3-1-0 4
2 Theory SBT42104 Genomics, Proteomics & Metabolomics 3-1-0 4
3 Theory SBT42106 Biophysical Techniques & Instrumentation 3-1-0 4
4 Theory SBT42108 Bioprocess & Fermentation Technology 3-1-0 4
5 Theory SBT42110 Environmental Science & Energy Resources 3-0-0 3
6 Laboratory SBT42202 Genetics Lab 0-0-3 2
7 Laboratory SBT42204 Biophysical Techniques & Instrumentation
Lab
0-0-3 2
8 Laboratory SBT42206 Bioprocess & Fermentation Technology Lab 0-0-3 2
Total 15-4-9 25
Total Credits (Second Year): 47
4
YEAR 3
SEMESTER 5
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SBT43101 Molecular Biology 3-1-0 4
2 Theory SBT43103 Enzyme Technology 3-1-0 4
3 Theory SBT43105 Bioinformatics 3-1-0 4
4 Theory SBT43107 Energy Engineering & Biofuel 3-1-0 4
5 Theory SBT43109 Nanobiotechnology 3-0-0 3
6 Laboratory SBT43201 Molecular Biology Lab 0-0-3 2
7 Laboratory SBT43203 Enzyme Technology & Clinical Biochemistry
Lab
0-0-3 2
8 Laboratory SBT43205 Bioinformatics Lab 0-0-3 2
Total 15-4-9 25
SEMESTER 6
No. Subject
Type
Subject
Code
Subject Name L-T-P Credit
1 Theory SBT43102 Immunotechnology 3-1-0 4
2 Theory SBT43104 Plant & Forest Biotechnology 3-1-0 4
3 Theory SBT43106 Medical Biotechnology 3-1-0 4
4 Theory SBT43108 Animal & Insect Biotechnology 3-1-0 4
5 Theory SBT43110 Stem Cell Biotechnology 3-0-0 3
6 Laboratory SBT43202 Immunotechnology Lab 0-0-3 2
7 Laboratory SBT43204 Plant Biotechnology Lab 0-0-3 2
8 Laboratory SBT43206 Animal Biotechnology Lab 0-0-3 2
Total 15-4-9 25
Total Credits (Third Year): 50
5
YEAR 4
SEMESTER 7
No. Subject
Type
Subject Code Subject Name L-T-P Credit
1 Theory SBT44101 Food & Beverage Biotechnology 3-1-0 4
2 Theory SBT44103 Environmental Biotechnology 3-1-0 4
3 Theory SBT44105 Protein Engineering 3-0-0 3
4 Elective SBT44107/09/11/13/15 Elective Subject I (Choice Based) 3-0-0 3
5 Laboratory SBT44201 Food & Environmental
Biotechnology Lab
0-0-3 2
6 Laboratory SBT44401 Project Work I 0-0-6 4
7 Laboratory SBT44601 Industrial Training 0-0-0 2
Total 12-2-9 22
ELECTIVE SUBJECT I - SELECT ANY ONE
No. Subject Name L-T-P Credit
1 Biofertilizer (SBT44107) 3-0-0 3
2 Biopesticides (SBT44109) 3-0-0 3
3 Biocatalysis (SBT44111) 3-0-0 3
4 Molecular modeling and drug design (SBT44113) 3-0-0 3
5 Protein-DNA Interaction (SBT44115) 3-0-0 3
SEMESTER 8
No. Subject
Type
Subject Code Subject Name L-T-P Credit
1 Theory SBT44102 Bioethics, Biosafety & IPR 3-0-0 3
2 Theory SBT44104/06/08/10 Elective Subject II (Choice Based) 3-0-0 3
3 Laboratory SBT44402 Project Work II 0-0-12 8
4 Laboratory SBT44502 Report, Seminar & Comprehensive
Viva-Voce on Project Work
0-0-0 8
Total 6-0-12 22
ELECTIVE SUBJECT II - SELECT ANY ONE
No. Subject Name L-T-P Credit
1 Mushroom Culture (SBT44104) 3-0-0 3
2 Soil Profile, Horizon & Conditioning (SBT44106) 3-0-0 3
3 Bioterrorism (SBT44108) 3-0-0 3
4 Biomining (SBT44110) 3-0-0 3
Total Credits (Fourth Year): 44
6
ADAMAS UNIVERSITY
Bachelor of Technology
1ST YEAR
Module 1: Differential Calculus: Su essi e diffe e tiatio , Lei itz’s Theo e , Rolle’s theorem,
Mean value theo e s, Ta lo ’s a d Ma lau i ’s theo e s ith e ai de s, E pa sio s, indeterminate forms, infinite Series, curve tracing, functions of several variables, partial
Differentiation, total diffe e tiatio , Eule ’s theo e a d ge e alizatio , maxima and minima
of fu tio s of se e al a ia les t o a d th ee a ia les , Lag a ge’s ethod of ultiplie s, change of va ia les, Ja o ea ’s, asymptote, curvature.
Module 2: Integral Calculus: Fundamental theorem of integral calculus and mean value theorems;
Evaluation of plane areas, volume and surface area of a solid of revolution and lengths.
Convergence of Improper integrals, Beta and Gamma integrals, Elementary properties,
Differentiation under integral sign, Double and triple integrals, computation of surface areas and
volumes, change of variables in double and triple integrals.
Module 3: Ordinary differential equations of first order: Formation of differential equations;
Separable equations; equations reducible to separable form; exact equations, integrating factors,
linear first order equations; Be oulli’s equation; Orthogonal trajectories.
Module 4: Ordinary linear differential equations of higher order: Homogeneous linear equations of
arbitrary order with constant coefficients, Non-
homogeneous linear equations with constant oeffi ie ts, Eule a d Cau h ’s e uatio s, Method of variation of parameters, System of linear differential equations., modelling of electrical circuit.
Module 5: Se ies solutio of diffe e tial e uatio , po e se ies ethod, Lege d e’s e uatio a d Lege d e’s pol o ials, Bessel’s e uatio , Bessels fu tio a d its appli atio .
Module 1:
Engineering Mathematics -I SMA41101 3-1-0 4 Credits
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 B.S.Grewal : Higher Engineering Mathematics, Khanna Publications
4 C B Gupta, S R Singh, Mukesh Kumar: Engineering Mathematics, Mc Graw Hill Publication.
Engineering Physics SPH41109 3-0-0 3 Credits
7
Interference of Light: I te fe e e due to di isio of a ef o t a d di isio of a plitude, You g’s double slit expt., Interference, Principle of Superposition, Interference from parallel thin films,
wedge shaped films.
Diffraction: Single slit diffraction, Diffraction grating, dispersive power of Grating, resolving power
of prism and grating.
Polarization: Introduction, production of plane polarized light by different methods, Brewster and
Malus Laws. Double refraction, Nicol prism, specific rotation,
Module 2:
Laser: Introduction, temporal and spatial coherence, principle of Laser, stimulated and spontaneous
e issio , Ei stei ’s Coeffi ie ts, He-Ne Laser, Ruby Laser, Application of Lasers.
Fibre Optics: Introduction, numerical aperture, step index and graded index fibres, attenuation &
dispersion mechanism in optical fibers (Qualitative only), application of optical fibres, optical
communication (block diagram only)
Module 3: Electromagnetic Theory (EMT)
Motion of Charged Particles in crossed electric & magnetic fields, Velocity Selector & Magnetic
fo ussi g, Gauss la , o ti uit e uatio , i o siste i A pe e’s La , Ma ell’s e uatio s (differential and integral forms), poynting vector, Poynting Theorem (Statement only), propagation
of plane electromagnetic waves in conducting and non-conducting medium.
Module 4: Mechanics:
Central and non-central forces, Inverse square force, SHM, Damped, undamped and forced
Oscillations (no derivations).
Special theory of Relativity: Frame of reference, basic postulates of special relativity, Lorentz
transformations (space – time coordinates & velocity only), mass energy relation, length
contraction, time dilation.
Module 5: Quantum Mechanics & Statistical Physics:
De-Broglie Hypothesis, wave function and its properties, expectation value, Wave Packet,
Uncertainity principle. Schrodinger Equation for free Particle, Time Dependent Schrodinger
Equation, Particle in a box (1-D), Single step Barrier, Tunnelling effect.
Qualitative Features of Maxwell Bollzman, Bose-Einstein and Fermi-Dirac statistics distribution,
functions & their comparison (no derivation)
8
Module 6: Solid State Physics
Formation of energy bands in metals, semiconductors and insulators; intrinsic and extrinsic
semiconductors, Fermi energy levels for doped, undoped semiconductors and pn junction; Tunnel
diode, Zener diode.
Superconductivity: Meissner Effect, Type I and Type II Superconductors, BCS theory (Qualitative
only), properties of superconductors & applications.
Module7: X-Rays: p odu tio a d p ope ties, C stalli e a d A o phous solids B ief B agg’s La , Applications.
Ultrasonics: Introduction, Production of Ultrasonics (Magentostriction and piezoelectric methods),
engineering applications.
List of Laboratory Experiment of Btech Engineering Physics (Any Ten):
1. Determination of You g’s Modulus of a Bea t a elli g i os ope FLEXURE ethod. 2. Ca Foste ’s Method to Dete i e Resista e of a Gi e Coil. 3. Dete i atio of the Coeffi ie t of is osit of ate Poiseulle’s Capilla Flo ethod. 4. To determine the wavelength of sodiu light fo i g Ne to ’s Ri g. 5. Determination of Rigidity Modulus by dynamical method.
6. Determine the Plank’s constant using photocell.
7. To verify Stefan’s law by electrical method.
8. To study the temperature dependence of reverse saturation current in a junction diode and
hence to determine the Band gap.
9. Determination of specific charge (e/m) of ele t o J.J. Tho so ’s ethod. 10. Determination of the Rydberg constant by studying hydrogen or helium spectrum.
11. Determination of dielectric constant of a given dielectric material.
12. Determination of Hall coefficient of Semiconductor.
13. Study current – voltage characteristic load response of photovoltaic solar cells.
Module 1:
Basics of C Programming :Characters used in C, Identifiers, Keywords, Data type & sizes, Constants
&Variables, Various Operators used such as Arithmetic Operators, Relational & Logical Operators,
Increment & Decrement Operators, Assignment Operators, Conditional or Ternary Operators,
Bitwise Operators & Expressions; Standard Input & Output, formatted input scanf( ), formatted
output printf( ); Flow of Control, if-else, switch-case, Loop Control Statements, for loop, while loop,
do-while loop, nested loop, break, continue, goto, label and exit( ) function
Engineering Physics Lab SPH41209 0-0-3 2 Credits
Programming and Data Structure ECS41101 3-0-0 3 Credits
9
Module 2:
Functions and Pointers: Definition of Function, Declaration or Prototype of Function, Various types
of Functions, Call by Value, Call by Reference, Recursion, Tail Recursion, Definition of Pointer,
Declaration of Pointer, Operators used in Pointer, Pointer Arithmetic, Functions with Pointer
Module 3:
Introduction to Data Structures: Basic Terminology, Elementary Data Organization, Algorithm,
Efficiency of an Algorithm, Time and Space Complexity, Asymptotic notations: Big-Oh, Time-Space
trade-off. Abstract Data Types (ADT)
Arrays and String: Definition, Single and Multidimensional Arrays, Representation of Arrays - Row
Major Order, and Column Major Order, Application of arrays – searching and sorting, Sparse
Matrices and their representations. Definition of a String, Declaration of a String, Initialization of a
String, Various String Handling Functions with example
Structures and Unions: Definition of a Structure, Declaration of a Structure & Structure Variable,
Initialization of a Structure, Operators used in Structure, Structure within Structures, Union,
Difference between a Structure and an Union
Files: Types of File, File Processing, Handling Characters, Handling Integers, Random File Accessing,
Errors During File Processing
Module 4:
Stacks and Queues: ADT Stack, Array Implementation Multiple Stacks, Applications of Stacks –
Conversion from Infix to Postfix, Evaluation of Postfix Expressions, Prefix Notation, etc. ADT queue,
Linear Queue, Circular Queue, Priority Queue, Array Implementations of Queues, Applications of
Queues Operations on Queue: Create, Add, Delete, Full and Empty, Circular queues, Array and
linked implementation of queues in C, Dequeue and Priority Queue.
Module 5:
Linked lists: Array Implementation and Dynamic Implementation of Singly Linked Lists, Doubly
Linked List, Circularly Linked List, Operations on a Linked List. Insertion, Deletion, Traversal,
Polynomial Representation and Addition, Generalized Linked List.
Trees: Basic terminology, Binary Trees, Binary Tree Representation: Array Representation and
Dynamic Representation, Complete Binary Tree, Algebraic Expressions, Extended Binary Trees,
Array and Linked Representation of Binary trees, Tree Traversal algorithms: Inorder, Pre-order and
Postorder, Threaded Binary trees, Traversing Threaded Binary trees, Huffman algorithm.
Module 6:
Graphs: Terminology, Sequential and linked Representations of Graphs: Adjacency Matrices,
Adjacency List, Adjacency Multi list, Graph Traversal : Depth First Search and Breadth First Search,
Connected Component, Spanning Trees, Minimum Cost Spanning Trees: Prims and Kruskal
algorithm. Transistive Closure and Shortest Path algorithm: Warshal Algorithm and Dijikstra
Algorithm, Introduction to Activity Networks.
10
List of Experiments to be covered
1. Familiarization with LINUX commands and vi editor.
2. Programs to demonstrate Decision Making, Branching and Looping, Use of break and continue
statement etc.
3. Implementation involving the use of Arrays with subscript, String operations and pointers.
4. Implementation involving the use Functions and Recursion.
5. Implementation involving the use Structures and Files.
6. Implementation based on Stack Queues and Linked List for example Insertion and Deletion.
For the subject HSS-I (HEN41117) students have to choose from anyone of the offered courses
Level 2 A
Unit-I: Oral Skill I
Interactions in different situations- Formal dialogues- Group interactions
Unit-II: Oral Skill II
Inviting people to a programme- Apologizing and responding to apologies- Congratulations and
response-Showing appreciation- Expressing sympathy, regret or consolation-Asking for, granting and
refusing permission
Text Books:
1 The Co plete Refe e e , th Edition by Herbert Schildt, Tata Mcgraw Hill Education
2 Data St u tu es Usi g C , th Editio Aa o M. Te e au , Yedid ah La gsa a d Moshe J. Augenstein, PHI Learning Private Limited, Delhi India
Reference Books:
1 The C P og a i g La guage , nd Edition, Brian W. Kernighan, Dennis M. Ritchie, PHI
2 S hau 's Outli e of P og a i g ith C , 2nd Edition, Byron S. Gottfried, Mcgraw Hill
Education
3 Data St u tu es a d P og a Desig i C , nd Edition by Robert Kruse, C. L. Tondo, Bruce Leung,
Shashi Mogalla, Pearson Education
Data Structure Lab ECS41201 0-0-3 2 Credits
11
Unit-III: Oral Skill III
Debates and Extempore
Unit-IV: Reading Skill
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication –Report Writing – Memo
writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Applications, Emails and Drafts
Suggested Reading:
1. Spoken and Written Communication. Board of Editors. Orient Blackswan.
2. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private Limited; 2016.
3. P. C. Das. Spoken English and Functional Grammar.
Level 2 B
Unit-I
Short Stories— She lo k Hol es: The Spe kled Ba d
Unit-II
Poetry— Wilf ed O e : St a ge Meeti g ; W H Aude : The U k o Citize
Unit-III
Drama— William Shakespeare: As You Like It
Unit-IV
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication – Letter Writing – Report
Writing – Memo writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Report, Applications, Emails and Drafts
Suggested Reading:
1. Sir Arthur Conan Doyle: Sherlock Holmes and the Adventure of the Speckled Band. Lerner Books.
12
2. W. H. Auden: Collected Poems, Vintage International.
3. The Poems of Wilfred Owen. Wordsworth Poetry Library
4. Spoken and Written Communication. Board of Editors. Orient Blackswan.
5. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private Limited; 2016.
6. William Shakespeare: As You Like It. Arden Edition
Module 1: An attempt to define and identify the contours of Ethics and its relation with Religion,
Aesthetics and Professional Education Human Values including basic five human values (against Satya
(Truth), Dharam (Righteous conduct), Prem (Love), Shanti (Peace), Ahinsa (Non-violence), Ethics &
Morality in Law, General-Lectures by distinguished persons on this subject on regular basis.
Fundamental Duties of citizen. Basic values of the Constitution: Democracy, Republicanism, Rule of law,
Constitutionalism and Respect for Minority Rights.
Module 2: Human Rights – Jurisprudence of human rights nature and definition, Universal protection of
human rights, Regional protection of human rights, National level protection of human rights, Human
Rights and vulnerable groups.
Module 3: Theory and Nature of Political Institutions
Concept of State / Nation
Organs of Government – Legislative, Executive and Judiciary
Separation of Powers – Parliamentary Sovereignty and Judicial Independence
Constitutional Framework of India.
Module 4: Nature and Sources of Law
Legislation – Process, delegated and subordinate legislation
Case law- Stare decises, precedents within the hierarchy of courts
Authoritative Sources, Custom, Law reform
Module 5: Historical Evolution of Indian Legal System
Ancient Indian Law, English Law in India
Administration of Justice in British India
Charter of 1861 and subsequent Charters
Establishment of High Courts and the Federal Courts
Drafting of the Indian Constitution
Ancient Indian Law in Modern Legal Framework
PROFESSIONAL ETHICS, FUNDAMENTAL
DUTIES AND LEGAL STUDIES (HSS – II) HEN41119 3-0-0 3 credits
13
Module 6: Civil and Criminal Courts And Process
The Civil Court Structure, The Criminal Court Structure
The Civil Process, The Criminal process- Investigation and Prosecution
Module 7: Miscellaneous Laws
Growing importance of intellectual property rights and related laws in India
Industrial relations laws
An overview of the Law of Contract
Human resource and related laws
Module 1: Introduction to Engineering Drawing covering, Principles of Engineering Graphics and
their significance, usage of Drawing instruments, lettering, Conic sections including the Rectangular
Hyperbola (General method only); Cycloid, Epicycloid, Hypocycloid and Involute; Scales – Plain,
Diagonal and Vernier Scales;
Module 2: Orthographic Projections covering, Principles of Orthographic Projections Conventions -
Projections of Points and lines inclined to both planes; Projections of planes inclined Planes -
Auxiliary Planes;
Module 3: Projections of Regular Solids covering, those inclined to both the Planes- Auxiliary Views;
Module 4:Sections and Sectional Views of Right Angular Solids covering, Prism, Cylinder, Pyramid,
Cone – Auxiliary Views; Development of surfaces of Right Regular Solids - Prism, Pyramid, Cylinder
and Cone;
Module 5: Isometric Projections covering, Principles of Isometric projection – Isometric Scale,
Isometric Views, Conventions; Isometric Views of lines, Planes, Simple and compound Solids;
Conversion of Isometric Views to Orthographic Views and Vice-versa, Conventions;
Engineering Drawing and CAD ECE41201 0-0-3 2 Credits
Text Books:
1 Bhat, N.D.& M. Panchal (2008), Engineering Drawing, Charotar Publishing House
2 Shah, M.B. & B.C. Rana (2008), Engineering Drawing and Computer Graphics, Pearson Education
14
Module 1: Linear Algebra: Elementary row and column operations on a matrix; Rank of matrix ,
Normal form, Inverse of a matrix using elementary operations, Consistency and solutions of systems
of linear equations using elementary operations, Gauss Elimination method, Caley-
Hamillton theorem, eigen values and eigen vectors, Symmetric and skew-symmetric matrices,
orthogonal matrices, complex matrices, Hermitian and skew-Hermitian matrices, unitary matrices
and similarity of matrices, Unitary matrix, Normal matrix, Algebraic and geometric multiplicity,
Diagonalization, spectral theorem for Real symmetric matrices, Application of quadratic forms.
Module 2: Vector space and Linear transformations: Definition of vector space, subspaces, linear
combination, Linearly dependent and linearly independent vectors, Basis of vector space,
Dimension, Rank-Nullity theorem (statement and verification by examples), Definition of linear
transformation, types of linear transformations (Rotation, Reflection, Expansion, Contraction,
Projection), Matrix of Linear transformations, Change of basis and similarity.
Module 3: Functions Of Complex Variables: Reorientation, Analytic function, Cauchy – Riemann
equation (Cartesian and Polar forms), Harmonic functions, conformal mappings, complex
i teg atio , Cau h ’s theo e a d i teg al fo ula, Si gula ities, Ta lo ’s a d Lau e t’s Se ies theorem, evaluation of integrals using residues.
Module4 Partial Differential Equation: Introduction, classification, construction and geometrical
interpretation of first order partial differential equations (PDE), method of characteristic and
general solution of first order PDE, canonical form of first order PDE, equations solvable by direct
i teg atio , La g a ge’s ethod, solution of non-linear first order partial differential equation by
Cha pit’s ethod, spe ial t pes of fi st o de PDE, solutio satisf i g gi e o ditio s, Ja o i’s method.
3 Dhawan, R.K. (2007), A Text Book of Engineering Drawing, S. Chand Publications
4 Narayana, K.L. & P Kannaiah (2008), Text book on Engineering Drawing, Scitech Publishers
Engineering Mathematics -II SMA41102 3-1-0 4 Credits
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 David C. Lay, Linear algebra and its application, (Latest edition), Pearson publication, New Delhi.
4 E. Kreyszig, Advanced engineering mathematics (Latest edition), John Wiley.
5 H. Anton, Elementary linear algebra with applications (Latest edition), John Wiley.
6 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
15
Level 3 A/B
Unit-I
Introduction to Communication – Communication Model –Types of Communications – Barriers to
Communication – Effective means of communication
Unit-II
Reading Skills – Importance of Reading – Types of Reading – Effective reading skills
Unit-III
Listening Skills – Importance of Listening – Types of Listening – Barriers to Listening
Unit-IV (Oral Skill I)
Presentation Skills – Different types of Presentation skills – Non verbal Communications –– Use of Visual
aids
Unit-V (Oral Skill II)
Group Discussion, Business Dialogues and Interaction
Unit-IV (Oral Skill III)
Mock Interviews
Suggested Reading:
1. Business Communication Today. Bovee, Thill, Schwatzman, Pearson Education.
2. Spoken and Written Communication. Board of Editors. Orient Blackswan.
3. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private Limited; 2016.
4. P. C. Das. Spoken English and Functional Grammar.
5. Sangeeta Sharma and Binod Mishra. Communication skills for Engineers and Scientists. Prentice Hall
India Learning Private Limited, 2009.
Module 1:
Thermodynamics: Zeroth law, definition of temperature, 1st law, concept of enthalpy, specific heat
of gases, 2nd law and definition of entropy, free energy, chemical potential, spontaneity criteria of
chemical reaction
Module 2:
HSS - III HEN41112 3-0-0 3 Credits
Engineering Chemistry SCY41106 3-0-0 3 Credits
16
Reaction Kinetics, Catalysis & Electrochemistry: Differential and integrated rate laws, order and
molecularity of reactions, rate determining step, zero order, 1st order & 2nd order reaction,
Arrhenius equation, theories of reaction rates, theories of catalysis, electrode potential, redox
reaction, Nernst Equation.
Module 3:
Solid State and Molecular Spectroscopy:. Unit cells, Bravias lattice, packing fraction of SCC, BCC and
FCC, Van der waals bonding, hydrogen bonding, band theory, conductors, semiconductors and
insulators. Basic concepts of spectroscopy, selection rule, fundamentals of IR, UV-Vis, NMR
spectroscopy
Module 4:
Co-Ordination Chemistry: T a sitio ele e ts, o ept of o ple , Wa e ’s o-ordination theory,
structure of co-ordination compounds, co-ordination number, types of ligands, isomerism:
geometrical, optical, ionization, linkage & co-ordination isomerism, Theories of bonding in co-
ordination compounds :crystal field theory
Module 5:
Reactivity of Organic Molecules, Different Types of Organic Reactions and Stereochemistry:
Inductive effect, hyper conjugation, resonance, carbocation, carbanion & free radicals, substitution
reactions, addition reactions, elimination reactions, and their mechanisms. Introduction to
stereochemistry, stereochemical nomenclature & terminology (chiral carbons, allenes, biphenyls,
etc.) and nomenclature (R/S, E/Z, D/L, d/l). Identification of stereo chemical relationship
(enantiomers, diastereomers, epimers, etc.).
Module 6:
Polymers& Fuel Chemistry: Polymerization, addition and condensation polymerization, and their
mechanism, classification of plastics, synthesis, properties & industrial applications of PVC, teflon,
polyester and phenolic resin, conducting polymers & biopolymers. Solid Fuel: Coal, Different types
of coal, coal analysis. Liquid fuel: petroleum, classification of petroleum, Thermal cracking and
reforming, octane number, cetane number, bio-diesel, aviation Fuel. Gaseous fuels: natural,
producer, water and bio gas.
Text Books:
1 P. W. Atkins, Physical Chemistry, ELBS/Oxford, 7th Edition, 1995
2 G.W.Castellan, Physical Chemistry
3 D. A. McQuarrie and J.D. Simon, Physical Chemistry - a molecular approach, Viva Books Pvt. Ltd.
(1998)
4 P. C. Rakshit, Physical Chemistry, Sarat Book House (7thEdition)
5 Cotton, F A,Wikinson G. and Gaus, P L,Basic Inorganic Chemistry
6 J. D. Lee, Concise Inorganic Chemistry, 4th Edition, ELBS, 1991
17
List of experiments (Any 8 Experiments)
1. Determination of total hardness of water by complexometric titration method
2. Determination of carbonate and bicarbonate in water
3. Estimation of iron by permanganometry
4. Estimation of ferrous ion in Mohr salt
5. Dissolved oxygen by Winkler's method
6. Measurement of the coefficient of viscosity
7. Measurement of the surface tension
8. Kinetics of ester hydrolysis
9. pH metric titration
10. Conductometric titration
11. Determination of standard EMF of a Daniel Cell
12. Verification of Beer Lambert's law
13. Partition coefficient of iodine
14. Identification of organic Compounds using melting point
15. Solubility, functional group test of organic compounds
Module 1: Introduction to Electrical Engineering
Sources of energy; General structure of electrical power systems; Steam power generation; Hydel
power generation; Gas and Nuclear power generation; Power Transmission and Distribution;
overhead lines; underground cables; Transformers; Basic Principle and operation
Module 2: DC Networks
Ki hoff’s la s; ode oltage ethod; esh u e t ethod; Delta-star and star-delta conversion;
Net o k theo e s; Supe positio p i iple; The e i ’s theo e ; No to ’s theo e
Module 3: AC Circuits
Definitions: average and effective values of Sinusoids; Solution of R,L,C series circuits; Significance
7 I.L. Finar,Organic Chemistry,Vol – I & II, Pearson Education
8 Morrison & Boyd, Organic Chemistry
9 P. Sykes, Mechanism in Organic Chemistry, Orient Longman
10 Joel R. Fried, Polymer Science and Technology, Pearson Education (2ndEdition)
11 S. Sarkar, Fuels and Combustion, Taylor & Francis (3rdEdition), 2009
12 Kuriacose& Raja Ram ,Chemistry in Engineering and Technology, Vol.1 & 2 by, Tata McGraw Hill
& Co
Engineering Chemistry Lab SCY41206 0-0-3 2 Credits
Electrical and Electronics
Technology EEE41102 3-0-0 3 Credits
18
of j operator; complex representation of impedances; Phasor diagram; power factor, power in
complex notation; solution of parallel and series – parallel Circuits; Three phase EMF generation;
delta and Y – connections; line and phase quantities
Module 4: Basics of Semi-Conductors and PN Junction
Introduction; Carrier Concentrations- the Fermi Level; Electron and Hole Concentration at
Equilibrium; Temperature Dependence of Carrier Concentration; Drift and diffusion current; The
Hall Effect; Optical Absorption, Luminescence; PN Junction Diode in Equilibrium Conditions; PN
Junction Diode in Forward Biased and Reverse Biased Condition; Breakdown in PN Junction Diodes.
Module 5: Bipolar Junction Transistors
I t odu tio , T pes: NPN a d PNP; Cu e t Co po e ts; Ea l Effe t E e ’s Moll Model; Different Configurations of a Transistor and its Characteristics; Transistor as an Amplifier (CE, CB,
CC); Transistor as a Switch
Module 6: Field Effect Transistors
Introduction; JFET and MOSFET; Realization of digital logic circuit using MOSFET (AND, OR, NOT
etc.); Realization of switching circuits using MOSFET
Module 7: Electronics Instruments & Digital Electronics Fundamental:
Signal generator, Mustimeter, operation of CRO and its application. Number systems, Conversions
and codes, Logic gates and truth tables.
List of experiments (Electronics Part):
1. Familiarization of bread board and electronics elements such as R, L, C, diode, and BJT etc.
Text Books:
1 Basic Electrical Engineering-Abhijit Chakrabarti, SudipNath, Chandan Kumar Chnada, Tata
McGraw-Hill publishing Limited, New Delhi
2 Principles of Electrical Engineering and Electronics- V K Mehta, Rohit Mehta , S Chand and
Company , New Delhi
3 Solid State Electronic Devices- Ben G. Streetman and Sanjay Kumar Banerjee, PHI.
Reference Books:
1 Basic Electrical Engineering-D P Kothari, I J Nagrath, Tata Mcgraw-Hill Publishing Company, New
Delhi
2 Integrated Electronics: Analog & Digital Circuit Systems – Jacob Millman & Halkias, TMH
3 Digital Principles & Applications, 8th Edition by Donald P Leach, Albert Paul Malvino, Goutam
Saha (Tata Mcgraw Hill Publishing Co Ltd, 2014)
Electrical and Electronics
Technology EEE41202 0-0-3 2 Credits
19
2. Familiarization of Function generator and measuring instruments such as CRO and mustimeter.
3. Study the V-I characteristic of PN junction diode and find knee voltage.
4. Study the input and output characteristic of bipolar junction transistor (BJT):
(a) Common emitter (CE) configuration
5. Study the transfer and drain characteristic of junction field-effect transistor (JFET),hence
determine the drain resistance, transconductance factor, amplification factor.
6. Study the transfer and drain characteristic of MOSFET,hence determine the drain resistance,
transconductance factor, amplification factor.
7. Realization of digital logic circuit using MOSFET (AND, OR, NOT etc.).
THEORY SBT41108 Life Sciences L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Cell biology & Communication: Structure, function, and synthesis of cellular membranes and
organelles; cell growth and cancer; cytoskeleton and extracellular matrix; cell cycle; transport,
receptors, and cell signaling; functions of specialized cell types.
2 Genetics & Systems Biology: Genetic switches and oscillators, cell-to-cell interactions, cellular
and genetic networks, and evolutionary dynamics.
3 Genomics, Proteomics & Bioinformatics: Genomics- structural, functional and comparative
genomics; Human genome project. Proteomics- What is proteome, nature of proteome,
protein synthesis, overview of the tools to study proteome. Applications of Bioinformatics;
Database, tools and their uses; Types and classification of databases. Sequence alignment;
phylogeny; function prediction; modeling; protein-ligand docking; drug discovery.
4 Transport & Flow in Biological Systems: Diffusion, osmosis, facilitated, and active transport;
Heat Conduction and Radiation; Fluid Dynamics; Heat and Mass Transfer. Electromechanical
and physicochemical interactions in cells and biomaterials.
5 Human Physiology & Diseases: Anatomical, physiological and pathological features of the
cardiovascular, respiratory and renal systems. Identifications of deficiencies and diseases from
blood, urine and feces; genetic disorders and gene therapy.
6 Neurophysiology: Neuron structure and function; Regeneration of nerve; flow and transport
of signals from one neuron to other; Nervous system; Aging and its effect on brain; Behavioral
functions of the brain - emotion, memory, learning and consciousness; Disorders of the
nervous system and treatment.
7 Medical Biotechnology: Understanding the handling and usefulness of electrocardiograms,
ultrasound images, X-ray images, magnetic resonance images (MRI), computerized
tomography (CT) or computerized axial tomography (CAT) images, glucose sensors, and other
biosensors.
BOOKS BOOK DETAILS
1 Biology for Engineers by Arthur T. Johnson. CRC Press, 1 edition, 2010.
2 New Biology for Engineers and Computer Scientists by Aydin Tozeren and Stephen W. Byers.
Pearson, 1 edition, 2003.
3 Applied Cell and Molecular Biology for Engineers by Gabi Nindl Waite and Lee R. Waite.
McGraw-Hill Education, 1 edition, 2007.
20
Module 1 - Introduction to Statics
Concept of particle and Rigid body, Vector, Introduction to Vector Algebra, Addition and subtraction
of Vectors and diffe e t la s, La i’s theo e , F ee Ve to , Bou d Ve to , Rep ese tatio of Vectors in terms of I, j and k, Cross product and Dot product and their application, scalar.
Module 2 - Force System
Introduction, Force, Two-Dimensional Force system, Resolution of Force, Moment, Couple,
Va ig o ’s Theo e , Resulta t of Fo es.
Module 3 – Equilibrium
Introduction, Equilibrium in Two-Dimension, Free body Concept and Diagram, Equation of
Equilibrium.
Module 4 - Distributed Force
Introduction, Center of Mass and Centroid, Centroid of Mass, Centroid of Line and Area (Triangle,
Circular section, Quadrilateral, Composite Area etc.).
Module 5 – Friction
Introduction, Concept of Friction, Law of Coulomb Friction, Angle of Repose, Coefficient of Friction,
Application of Friction in Machines.
Module 6 - Moment of Inertia
Mass Moment of Inertia of Symmetrical bodies, Area Moment of Inertia, Introduction, M.I of Plane
figures w.r.t an axis on its plane, M.I of plane figures w.r.t an axis perpendicular to its plane, Parallel
axis theorem.
Module 7 – Virtual Work
Introduction of Virtual work, Principal of Virtual work, Application of Principal of Virtual work.
Text Book(s)
T1 Engineering Mechanics [Vol-I & II] by Meriam & Kraige, 5th ed. – Wiley India
T2 Engineering Mechanics by S.S. Bhavikatti and K.G. Rajashekarappa – New Age International
T3 Mechanics of Solids by Crandall,Dahl and Sivakumar-MC Graw Hill ,5th Edition 2015,New Delhi
T4 Manufacturing technology, Foundry, Forming & Welding-P.N Rao.
Engineering Mechanics EME41104 3-0-0 3 Credits
21
T5 Manufacturing Science-A Ghosh & A Mullick
Reference Book(s) & other resources
R1 Engineering Mechanics: Statics & Dynamics by I.H.Shames, 4th ed. – PHI
R2 Engineering Mechanics by Timoshenko , Young and Rao, Revised 4th ed. – TMH
1. Pattern Making; pattern material, pattern allowances and types of patterns;
2. Mould making Practice:
3. Uses of moulding tools: green sand moulding, gating system, risering system, core making;
Making a product using sheet metal;
4. Basic Forging processes like upsetting, drawing down and forge welding; Practicing Resistance
Spot Welding, Arc Welding and Gas Welding;
5. Machining of products involving lathe (operations: Straight Turning, Taper Turning, Chamfering,
Grooving and Thread cutting), milling/shaping operations and finishing process(es).
ADAMAS UNIVERSITY
DETAILED COURSE STRUCTURE
B.TECH. BIOTECHNOLOGY
SEMESTER 3
SEM 3 THEORY 1 BBT42101 Biomolecules & Biomass L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Water, pH & buffer: Cellular and chemical foundations of life. Unique properties, weak
interactions in aqueous systems, ionization of water, buffers; water as a reactant and fitness
of the aqueous environment. pH - definition, effect of pH in enzyme catalyzed reaction. Acids,
bases and buffers in biological system; Arrhenius, Bronsted-Lowry theories of acid and bases.
Polyprotic acids, ampholytes, dissociation of polyprotic acid. Surface tension, viscosity:
application to biomolecules.
2 Carbohydrates & glycobiology: Monosaccharides - structure of aldoses and ketoses, structure
and conformations of sugars, mutarotation, anomer, epimer and enantiomer; structure of
biologically important sugar derivatives, oxidation of sugars. Formation of disaccharides,
reducing and nonreducing disaccharides. Polysaccharides – homo- and heteropolysaccharides,
Engineering Workshop EME41204 0-0-3 2 Credits
22
structural and storage polysaccharides. Structure and role of proteoglycans, glycoproteins,
glycolipids (gangliosides & lipopolysaccharides).
3 Amino acids: Structure and classification, physical, chemical and optical properties of amino
acids.
4 Nucleic acids: Nucleotides - structure and properties. Nucleic acid structure – Watson-Crick
model of DNA. Structure of major species of RNA - tRNA, mRNA and rRNA. Nucleic acid - UV
absorption, effect of acid and alkali on DNA. Other functions of nucleotides - source of energy,
component of coenzymes; second messengers.
5 Lipids & Vitamins: Building blocks of lipids - fatty acids, glycerol, ceramide. Storage lipids -
triacyl glycerol and waxes. Structural lipids in membranes – glycerophospholipids,
galactolipids, sulpholipids, sphingolipids & sterols; structure, distribution & role of membrane
lipids. Plant steroids; Lipids as signals, cofactors & pigments. Structure and active forms of
water soluble & fat soluble vitamins; lipid deficiency diseases and symptoms.
6 Biomass: Natural raw materials. Availability of by-products. Raw materials and the future of
biotechnology.
BOOKS BOOK DETAILS
1 Biochemistry by Jeremy M.Berg, John L.Tymozko, Lubert Stryer, Fifth edition, W.H.Freeman
and Company.
2 Lehninger Principles of Biochemistry Edition 4, Nelson, David L. Cox, Michael M. Lehninger,
Albert L. W H Freeman & Co.
3 Biotechnology by John E. Smith. Fifth Edition. Cambridge University Press.
SEM 3 THEORY 2 BBT42103 Biochemistry, Bioenergetics &
Reaction Kinetics
L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Bioenergetics: !st and 2nd la s of The od a i s. Gi ’s F ee E e g , e thalp , Entropy
and mathematical relationship among them; Standard free energy change and equilibrium
constant. Coupled reactions & additive nature of standard free energy change; Energy rich
compounds: Phosphoenolpyruvate, 1,3- Bisphosphoglycerate, Thioesters, and ATP.
2 Introduction to Enzyme & Carbohydrate Metabolism: Basic concept of enzyme-substrate
reactions; classification and nomenclature; Enzyme active site; Regulation of enzyme activity -
allosteric regulation.
3 Metabolic pathways of carbohydrates & their regulation: Glycolysis, TCA cycle, pentose
phosphate pathway, Entner-Doudoroff pathway and Cori cycle; Oxidative phosphorylation:
electron transport chain and ATP synthesis, regulation of oxidative phosphorylation;
gluconeogenesis; Photosynthesis: Photophosrylation, Calvin cycle; Disorder / diseases of
carbohydrate metabolism.
4 Metabolism of Amino acid, Protein: Catabolism & Anabolism; Catabolism of amino acids;
general metabolism of amino acids. catabolism of Tyrosine, Leucine, Glutamic acid & Arginine;
Glucogenic amino acids, ketogenic amino acids. Urea cycle & its regulation, protein
degradation & turnover. Disorder / diseases of amino acids metabolism.
5 Metabolism of lipid, nucleic acid & vitamin: Oxidation of Fatty acid: Beta oxidation & omega
oxidation – saturated & unsaturated fatty acids. Catabolism of phospholipids. Biosynthesis of
fatty acids, phospholipids, cholesterol & steroid; Disorder / diseases of lipid metabolism.
Nucleotide metabolism, purine & pyrimidine degradation; De Novo and Salvage Pathways.
Disorders of purines & pyrimidines metabolism. Metabolism of Vitamins; Brief description of
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animal & plant hormones.
6 Kinetics: Rate of chemical reaction; Effect of Temperature on Rate Constant; Arrehnius
equation; Collision Theory; Transition State Theory; Order and Molecularity of a Chemical
reaction; Elementary Reactions, 1st, 2nd & 3rd order reactions; Non Elementary Reactions,
Pseudo-1st order reaction; Determination of rate constant and order of reaction; Half-life
method; Fractional order reactions.
BOOKS BOOK DETAILS
1 Lehninger Principles of Biochemistry Edition 4, Nelson, David L. Cox, Michael M. Lehninger,
Albert L. W H Freeman & Co.
2 Enzymes by Robert A. Copeland, 2nd edition.
3 Biochemistry by Jeremy M.Berg, John L.Tymozko, Lubert Stryer, Fifth edition, W.H.Freeman
and Company.
SEM 3 THEORY 3 BBT42105 Microbiology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Fundamentals, History & Evolution of Microbiology: Classification of microorganisms;
Microbial taxonomy; Microbial phylogeny & current classification of bacteria. Microbial
Diversity - Distribution & characterization Prokaryotic & Eukaryotic cells; Morphology & cell
structure of major groups of microorganisms - Bacteria, Algae, Fungi, Protozoa & unique
features of viruses.
2 Cultivation & Maintenance of microorganisms: Nutritional groups of microorganisms;
methods of isolation; Purification & preservation.
3 Microbial growth: Growth curve, Generation time, synchronous batch & continuous culture;
measurement of growth & factors affecting growth of bacteria; Microbial Metabolism -
Metabolic pathways; amphi-catabolic & biosynthetic pathways; Bacterial Reproduction -
Transformation, Transduction & Conjugation; Endospore & sporulation in bacteria.
4 Control of Microorganisms: By physical, chemical & chemotherapeutic agents; Water
Microbiology - Bacterial pollutants of water, coliforms & non-coliforms; Sewage composition
& its disposal; Important microorganism in food Microbiology - Moulds, Yeasts, and bacteria;
Major food born infections & intoxications; Preservation of various types of foods; Fermented
Foods.
BOOKS BOOK DETAILS
1 Microbiology by Pelczar, JR E.C.S Chan and noel R.Krieg. Fifth edition Tata Mc GrawHill -2006.
SEM 3 THEORY 4 BBT42107 Cell Biology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Eukaryotic & prokaryotic cells: Membrane organization; cell organelles; cytoskeleton; cell
division. Transport across cell membranes; cytosolic , nuclear & membrane bound receptors;
autocrine, paracrine & endocrine models of actionsl; Entry of viruses & toxins into cells; cell
culture, and generation of cell lines.
2 Cell cycle: Components of cell cycle control system; Intracellular & Extracellular control of cell
division; Programmed cell death / Apoptosis; intrinsic and extrinsic pathways of cell death;
Apoptosis in relation with Cancer; Viral disease (AIDS) and Organ transplant.
3 Cell Signaling: Cell signaling & signal transduction pathways: Hormones & their receptors, cell
surface receptors; signaling through G-protein coupled receptors; second messengers;
24
regulation of signaling pathways; principles of cell communications; cell adhesion & roles of
different adhesion molecules; gap junctions, extracellular matrix, and integrins.
4 Cancer: The Development & causes of cancer; tumour viruses, oncogenes, prevention &
treatment of cancer.
BOOKS BOOK DETAILS
1 Molecular Biology of the Cell Edition 4, Roberts, Keith Alberts, Bruce Johnson, Alexander Raff,
Martin Walter, Peter Lewis, Julian, Garland.
2 Molecular Cell Biology, Lodish, Harvey Krieger, Monty Kaiser, Chris A. Berk, Arnold, W H
Freeman & Co.
SEM 3 LAB 1 BBT42201 Biochemistry Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Safety measures in laboratories.
2 Preparation of normal and molar solutions.
3 Preparation of buffers.
4 Determination of pKa of glycine.
5 Qualitative tests for carbohydrates, lipids, amino acids, proteins and nucleic acids.
6 Separation of amino acids/ sugars/ bases by thin layer chromatography.
SEM 3 LAB 2 BBT42203 Microbiology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Sterilization techniques.
2 Media preparation.
3 Microscopy and Micrometry.
4 Isolation, culture, enumeration and purification of microbes from a given sample.
5 Staining Techniques (Simple, Gram staining, spore staining, flageller staining, capsule staining,
negative staining).
6 Antibiotic Assay - Antimicrobial Sensitivity Test (Disc Diffusion Method).
7 Growth Kinetics (Bacterial Growth Curve)
8 Isolation of antibiotics producing bacteria and determination of the number of colony forming
units.
SEM 3 LAB 3 BBT42205 Cell Biology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Study the effect of temperature and organic solvents on semi permeable membrane.
2 Demonstration of dialysis.
3 Study of plasmolysis and de-plasmolysis.
4 Cell fractionation and determination of enzyme activity in organelles using sprouted seed
or any other suitable source.
5 Study of structure of any Prokaryotic and Eukaryotic cell.
6 Identification: Slides of animal tissues like liver, oesophagus, stomach, pancreas, intestine,
kidney, ovary, testes.
7 Cell division in onion root tip/ insect gonads.
25
8 Preparation of Nuclear, Mitochondrial & cytoplasmic fractions.
SEMESTER 4
SEM 4 THEORY 1 BBT42102 Genetics & Biostatistics L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Classical Genetics: Mendelian inheritance; multiple alleles, pseudoallele; gene interaction,
complementation; Codominance, incomplete dominance; linkage, pleiotropy; recombination
& chromosome mapping, sex determination; extra-chromosomal inheritance; special types of
chromosomes; Alterations of chromosomes: euploidy & aneuploidy; deletion, duplication,
inversion & translocation & their genetic implications; pedigree analysis, lod score;
karyotypes, chromosomal abnormalities.
2 Gene Mutation & Cancer: Induced and spontaneous mutation; mutation Types, causes &
detection, mutant categories; basis of genetic diseases; applications of genetic disorders;
Cancer Genetics - Genetic rearrangements in progenitor cells, oncogenes; protooncogenes;
tumour suppressor genes - p53, RB & others; virus-induced cancer, cancer & cell cycle.
3 Microbial Genetics: Bacterial Genetics - plasmids, transposon; Gene transfer; recombination
& complementation analysis; gene mapping. Viral genetics - genetics of animal viruses - polio,
HIV & adenovirus; Bacteriophage - genetics of lambda, M13, T4 & phiX174.
4 Biostatistics: Mean, median and mode; standard deviation, variance, discrete & continuous
probability distributions; Poisson, normal & binomial distributions; mathematical expectancy;
Correlation & regression analysis; T-test, chi-square analysis; ANOVA. Population genetics -
Hardy-Weinberg equilibrium; changes in gene frequency; continuous variation; Polygenic
inheritance, heritability & its measurements; QTL mapping.
BOOKS BOOK DETAILS
1 Principles of Genetics by Gardner, Simmons, Snustad, 8th edition – John Wiley and Sons, Inc.,
2003.
2 S.C. Gupta & V.K. Kapoor, Fundamentals of Mathematical Statistics, Sultan Chand and Sons,
New Delhi , 2003.
3 S.C. Gupta & V.K. Kapoor, Fundamentals of Applied Statistics, Sultan Chand and Sons, New
Delhi , 2003.
SEM 4 THEORY 2 BBT42104 Genomics, Proteomics &
Metabolomics
L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Introduction to Genomics: DNA sequencing methods – manual & automated: Maxam &
Gilbert and Sangers method. Pyrosequencing, Genome Sequencing: Shotgun & Hierarchical
(clone contig) methods, Computer tools for sequencing projects: Genome sequence assembly
software.
2 Managing and Distributing Genome Data: Web based servers and softwares for genome
analysis: ENSEMBL, VISTA, UCSC Genome Browser, NCBI genome. Selected Model Organisms'
Genomes and Databases.
3 Introduction to protein structure & Proteomics: Chemical properties of proteins. Physical
interactions that determine the property of proteins; short-range interactions; electrostatic
forces, van der waal interactions, hydrogen bonds, Hydrophobic interactions. Determination
of sizes (Sedimentation analysis, gel filteration, SDS-PAGE); Native PAGE, Determination of
26
covalent structures – Edman degradation. Analysis of proteomes. 2D-PAGE. Sample
preparation, solubilization, reduction, resolution. Reproducibility of 2D-PAGE. Mass
spectrometry based methods for protein identification. De novo sequencing using mass
spectrometric data.
4 Metabolomics: Metabolites - primary and secondary, Microbial secondary metabolites.
Concept of Metabolomics: definition and importance; environmental metabolomics,
exometabolomics, Metabonomics.
BOOKS BOOK DETAILS
1 Introduction to Proteomics by Daniel. C. Liebler, Humana press, 2002
SEM 4 THEORY 3 BBT42106 Biophysical Techniques &
Instrumentation
L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Transport Phenomena: Transport across membrane - passive diffusion, facilitated diffusion &
active transport - (definition and examples); gradient of chemical potential as driving force in
transport, equilibrium & transport across membranes; diffusion, osmosis, sedimentation,
osmotic pressure. Donnan equilibrium, diffusion potential, membrane potential. Gel
Electrophoresis and its applications
2 Microscopy: General principles of optics in relation to microscopy; different components of
light wave (UV, IR, visible); principles and applications of Compound Microscope; Light-, Dark-,
Bright-field Microscopes; Phase Contrast Microscopy; Fluorescent Microscope; Electron
Microscope; Resolving power; Numerical aperture: Chromatic Aberration.
3 Centrifugation and Chromatography: Principles of different types of centrifugation and its
application. General principles of chromatography, adsorption chromatography, column,
affinity, TLC, partition, ion exchange, gel filtration and permeation chromatography.
4 Spectroscopic techniques: Principles and applications of spectroscopy: Electronic transition,
Fluorescence, FRET, Imaging Techniques, Rotational and Vibrational Spectroscopy and
application, Raman Spectroscopy in biomolecules. Light scattering : size and shape of
macromolecules. Mass spectrometry and its applications.
5 Radiactivity: Radioisotope technique: nature of radioactivity, principles of radioisotopes and
radiations, units, radioactive decay, detection and measurement of radioactivity.
BOOKS BOOK DETAILS
1 Principles of Physical Biochemistry, by K.E. van Holde, W. C. Johnson, and P.S. Ho.
2 Molecular Biophysics by Igor N. Serdyuk , Nathan R. Zaccai , Joseph Zaccai.
SEM 4 THEORY 4 BBT42108 Bioprocess & Fermentation
Technology
L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Microbial kinetics: Monod's equation, substrate inhibition, double substrate equations.
Structured and unstructured substrate & product inhibition and models related to that,
cybernetic models, segregated models.
2 Media and air sterilization: Sterilization kinetics, batch and continuous sterilization.
Agitation and aeration in bioreactor, different types of impellors, power requirements, kla
determination, mixing, multiphase reaction.
3 Bioreactors: Types of bioreactor operation, batch, fed-batch, continuous, cell recycle and
27
cascade mode, calculation of productivity, yield and reactor sizing. Extractive fermentation,
high cell density culture, Scale-up and scale down of bioreactor. State and parameter
estimation techniques for biochemical processes; computers and interfaces, Computer-based
data acquisition, monitoring and control-LABVIEW Software.
4 Recombinant cell culture processes: Guidelines for choosing host-vector systems, plasmid
stability in recombinant cell culture; limits to over expression; Modeling of recombinant
bacterial cultures; Bioreactor strategies for maximizing product formation; Bioprocess design
considerations for plant and animal cell cultures.
5 General requirements of fermentation processes: Isolation, preservation and improvement
of industrially important micro- organisms, development of innocula for industrial
fermentations; types of fermentations, Basic design & construction of fermentors and
ancillaries, media design and sterilization for fermentation process. Overview of aerobic &
anaerobic fermentation processes & their application; solid-substrate fermentation & its
applications.
6 Large scale production, fermenters, economics, legislative and safety aspects: Introduction
Biotechnology as an interdisciplinary science . Energy and Biotechnology –Biofuels, sources of
biomass, ethanol and methane from biomass, Hydrogen production. Biotechnology and
Health care – Use of probes in disease diagnosis and use of monoclonal antibodies in disease
diagnosis and treatment. Bio fertilizer, Bio pesticide and Vermicomposting. Bioleaching,
Biosensors and biochips.
BOOKS BOOK DETAILS
1 Al a S., Hu ph e E a d Milli N.R., Bio Che i al E gi ee i g A ade i P ess, . 2 S agg.A.H Bio ea to s i Biote h olog - A Practical approach.
3 Baile a d Ollis, Bio he i al E gi ee i g Fu da e tals , M G a Hill d Ed. . . 4 Pete F.Sta u , Alla Whitake , P i iples of Fe e tatio Te h olog .
SEM 4 THEORY 5 BBT42110 Environmental Science &
Energy Resources
L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Environment & ecosystems: Environmental education: scope, objectives & importance;
ecosystem types -terrestrial & aquatic ecosystems; structure & function; ecological
succession; food chains; food-webs & ecological pyramids.
2 Biodiversity: Genetic, species & ecosystem diversity; value of biodiversity - consumptive &
productive use; social, ethical, aesthetic & option values; threats to biodiversity - habitat loss,
poaching of wildlife; endangered & endemic species of India; Conservation of biodiversity - in
situ & ex situ conservations.
3 Pollution & waste management: Air & water pollution; classification of pollutants & their
effects; control measures of air pollution; Waste water treatment - primary, secondary and
tertiary stages; Solid waste management; effects of municipal waste; hazardous waste; bio-
medical waste; process of waste management.
4 Current environmental issues: Environmental ethics; issues & solutions; population
explosion; climatic change; ozone layer depletion; global warming, acid rain & green house
effect; Sustainable development; environmental dimensions & audit of sustainable
development.
5 Environmental protection: National & international concern for environment; important
environmental protection acts; water, air act, wild life conservation & forest act; functions of
28
central & state pollution control boards; international efforts; Rio declaration; Vienna
convention; Kyoto protocol & Johannesburg summit.
BOOKS BOOK DETAILS
1 De A.K., "Environmental Chemistry", New Age International (p) lt., New Delhi, 1996.
2 Kurian Joseph & R. Nagendran, "Essential of Environmental Studies", Pearson Education, 2004.
SEM 4 LAB 1 BBT42202 Genetics Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Permanent and temporary mount of mitosis.
2 Permanent and temporary mount of meiosis.
3 Culturing of leukocytes.
4 Determination of Mitotic Index.
5 Preparation of chromosome spreads.
6 Preparation of Karyogram.
7 Study of polytene chromosomes of Diptera.
8 Barr body preparation and staining.
SEM 4 LAB 2 BBT42204 Biophysical Techniques &
Instrumentation Lab
L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Chemical cell disruption and assay for intracellular products.
2 Mechanical cell disruption and assay for intracellular products.
3 Separation of insolubles by filtration / sedimentation / centrifugation.
4 Ammonium sulphate precipitation and dialysis.
5 Gel analysis / assay for dialysed product.
6 Ion Exchange chromatography.
7 Gel filtration.
8 HPLC.
9 FPLC.
10 Gas chromatography.
SEM 4 LAB 3 BBT42206 Bioprocess & Fermentation
Technology Lab
L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Isolation of proteolytic organisms from soil samples.
2 Glucose assay by dDNS method.
3 Evaluation of enzyme kinetic parameters
4 Enzyme activity calculation.
5 Determination of optimum pH for enzyme.
6 Determination of optimum temperature for an enzyme.
7 Effect of substrate concentration on biomass yield.
8 Solvent extraction techniques for product recovery.
9 Production of wine by yeast.
29
10 Production of Amino acid.
SEMESTER 5
SEM 5 THEORY 1 BBT43101 Molecular Biology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 DNA Replication, Transcription & Translation: DNA replication in prokaryote & eukaryotes;
enzymes & accessory proteins; telomere replication. Transcription process in prokaryote and
eukaryotes; regulation of transcription. RNA processing, nuclear export & stability of mRNA.
Translation in prokaryote & eukaryotes; translational control, co- and post-translational
modification of proteins.
2 DNA damage, repair & homologous recombination: Causes & types of DNA damage,
mechanisms of DNA repair - Photoreactivation, base-excision & nucleotide-excision repairs;
mismatch repair, translesion synthesis, recombinational repair, non-homologous end joining;
Homologous recombination - models & mechanism; Mutations.
3 DNA cloning and Gene expression: Restriction & modifying enzymes; cloning vectors -
Plasmids, phage cosmids, phasmid, YAC, eukaryotic vectors; Gene expression in prokaryote
and eukaryotes; operon, genes silencing, transcription factors, antisense & ribozymes.
Techniques of molecular biology - PCR, DNA cloning, genome sequencing, cDNA & Genomic
libraries, hybridization-probe method, antibody screening.
4 GMO & bioethical concern: Genetically modified organisms; Risk assessment, biosafety
regulations & guidelines.
BOOKS BOOK DETAILS
1 From Genes to Genomes by Jeremy W. Dale and Malcolm von Schantz, 2002, John Willey and
sons Publications.
2 Principles of Gene Manipulation, An Introduction to Genetic Engineering Old R.W.Primrose SB,
- Blackwell Scientific Publications.
SEM 5 THEORY 2 BBT43103 Enzyme Technology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Introduction: Classification, mechanism of enzyme action, active site determination,
identification of binding and catalytic sites, specificity of enzyme action, activation energy and
transition state theory, role of entropy in catalysis.
2 Kinetics: Kinetics of single substrate enzyme catalyzed reactions, Michaelis-Menten equation,
turnover number, enzyme inhibition- competitive, non-competitive, and uncompetitive,
allosteric enzymes and metabolic regulation.
3 The technology of enzyme production: Types of reactors used for enzyme catalysis for free
and immobilized enzymes, immobilized enzymes, preparation and properties.
4 Immobilized enzyme catalysis: Effects of external mass transfer resistance, analysis of Intra-
particle diffusion and reaction. Simultaneous film and intra-particle mass transfer resistances,
effects of inhibitors, temperature and pH on immobilized enzyme catalysis and deactivation.
5 Overview of applications of immobilized enzyme systems: Design of enzyme electrodes &
their applications as biosensors; health care & environment; Design of Immobilized Enzyme
Reactors; Packed-bed, Fluidized-bed Membrane reactors; Bioconversion calculations in free-
enzyme CSTRs & immobilized enzyme reactors.
BOOKS BOOK DETAILS
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1 Enzymes by Trevor palmer.
2 Biochemistry by Jeremy M.Berg, John L.Tymozko, Lubert Styer, Fifth edition, W.H.Freeman
and Company.
SEM 5 THEORY 3 BBT43105 Bioinformatics L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Introduction & NCBI: Internet basics; Connecting to internet; Email; FTP; www; NCBI;
BIOSEQ’s, BIOSEQ sets, SEQ-ANNOT, SEQ-DESCR.
2 Biological databases: Biological databases; primary sequence databases; Composite sequence
databases; Secondary databases; composite protein pattern databases; structure
classification databases; Genome Information Resources; DNA sequence databases;
specialized genomic resources.
3 Alignment techniques: Pairwise Alignment Technique; Database searching; algorithms &
programs; comparing two sequences; identity & similarity; global & local alignments; pairwise
database searching; Multiple sequence Alignment; computational Complexity; Manual
methods; Simultaneous methods; Progressive methods; Databases of multiple alignment;
Secondary database searching; Analysis packages.
4 Protein analysis: Protein identity based on composition, Motifs & patterns; secondary
structure prediction; specialized secondary structures;, tertiary structures.
5 Introduction to perl: Using PERL to facilitate biological analysis; Strings, numbers, variables;
Basic input and output; File handles; Conditional Blocks and loops; Pattern matching; Arrays-
Hashes.
BOOKS BOOK DETAILS
1 A d eas D Ba e a is & B F F a is, Bioi fo ati s- A practical guide to analysis of Genes &
P otei s , Joh Wile , . 2 T K Attwood, D J Parry-S ith, I t odu tio to Bioi fo ati s , Pea so Edu atio , st Editio ,
11th Reprint 2005.
3 A.R Leach, Molecular Modeling Principles and Applications, Longman, 1996.
SEM 5 THEORY 4 BBT43107 Energy Engineering & Biofuel L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Energy: Renewable & non-renewable resources - Water, Minerals, & Energy; Use &
overexploitation; Classification & Sources of Energy; Problems relating demand & supply of
various energy sources; Coal, Petroleum etc.
2 Conventional & non-conventional energy: Conventional fuels; firewood, plant & animal
wastes; coal, gas, animal oils & their environmental impact; Modern fuels - methanogenic
bacteria & biogas; microbial hydrogen production; conversion of sugars to ethanol, the
gasohol experiment; solar energy converters; photosynthetic pigments, plant based
petroleum industry, cellulose degradation for combustible fuels & their environmental
impacts.
3 Biogas plant & its design: KVIC plants, process kinetics, digester design, sludge treatment,
energy from wastes; development in energy routes.
4 Clean coal technology: Biotechnology & Microbiology of Coal Degradation; Aerobic &
Anaerobic pathway of coal degradation; Characterization & identification of bioconversion
substrates & products; Biosolubilization & bioliquefaction of coal; Biodesulfurisation of coal &
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oil; Mechanisms of coal biosolubilization; Enzymes that depolymerise coal; Recent Advances
in Bioprocessing of coal.
5 Green technology – microbial fuel cell: From Microbes to Megawatts; Microbial Fuel Cells;
Types of Biological fuel cells; Applications of Biological Fuel cells.
BOOKS BOOK DETAILS
1 S.B Pandya, "Conventional Energy Technology - Fuels and chemical Energy - TMH (1987).
2 S.P. Sharma and Chander Mohan, Fuels and Combustion, "TMH, 1984.
3 Kash Kori, C., Energy resources, demand and conservation with special reference to India,
TMH, 1975.
SEM 5 THEORY 5 BBT43109 Nanobiotechnology L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Introduction: Introduction to Nano-Biotechnology; Nanotechnology definition and concepts.
Introduction to Nanostructures; Carbon Nanotubes (CNT), Fullerenes (C60, C300); Nano
Peapods Quantum Dots & Semiconductor Nanoparticles.
2 Nanostructures: Metal-based Nanostructures (Iron Oxide Nanoparticles), Polymer-based
Nanostructures (Dendrimers), Gold Nanostructures: (Nanorods, Nanocages, Nanoshells),
Protein-based Nanostructures: Nanomotors: Bacterial (E. coli) & Mammalian (Myosin family).
3 Nanobiosensors: Science of Self-assembly - From Natural to Artificial Structures.
4 Nanostructures for drug delivery: Concepts, targeting, routes of delivery & advantages;
Nanostructures for diagnostics & biosensors; Nanoparticles for diagnostics and imaging;
Nanodevices for sensor development, tissue engineering, cancer therapy.
BOOKS BOOK DETAILS
1 Bionanotechnology by David S.Goodsell, 2004, Wiley Publications.
SEM 5 LAB 1 BBT43201 Molecular Biology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Preparation of Agarose Gel.
2 Isolation of Genomic DNA from blood, plant cell and bacteria (any one). Estimation of DNA
content in the given sample.
3 Isolation of Plasmid DNA.
4 Gel electrophoresis of DNA.
5 Isolation of RNA. Estimation of RNA.
6 Purification of DNA through columns, Spectroscopic analysis of DNA/RNA, Determination of
Tm of DNA and RNA.
7 Induced mutation by: (a) Chemical (b) Ultraviolet light.
8 Phage Titration.
9 Restriction digestion of DNA.
10 Ligation of digested of DNA.
11 PCR amplification of DNA and visualization by gel electrophoresis.
SEM 5 LAB 2 BBT43203 Enzyme Technology & Clinical
Biochemistry Lab
L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
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1 To study activity of any enzyme under optimum conditions.
2 To study the effect of pH, temperature on the activity of an enzyme.
3 Determination of - pH optima, temperature optima, Km value, Vmax value, Effect of
inhibitor (Inorganic phosphate) on the enzyme activity.
4 Estimation of blood glucose by glucose oxidase method.
5 Principles of Colorimetry: (i) Verification of Beer's law, estimation of protein. (ii) To study
relation between absorbance and % transmission.
6 Estimation of cholesterol in blood.
7 Estimation of bilirubin in blood.
8 Estimation of urea & creatinine in blood.
9 Determination of SGPT, SGOT and alkaline phosphatase by colorimetric end point method in
blood.
10 Gel electrophoresis for detection of abnormal hemoglobin.
SEM 5 LAB 3 BBT43205 Bioinformatics Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Knowledge about nucleotide Databases.
2 Knowledge about Protein databases.
3 Literature survey through Pubmed.
4 Local similarity search.
5 Global similarity search.
6 Gene prediction and translation.
7 Protein sequence analysis.
8 Protein secondary structure prediction.
9 Homology Modelling.
SEMESTER 6
SEM 6 THEORY 1 BBT43102 Immunotechnology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 The immune system: Innate & adaptive immunity, comparative immunity; cells & organs;
Antigens.
2 Immunoglobulin structure & functions: Basic structures of Immunoglobulins; Ig classes &
biological activities; Antigenic determinants on Ig, B Cell receptor, Monoclonal, polyclonal
antibodies; cytokines; complement system.
3 Antigen – antibody interactions: Antibody Affinity & activity; Precipitation reactions;
agglutination reactions; Radio immunoassay; ELISA; Western blotting; Immunoprecipitation,
Immunofluroscence, immunoelectron microscopes; flow cytometry; MHC Antigen processing
and presentations.
4 T Cell and b cell maturation, activation and differentiation: T Cell receptor, T Cell maturation,
activation & differentiation; B Cell generation, activation & differentiation; cell mediated
effectors responses.
5 Immune system in health and disease: Leukocyte migration & inflammation; hypersensitive
reactions; immune response to infection diseases vaccines.
BOOKS BOOK DETAILS
1 Kuby Immunology by Richard A. Golds by Tharmas J. kindt fourth edition 2000 and Barbara
33
Osborne. W.H.freeman and company.
SEM 6 THEORY 2 BBT43104 Plant & Forest Biotechnology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Plant genomes & plant tissue culture: Gene structure & gene expression; regulation,
implication for plant transformation; Protein targeting, heterologous promoters, genome size
& organization; Arabidopsis & new technologies. Plant tissue culture; plasticity & totipotency,
culture environment, growth regulators, media regulators, culture types, plant regeneration.
2 Plant transformation techniques: Agrobacterium mediated gene transfer; Ti-plasmid; process
of T-DNA transfer & integration, transformation in plant; Direct gene transfer methods. Binary
vectors; basic features of vectors; optimization; clean gene technology.
3 Transgenic plants, herbicide & pest resistance: Herbicide resistance; use of herbicide in
modern agriculture; strategies for engineering herbicide; Resistance environment impact, pest
resistance; nature & scale of insect / pest damage to crop; GM strategies; approach to
insect resistance; copy nature strategy; insect resistant crops & food safety.
4 Plant disease resistance & stress tolerance: Plant-pathogen interactions; natural disease
resistance pathways; biotechnological approaches to disease resistance; Plant viruses, types,
entry & replication; transgenic approach; Stress tolerance; abiotic stress; water deficit stress
& various approaches for tolerance.
5 Molecular farming & gm crops future prospects: Carbohydrates & lipids production;
molecular farming; economic considerations for molecular farming; GM crops - current status;
concerns about GM crops; regulations of GM crops & products; Greener genetic engineering.
6 Forest Biotechnology: Industry demands; biotechnological challenges; Trees as energy crops.
BOOKS BOOK DETAILS
1 Plant Biotechnology-The genetic manipulation of plants. Adrian Slater, NigelW.Scott and
MarkR.Fowler.Oxford university press.
SEM 6 THEORY 3 BBT43106 Medical Biotechnology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Immunodiagnostics & therapy: Hybridoma technology; Antibody markers, CD Markers, FACS,
HLA typing; Bioassays. Therapeutic Antibodies; types of ELISA, problems & prospects from
mouse. Vaccine - types; Vaccine technology, DNA vaccine, Vaccines for AIDS & cancer; DNA &
RNA based diagnostics & therapy; PCR, PCR/OLA procedures, RFLP, SSCP; Microarrays, FISH,
In-situ hybridization; Genotyping; Case studies related to bacterial, viral & parasitic infections.
2 Applications: Gene Therapy; Antisense RNA therapy, Ribozyme therapy; status, problems &
prospects; Use of proteomics in protein based biomarkers in disease diagnosis (eg. cancer);
development & future prospects.
3 Use of enzymes in clinical diagnosis & kit development: Principle of diagnostic enzymology,
determination and use of enzyme; enzyme activities for clinical diagnosis; Liver, cardiac &
Kidney enzymes, Digestive enzymes, Miscellaneous enzymes & their general function tests;
Biosensors - types & applications of biosensor.
4 Clinical Research: Milestones of regulations; FDA, US, Indian clinical research; global scenario
of clinical research; Designing clinical trials; principles, scheme for conducting clinical trials;
planning defining, objectives, variables, study populations, testable hypothesis, prediction of
errors & bioselection of appropriate study design, Execution steps. Ethical Issues in clinical
34
research; codes, declaration & guidelines; Informed concent, special issues, Roles &
responsibilities of IRBS, issues with ethics review; ICH-GCP - History of ICH, Objectives, ICH
structure, Guidelines & Future of ICH.
BOOKS BOOK DETAILS
1 Medical Biotechnology, Judit Pongracz, Mary Keen, Elsevier Health Sciences, 2009.
SEM 6 THEORY 4 BBT43108 Animal & Insect Biotechnology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Animal Cell Culture: Equipments & materials for animal cell culture technology. Various
systems of tissue culture; their distinguishing features, advantages & limitations. Culture
medium; natural media, synthetic media, sera. Introduction to balanced salt solutions &
simple growth medium. Brief discussion on the chemical, physical & metabolic functions of
different constituents of culture medium; role of carbon dioxide, & and supplements.
2 Characteristics of cells in culture: Contact inhibition, anchorage dependence, cell-cell
communication; Cell senescence; cell & tissue response to trophic factors.
3 IVF: In vitro fertilization & embryo transfer technology; Ethical issues.
4 Gene transfer, Gene therapy & Transgenics: Methods of gene transfer; Microinjection & viral
mediated gene transfer techniques; Production of transgenic animals & molecular farming.
Principles of Ex vivo and In vivo gene therapy; Stem cell and its application. Production of
Vaccines in animal Cells. Production & Applications of monoclonal antibodies; Transgenic
animals.
BOOKS BOOK DETAILS
1 Animal cell culture by R.I. Freshney.
2 Animal Biotechnology by P.Ramadas.
3 In vitro cultivation of Animal cells by Dr.C.K.Leach,Butterworth and Heinnmamm Ltd.1994.
SEM 6 THEORY 5 BBT43110 Stem Cell Biotechnology L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Stem cell basics: Unique properties of stem cells; embryonic & adult stem cells; umbilical cord
stem cells; similarities & differences between embryonic & adult stem cells; Properties of
stem cells; pluripotency & totipotency.
2 Embryonic stem cells: In vitro fertilization; culturing of embryos; isolation of human
embryonic stem cells; blastocyst; inner cell mass; growing ES cells; tests to identify ES cells;
stimulation of ES cells for differentiation; properties of ES cells.
3 Adult stem cells: Somatic stem cells; test for identification; adult-stem cell differentiation;
plasticity; different types of adult stem cells.
4 Stem cell in drug discovery & tissue engineering: Target identification; Manipulation of
differentiation pathways; stem cell therapy & cell protection; stem cell in cellular assays for
screening; stem cell based drug discovery; drug screening & toxicology.
5 Genetic engineering & therapeutic application of stem cells: Gene therapy; genetically
engineered stem cells; stem cells & Animal cloning; transgenic animals & stem cells;
Therapeutic applications; Parkinson disease; limb amputation; Neurological disorder; heart
disease; spinal cord injuries; diabetes; burns; HLA typing; Alzhei e ’s disease; tissue
engineering application; production of complete organ; kidney, eyes, heart, brain.
BOOKS BOOK DETAILS
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1 Embryonic Stem cells by Kursad and Turksen. 2002.Humana Press.
2 Stem cell and future of regenerative medicine. By committee on the Biological and Biomedical
applications of Stem cell Research.2002.National Academic press.
SEM 6 LAB 1 BBT43202 Immunotechnology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Staining of Blood film.
2 Blood grouping, Leukocyte count, To determine the Rh factor of given blood.
3 To perform immuno-electrophoresis.
4 To perform radial immuno-diffusion assay.
5 To stain a tissue by immuno-histochemical reaction.
6 To study quantitative precipitation assay.
7 To perform dot-ELISA.
8 To perform latex agglutination test.
9 To perform western blotting.
10 To study morphological & staining characteristics of lymphocytes - neutrophils, monocytes,
eosinophils, & basophils.
11 To perform differential count (DLC) of given sample.
SEM 6 LAB 2 BBT43204 Plant Biotechnology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Organizing plant Tissue culture Laboratory.
2 Preparation of Tissue Culture Media.
3 Callus Induction.
4 Shoot tip culture.
5 Embry/Endosperm Culture.
6 Somatic Embryogenesis.
7 Hardening and Planting infield.
8 Isolation of protoplasts.
9 Cell suspension culture.
10 Economics of micropropagation project.
SEM 6 LAB 3 BBT43206 Animal Biotechnology Lab L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Preparation of culture media & sterilization.
2 Organ & Fibroblast culture.
3 Adaptation of Animal virus in cell lines.
4 Study of effect of anti-cancer agent in cell culture.
5 MTT Assay.
6 Live cell counting.
7 Leukocyte culture.
8 Culture of spleen cells.
9 Myeloma cell culture.
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10 Fusion of cells by PEG.
SEMESTER 7
SEM 7 THEORY 1 BBT44101 Food & Beverage
Biotechnology
L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Preservation Technology: Spoilage of food; Food poisoning; Microbiology of water, milk,
meat, & vegetables; preservation of food by canning, dehydration, irradiation, & sterilization;
Role of lactic acid in preservation in sauerkraut.
2 Food Production Technology: Fermented and semi-fermented food; Production of single cell
protein; Yeast, mushroom; SCP for cattle feed. Genetically modified crop; safety aspects of
genetically modified crops. Technology for Improved Process Enzymes in bakery & cereal
products; Enzymes in fruit juice production; Enzymes in fat & oil production. Enzymes in
cheese making & beverage production; Utilization of food wastes.
3 Analysis of major food ingredients: Analysis of preservative, natural & synthetic Food colour;
Food flavor enhancing agents. Chemical safety measurement; Heavy metal, fungal toxins,
bacterial toxins, herbicide, & Pesticide; detection & Quality control tests.
BOOKS BOOK DETAILS
1 Jay JM, Loessner MJ and Golden DA. (2005). Modern Food Microbiology. 7thedition, CBS
Publishers and Distributors, Delhi, India.
SEM 7 THEORY 2 BBT44103 Environmental Biotechnology L-T-P = 3-1-0 Credit 4
UNIT COURSE DETAILS
1 Introduction to environmental pollutants: Water, Soil & Air; sources & effects. Removal of
Pollutants; Sources of Heavy Metal Pollution; Microbial Systems for Heavy Metal
Accumulation; Biosorption and detoxification mechanisms.
2 Microbiology & biochemistry of waste water treatment: Biological Treatment of anaerobic &
aerobic; methanogenesis, methanogenic, acetogenic, & fermentative bacteria; technical
process & conditions; Use of Genetically Engineered Organisms; emerging biotechnological
processes in waste-water treatment; Applications include treatment of municipal & industrial
wastewaters.
3 Biodegradation of xenobiotic compounds: Xenobiotic compounds; Aliphatic, Aromatic,
Polyaromatic Hydrocarbons, Polycyclic aromatic compounds; Pesticides, Surfactants &
microbial treatment of oil pollution.
4 Biotransformations & biocatalysts: Basic organic reaction mechanisms; Common prejudices
against Enzymes; Advantages and Disadvantages of Biocatalysts; Isolated Enzymes vs whole
cell systems; Mechanistic Aspects & Enzyme Sources; Biocatalytic Applications; Catalytic
Antibodies; Stoichiometry, kinetics, & thermodynamics of microbial processes for the
transformation of environmental contaminants.
5 Biooxidation and microbial leaching: Biooxidation; Direct & Indirect Mechanisms;
Biooxidation Kinetics; Bacterial oxidation of Sphalerite, Chalcopyrite & Pyrite; Extraction of
metals from ores; Recovery of metals from solutions; Microbes in petroleum extraction;
Microbial desulfurization of coal.
BOOKS BOOK DETAILS
1 Environmental Microbiology, W.D. Grant & P.E. Long, Blakie, Glassgow and London.
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2 Environmental Biotechnology by Bruce Rittmann and Perry McCarty.
SEM 7 THEORY 3 BBT44105 Protein Engineering L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Protein engineering: Introduction to steps of Protein design & Engineering; protein splicing &
its application; Solid-phase peptide synthesis; Production of Novel Proteins; Random & site-
directed mutagenesis; Expressing Recombinant Proteins; classification of Proteins structures;
Crystallography & X-Ray Diffraction; Spectroscopy - UV-VIS, NMR & Fluorescence
Spectroscopy & Calorimetric Methods; Industrial applications of Protein Engineering; Design
of polymeric biomaterials; nicotinic acetylcholine receptors as a model for a super family of
ligand; gated ion channel proteins.
2 Protein stability & folding: Overview of protein structure; Higher level structure, Protein
stability; Mechanism of protein folding (types, level, thermodynamics, Anfinsen's dogma,
Levinthol paradox and kinetics); Ramchandran plot; Folding Rate; Molten globule; Techniques
for studying of protein folding; NMR, CD spectroscopy; Proteolysis, Optical tweezers;
Computational method; Location & functions of Molecular chaperones, chaperonin & co-
chaperons, HSP chaperone system in E. coli and Human; Proteasomes & proteosome
mediated protein degradation; Protein folding errors; Alzheimer's, prions & Mad Cow (BSE,
CJD); Cystic Fibrosis & cancer. Polyketides & non-ribosomal peptides; Combinational
manipulation of polyketides & non-ribosomal peptides; application of protein folding to
design new drug.
BOOKS BOOK DETAILS
1 Protein engineering and design by Paul R. Carey, academic press, 1996.
SEM 7 ELECTIVE 1 BBT44107 Biofertilizer L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Introduction: Concept & its need in organic farming. Types and its applications viz Rhizobium
Bio fertilizer, Azotobacter Bio fertilizer, Azospirillum Bio fertilizer, Azolla & BGA Bio fertilizers,
VAM Bio fertilizer, PSB Bio fertilizer.
2 Methodology: Brief methodology of manufacturing biofertilizers viz. bacterial fertilizer, fungal
fertilizer, green manure, organic manure, worm manure, vermiculture.
3 Applications: Difference between chemical fertilizers and biofertilizers / biomanures. Trading
some names of chemical fertilizers and organic manure / fertilizer. Why organic manures are
becoming popular in agricultural sectors. Name some agri-industries where chemical
fertilizers are used or restricted. Constrains of biofertilizers. Introduction to business
opportunities for biofertilizers.
BOOKS BOOK DETAILS
1 Biotechnology of Biofertilizers edited by Sadasivam Kannaiyan.
2 Handbook of Microbial Biofertilizers edited by Mahendra Rai.
SEM 7 ELECTIVE 2 BBT44109 Biopesticides L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Introduction: Definition and brief concept. Types of biopesticides. Integrated pest
management-concepts and components; host plant resistance-biological control of insect
38
pests; What are biopesticides? Useful genes from microorganisms for agriculture (herbicide
resistant, Bt, viral). Biological Control – Use of Baculovirus, NPV virus, protozoa & fungi in
biological control. Neem as biopesticideRegulating biopesticides - Environmental Protection
Agency (EPA).
2 Applications: Biopesticides and organic database for IPM - IR-4 Project. Farmers shift towards
virtually non-toxic alternatives for pest-control. Pesticide registration manual: additional
considerations for biopesticide products. Biopesticide registration tools.
3 Advantages & disadvantages: Constrains of biopesticides production and commercial uses.
Advantages of biopesticides.
BOOKS BOOK DETAILS
1 Microbial Biopesticides edited by Opender Koul, G. S. Dhaliwal.
2 Biopesticides for Sustainable Agriculture: prospects and constraints edited by Nutan Kaushik.
SEM 7 ELECTIVE 3 BBT44111 Biocatalysis L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Characteristics of Biocatalysis: The use of modern genetic techniques, which are used in
biocatalysis - sequencing, various types of PCR, RDT for biocatalyst preparation, Enzyme
catalysis, sources and reasons for the activity of enzymes as catalysts; Chemoenzymatic
biocatalysis, combining chemical catalysts with enzyme, one-pot reaction Current penetration
of biocatalysis; Isolation and preparation of microorganism – Screening of enzyme activities,
strain development, extremophiles.
2 Kinetics: Kinetic modeling, Ideal kinetics and reactors, enzymes with unfavourable binding,
reactor engineering, influence of immobilization, deactivation kinetics, E-value and its
optimization; multienzymatic reactions.
3 Industrial Application of biocatalysts: Laundry detergents, textile industry, pulp and paper
industry, animal feed. Fine chemicals industry, food industry, towards crop protection
chemicals, large scale pharma intermediates.
BOOKS BOOK DETAILS
1 Biocatalysis, A.s. Bommarius and B.R. Riebel, Wiley-VCH Verlag GmbH & Co, 2004.
SEM 7 ELECTIVE 4 BBT44113 Molecular modeling & drug
design
L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Quantum mechanics and concepts in molecular modeling: Introduction to quantum
mechanics; postulates; Schrodinger wave equation; Born-Oppenheimer approximation.
2 Empirical force fields molecular mechanism: Stretching of Bond; Bending of Angle; Torsional
terms; bonding motions; Electrostatic interactions; Van Der Waals interactions; Effective pair
Potentials; Hydrogen Bonding; Simulation of liquid water. derived & non-derived energy
minimization method; simplex, sequential univariate method; steepest descent method;
conjugate gradient method; Newton-Rapson method.
3 Computer simulation methods: Thermodynamic properties; Phase space; Practical aspects of
computer simulation; Boundaries monitoring Equilibrium; Long range Process; Analyzing
result of simulation & estimating errors.
4 Molecular dynamics simulation methods: Molecular Dynamics using simple modules;
Molecular Dynamics with continuous potentials; Running Molecular Dynamics simulation;
39
Time dependent properties; Constant dynamics; Molecular Dynamics at constant temp &
pressure; Monte Carlo simulation methods; Analyzing the Results of a Simulation & Estimating
Errors.
5 Metropolis methods: Monte Carlo simulation of molecules & polymers; chemical potentials;
Monte Carlo or Molecular Dynamics, Molecular modeling to discover & design new molecules.
6 Molecular modeling in drug discovery: Deriving & using 3D Pharma cores; Molecular docking;
De novo ligand design; structure based drug design; pharmacophores; Simple Thermodynamic
Properties & Phase Space.
BOOKS BOOK DETAILS
1 A.R Leach, Molecular Modeling Principles and Applications, Longman, 1996.
2 J.M. Haile , Molecular Dynamics Simulation Elementary methods, , John Wiley and Sons ,1997.
SEM 7 ELECTIVE 5 BBT44115 Protein-DNA Interaction L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Central dogma & bacterial gene expression: Prokaryotic gene expression; chemical &
physical structure of DNA, chemical & physical structure of proteins; Levels of structures in
proteins, internal rotation angles, Ramachandran plot, Forces stabilizing the structure of
proteins & DNA; Olson-Flory plot; base-pairing & stacking.
2 Thermodynamics & the lac repressor: Law of mass action; statistical mechanics & operator
occupancy; entropy, enthalpy; lac repressor complex; kinetics of repressor-DNA interaction &
reaction kinetics; Debye-Smoluchowski theory; BWH theory; indirect read-out & induced fit.
3 Eukaryotic gene expression: Chromatin condensation; White’s theorem; Worm-like chain,
circular DNA, persistence length, nucleosomes & the Marky-Manning transition; protein-DNA
interaction under tension; Force-extension curves; RST model; structural sequence sensitivity,
thermal fluctuations.
4 Macro-ions & aqueous electrostatistics: Primitive model; ion-free, DH regime; Oosawa
theory; Manning condensation; charge renormalization; free energy; Counter-ion release &
non-specific protein-DNA interaction; counter-ion release, nucleosome foration; isoelectric
instability.
BOOKS BOOK DETAILS
1 Biophysical Chemistry, Cantor.R. Samuel.P.R., W.H.Freeman & Co.
2 Physics of Protein-DNA Interaction, R.F. Bruinsma, Elsevier.
SEM 7 LAB 1 BBT44201 Food & Environmental
Biotechnology Lab
L-T-P = 0-0-3 Credit 2
EXP. LAB DETAILS
1 Qualitative analysis of the soil from different locations for pH & different water soluble
cations & anions.
2 Quantitative estimation of oxidisable organic matter in soil, carbonate and bicarbonates by
volumetry and calcium and magnesium by EDTA titration.
3 Hardness of water by EDTA titration.
4 Study of pH and conductivity of tap water and polluted water.
5 Methods of screening of microorganisms with amylolytic and proteolytic activity.
6 Construction and use of reporter gene fusions.
7 Isolation of amino acid and proteins: cystine, Egg albumin, globulin, milk casein.
40
8 Starch preparation and characterization.
9 Alpha and Beta amylolysis.
10 Analysis of organic compounds from soils.
SEM 7 LAB 2 BBT44401 Project Work I L-T-P = 0-0-6 Credit 4
PROJECT DETAILS
Every student will be required to undertake a research project based on any of the areas of animal,
plant or microbial biotechnology and bioinformatics. The project report will be submitted in the form
of dissertation duly certified by the supervisor of School of Biotechnology or at any national institutes
and Universities in India. The project work will be presented for evaluation at the end of semester by
external expert (Part 1).
SEM 7 LAB 3 BBT44601 Industrial Training L-T-P = 0-0-0 Credit 2
TRAINING DETAILS
An industrial training of minimum two weeks has to be undergone by the student in the summer
vacation of the VI semester.
SEMESTER 8
SEM 8 THEORY 1 BBT44102 Bioethics, Biosafety & IPR L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Biosafety-regulatory framework for gmos in india: Regulatory structure in India governing
GMOs; recombinant DNA Advisory Committee, Institutional Biosafety Committee, Review
Committee on Genetic Manipulation; Genetic Engineering Approval Committee; State
Biosafety Coordination Committee, District Level Committee; Prevention Food Adulteration
Act (1955); Recombinant DNA Guidelines (1990); Rules for the manufacture, use / import /
export & storage of hazardous microorganisms / genetically engineered organisms or cells
(Ministry of Environment and Forests Notification, 1989); Revised Guidelines for Research in
Transgenic Plants (1998); Seed Policy (2002); Plant Quarantine Order (2003); The Food Safety
and Standards Bill (2005); Regulation for Import of GM Products Under Foreign Trade Policy
(2006-2007); National Environment Policy (2006).
2 Biosafety-regulatory framework for gmos at international level: Convention of Biological
Diversity (1992); Cartagena Protocol on Biosafety; Objectives & salient features of Cartagena
Protocol; Advanced Information Agreement (AIA) procedure; procedures for GMOs intended
for direct use; risk assessment; risk management-handling; transport, packaging &
identification of GMOs; Biosafety Clearing House; unintentional trans-boundary movement of
GMOs; Benefits of Cartagena Protocol; status of execution in India.
3 Bioethics: The legal & socioeconomic impacts of biotechnology; Public education of the
process of biotechnology; ethical concerns of biotechnology research & innovation.
4 Intellectual property rights: Intellectual property rights; TRIP, GATT, International
conventions patents & methods of application of patents; Legal implications; Biodiversity &
farmer rights.
5 Patents & patent laws: Objectives of the patent system; Basic principles & general
requirements of patent law; biotechnological inventions & patent law; Legal development;
Patentable subjects & protection in biotechnology; patenting living organisms.
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BOOKS BOOK DETAILS
1 Beier, F.K., Crespi, R.S. and Straus, T. Biotechnology and Patent protection-Oxford and IBH
Publishing Co. New Delhi.
2 Singh K, Intellectual Property rights on Biotechnology, BCIL, New Delhi.
3 Cartagena Protocol on Biosafety (2006) Ministry of Environment and Forest, Government of
India, New Delhi.
SEM 8 ELECTIVE 1 BBT44104 Mushroom Culture L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Introduction: Definition and brief concept. Types of mushrooms.
2 Methods: What are the congenial weather of growing each type of mushroom. Cultivation
methods of each type of mushroom. Constrains of mushroom cultivation.
3 Use: Uses of mushrooms: domestic uses, medicinal uses and industrial uses of mushrooms.
BOOKS BOOK DETAILS
1 Mushroom Culture By William Robinson.
2 The Mushroom Cultivator: A Practical Guide to Growing Mushrooms at Home. Paul Stamets,
Jeff S. Chilton. Agarikon Press, 1983.
SEM 8 ELECTIVE 2 BBT44106 Soil Profile, Horizon &
Conditioning
L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Introduction: What is soil profile? Pedological and Edaphologicalconcept, :Soil formation:
Dockuchaiev, Jenny concept, soil forming factors: passive & active factors, age of soil,
Fundamental processes of soil formationDifferent process of soil formation like podzolization,
laterization etc. horizon and conditioning. Need of soil conditioning. Method of soil
conditioning.
2 Property: Physical and chemical property of soil. What is balanced soil for plant growth.
3 Applications: What is macro and micro-nutrients of soil. Need of soil testing. Remote Sensing
and Geographical Information System for Natural Resource Management and Land Use
Planning.
BOOKS BOOK DETAILS
1 Reclamative Soil Science. Plyusnin Biotech Books, 2004.
SEM 8 ELECTIVE 3 BBT44108 Bioterrorism L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Definition: Traditional & new terrorists; Nuclear, chemical, & radiological weapons;
psychology of bioterrorism; Historical perspective; Primary classes of Microbes - bacteria,
virus, & other agents; Immune system; Interaction between microbes & the immune system.
2 Characteristics of microbes & the reasons for their use: Symptoms; Pathogenecity;
epidemiology; natural & targeted release; techniques of dispersal, & case studies of Anthrax;
Plague, Botulism, Small pox, Tularemia & VHF.
3 Surveillance & detection: Detection equipment & sensors; Diagnosis, Treatment,
Vaccinations; Supplies, Effectiveness, Liability; Public resistance, Response; First responders;
Infectious control; Hospital, Prevention, Protection, Decontamination; Notification; Role of
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Law enforcement; Economic impact.
4 Ethical issues: Personal, national; cost-benefit ratios; Information management; Government
control & industry support; Microbial forensics.
BOOKS BOOK DETAILS
1 Bioterrorism: Guidelines for Medical and Public Health Management, Henderson, Donald,
American Medical Association, 1st Edition, 2002.
2 Biological Weapons: Limiting the Threat (BCSIA Studies in International Security), Lederberg,
Joshua (Editor), MIT Press, 1999.
3 Bioterrorism and Infectious Agents: A New Dilemma for the 21st Century (Emerging Infectious
Diseases of the 21st Century), I.W. Fong and Kenneth Alibek, Springer, 2005.
SEM 8 ELECTIVE 4 BBT44110 Biomining L-T-P = 3-0-0 Credit 3
UNIT COURSE DETAILS
1 Commercial applications of thermophile bioleaching: Copper processing technologies; in situ
leaching, smelting, concentrate leaching; Heap & dump leaching; Thermophilic Heap
bioleaching; Basic heap design & importance of heat generation; sulfur availability; microbial
activity, inoculation, pH, inhibitory factors, heat retention, air-flow rate & irrigation rate.
2 Geobiotics geocoat technology: GEOCOAT & GEOLEACH technologies; complementary
Geobiotics technologies; GEOCOAT process, advantages; the Agnes mine GEOCOAT project;
developing technologies.
3 Genetic adaptability of biomining microorganisms to industrial process: Biooxidation of
minerals; General chemistry of mineral biooxidation; advantages of biooxidation; types of
organisms, general physiology of mineral-degrading bacteria; autotrophy; nitrogen,
phosphate & trace elements; Energy production; iron, sulfur oxidation; adaptability of
biomining microorganisms; metal tolerance & resistance.
4 Detecting & identifying acidophilic microorganisms: Biodiversity of acidophilic
microorganisms; techniques for detecting & quantifying microbial life in mineral oxidizing
Environments; cultivation dependent approaches; PCR based microbial identification &
community analysis; PCR independent molecular detection & identification of acidophiles;
future perspectives on molecular techniques for detection & identification of acidophiles.
5 Downstream processing of plant derived recombinant therapeutic proteins: Relevant
biochemical & chemical reactions; Genetics of bioleaching microorganisms; Iron & sulfur
oxidation & reduction in Acidithiobacillus ferrooxidans; sulfur oxidation; ferric iron & sulfur
reduction in Acidiothiobacillus ferrooxidans; Iron oxidation in other bioleaching
microorganisms; Ferroplasma sp., Leptospirillum sp, Metallosphaera sedula; sulfur oxidation
in other bioleaching microorganisms.
BOOKS BOOK DETAILS
1
SEM 8 LAB 1 BBT44402 Project Work II L-T-P = 0-0-12 Credit 8
PROJECT DETAILS
Every student will be required to undertake a research project based on any of the areas of animal,
plant or microbial biotechnology and bioinformatics. The project report will be submitted in the form
of dissertation duly certified by the supervisor of School of Biotechnology or at any national institutes
and Universities in India. The project work will be presented for evaluation at the end of semester by
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external expert (Part 2).
SEM 8 LAB 2 BBT44502 Report, Seminar &
Comprehensive Viva-Voce on
Project Work
L-T-P = 0-0-0 Credit 8
PROJECT DETAILS
Each student will submit dissertation and deliver seminar on their project work under the supervision of
a faculty member. The comprehensive seminar on the project work will be evaluated by external expert.