B.Sc. Biotechnology

B.Sc. Biotechnology

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B. Sc Biotechnology I Year

S.No.

Paper Code

Subject Name

Outcome

1

BBT 101

Biochemistry

Upon completion of subject, student will be able to:

  1.  Describe structure and functions of various biomolecules and enzymes.
  2.  Illustrate metabolic pathways, such as the processes and control of carbohydrate/protein metabolism.
  3.  Analyze biochemical events, such as enzymatic reaction rate or metabolic fate of substrate under different physiological conditions.
  4.  Justify different biochemical reactions involved in any biochemical process.
  5.  Develop a hypothesis for any query that could further lead to any new idea.

2

BBT 102

Biophysics

After completing this course, students will be able to:

  1. Predict various biophysical principles applied on biological systems.
  2. Explain the importance of water, pH and buffers in living system.
  3. Describe fundamentals of enzyme substrate interactions.
  4. Examinevarious biophysical principles of eye, ear and molecular membrane transport.
  5. Apply the concepts of thermodynamics and mechanism of metabolic energy generation

3

BBT 103

Cell Biology

After completing this course, students will be able to:

1) Describe and understand the structures and purposes of basic components of prokaryotic and eukaryotic cells, especially macromolecules, membranes, and organelles.

2)Illustrate how these cellular components are used to generate and utilize energy in cells

3) Analyze the cellular components underlying mitotic cell division.

4) Justify their knowledge of cell biology to selected examples of changes or losses in cell function. These can include responses to environmental or physiological changes, or alterations of cell function brought about by mutation.

5) Develop/ raise question for future aspects

4

BBT 104

Microbiology

1. Understand the basic and general concepts of microbes.

2. Develop a thorough understanding of common bacterial, viral, fungal microbes used in daily life

3. Product formulation using various microbes.

5

BBT 105

Genetics

After completion of this course students will be able :-

 1. To know about father of Genetics, his history, basis of classical and modern genetics,multiple allelism, Interaction of gene, detailed procedure of gene transfer in microorganisms with their significance in gene mapping etc.

2. To understand about the structure, morphology, chemical composition of chromosomes along with various chromosomes, diseases caused by alteration of chromosomal mutation in details.

 3. To explain different kind of mutations, their cause and benefits in future along with significance in cyto-genetics.

4. To explain Sex determination, influence and mechanisms in different organisms.

5. To differentiate cytoplasmic and nuclear inheritance and their significant role in genetics.

6

BBT 106

Instrumentation & Bio-analytical Techniques

After completing this course, students will be able to:

4. 1) Describe the information about the applications of analytical techniques in medicine, industry etc. 

5. 2) Understand/Illustrate the principle and working of various Biomedical Instruments for diagnosis applications.

6. 3) Analyse the applications of therapeutic instruments for treatment purpose.

7. 4) Justify the applications of imaging instruments and the modalities involved in each technique.

8. 5) Develop some new required Bioanalytical instruments with advanced features.

7

BBT 107

Biomathematics & Biostatistics

1. Understand the basic concept of mathematics used in biological proceeses.

2.Have developed basic knowledge of mathematics as applied to biological phenomenon. 3. Have developed basic concepts of statistics and their importance

4. Study the layout of basic design of experiments.

8

BBT 108

Chemistry

This course aims to:

1) explain basic principles of chemistry; periodic properties and atomic structure,

2) explain chemical bonding and valence bond theory,

3) understanding of s-block and p-block elements and ionic solids.

4) explain the chemical catalyst and kinetics. At the end, the students will understand the significance of chemical principles in biological studies.

9

BBT 109

Biodiversity

After completion of this course students will be able :-

1. To explain basic concepts of biodiversity along with its methods of measurements.

 2. To understand its role in daily life and different kind of methods and techniques for conservation of biodiversity for future purposes.

3. To know about different kind of organizations playing crucial role in understanding of biodiversity conservation.

4. To tell about need of International and National laws for conservation of different kind of plant and animal species.

B. Sc Biotechnology II Year

S.No.

Paper Code

subject Name

Outcome

1

BBT 201

 Fundamentals of Computers & Bioinformatics

  1. Describe basic organization, components, Classifications, Generations of computer system.
  2. Describe the important the role of operating system in their management policies and algorithms. Understand the functions of operating system like process management, memory management, file management etc.
  3. Describe Basic taxonomy and terminology of the computer networking (types- LAN, WAN and MAN and Topologies).
  4. Understand binary, hexadecimal and octal number systems and their arithmetic.
  5. Illustrate internet and its services.
  6. Describe the history, scope and importance of Bioinformatics and role of internet in Bioinformatics.
  7. Classify different types of Biological Databases.
  8. Introduction to the basics of sequence alignment and analysis.
  9. Overview about biological macromolecular structures and structure prediction methods.
  10. Illustrate Drug Designing, drug Delivery and targeting.

2

BBT 202

 Bioenergetics and Biomembranes

After completing this course, students will be able to:

  1. Describe concepts of structure and functions of biomolecules and enzymes.
  2.  Illustrate biological mechanisms, such as the processes and control of bioenergetics and metabolism, as chemical reactions (different cycling processes)
  3. analyse biochemical data, (e.g. in enzyme kinetics, molecular structure analysis and biological databases)
  4. justify different biochemical processes involved in any biochemical processes.
  5. develop a hypothesis for any query that could further lead to any new idea.

3

BBT 203

 Molecular Biology

1. Molecular Biology gives students in-depth knowledge of biological and molecular processes through the investigation of the underlying molecular mechanisms.
2. This course is designed so that student can understand molecule of life DNA, RNA and proteins.
3. By this course the students can understand how these molecules produced and expressed.
4. The students can also understand control mechanism and DNA repair mechanism.
5. Students can exhibit clear and concise communication of scientific data and can engage in review of scientific literature in the areas of molecular biology.
6. This may help the students to work in the current advance molecular biological environment.

4

BBT 204

Molecular genetics &cytogenetics

1. To study how the chromosomes relate to cell behaviour, particularly to their behaviour during mitosis and meiosis .

2. To study the molecular structure of DNA, its cellular activities (including its replication), and its influence in determining the overall makeup of an organism.

3. To study of genetic disorders and their identification methods.

4. Techniques used include karyotyping , analysis of G-banded chromosomes, other cytogenetic banding techniques,

5

BBT 205

 Immunology &Immunotechnology

This course is designed to provide the knowledge of:
1) Immunity and immune system; organs and cells of immune system
2) structure of MHC class, I, II & III antigens and MHC restriction
3) Autoimmune diseases, Vaccines (attenuated and recombinant) and vaccination, Immunotechnologyandimmunotherapeutics

6

BBT 206

 RDT

After completing this course, students will be able to:

1. Describe gene cloning and its uses, tools and techniques.

2. Illustration about the construction of different vectors and their uses.

3. Analyse DNA manipulation (Digestion, amplification etc.)

4. The knowledge of various advance techniques will be justified during this course will help students gain a better knowledge of actual work on going in the field of biotechnology, which will develop them to pursue a good carrier in biotechnology and allied fields.

7

BBT 207

Animal Physiology

On successful completion of the course students will be able:

1. To understand the nutrition and energy requirements of animal systems; Measure and interpret experimental data and demonstrate laboratory skills in animal anatomy;

2. To analyze experimental data and a theoretical understanding of animal physiology via the production of scientific reports.

3. To understand the process of Temperature regulation.

4. To understand the Endocrine system and Mechanism of hormone action.

5. To evaluate the animal behavior of different forms of life.

8

BBT 208

Plant Physiology

After completion of syllabus the students will able to:

1. Impart an insight into the various plant water relations (Understanding).

2. Take students to higher levels of learning about the mineral nutrition in plants.

3. Understand the mechanism of various metabolic processes in plants (Analyze).

4. Acquire basic knowledge about growth and development in plants.

9

BBT 209

Enzymes and Enzymes technology

This course is designed to provide the knowledge of:
1) importance of enzymes in biological system as well as their exploitation in industrial processes
2) nomenclature, classification, kinetics and regulation of enzymes
3) immobilization techniques and various industrial applications.

B. Sc Biotechnology III Year

S.No.

Paper Code

subject Name

Outcome

1

BBT 301:

Plant Biotechnology

1. This course is designed to provide the knowledge about how plants can be developed in vitro.
2. Students can understand different strategies of tissue culture like clonal propagation, protoplast culture, somatic hybridization, embryo culture, haploid production, organ and tissue culture.
3. Students can also know about production of transgenic and different transgenic plants.
4. Students can exhibit clear and concise communication of scientific data and can engage in review of scientific literature in the areas of plant biotechnology

2

BBT 302:

Animal Biotechnology

After completion of the course the students will learn:
1) Basic cell culture techniques and Types and ingredients of cell culture media
2) Development, Characterization and maintenance of Cell lines and stem cells; Overproduction and processing of cloned proteins
3) Techniques of in vitro fertilization and embryo transfer, Cryopreservation of embryo
4) Tissue engineering and Gene therapy

3

BBT 303:

Molecular Virology

After completion of the course the students will learn:
1) Structure and Classification of animal viruses and plant viruses
2) Genome organization of animal viruses
3) Methods to diagnose animal virus infections
4) Methods to study plant viruses- DNA and oligonucleotide microarray

4

BBT 304:

Nanobiotechnology

1) Describe the basic science behind the properties of materials at the nano level scale

2) Describe the principles behind advanced experimental and computational techniques for studying nanotechnology

3) Understand the theoretical and practical knowledge related to modern materials and nanotechnology.

4) Justify the usage of nanomaterial in modern scientific world.

5) Systematically solve scientific problems related specifically to nanotechnological materials

5

BBT 305:

Environmental Biotechnology

After completion of the course the students will learn:
1) Renewable and non-renewable resource, modern fuels and their impact
2) Commercial production of biofertilizers, formulations and BIS specifications
3) Bio-assessment of environmental quality, SCP, bioremediation, phytoremidiation
4) treatment of municipal wastes and industrial effluents, degradation of pesticides and other toxic chemicals

6

BBT 306:

Industrial Biotechnology

1. To recall and recognize industrially potent strains.

2. To explain ideas or concepts related to the industrial bio-processing .

3. To teach students the basic principles of processing of bioproducts from biological resources in the areas Industrial Biotechnology.

4. To equip students with skills on recent Methodologies and practice in industrial biotechnology.

5. To expose students to relevant and recent advances in industrial biotechnology.

7

BBT 307:

Genomics & Proteomics

After completing this course, students will be able to:

1. Describe the basic mechanism involved in Genomics and Proteomics.

2. The techniques that student’s study during this course are versatile and can be applied for illustration whenever gene, protein and cell research are used for the discovery of a new drug or a new herbicide/herbicide-resistant crop combination.

3. Basic knowledge of analysis of drug designing and toxicology, pharmacogenetics and clinical trial.

4. Techniques of this course can even be used to develop genetically engineer crops and livestock that have enhanced nutritional qualities and the ability to justify to produce pharmaceuticals.

8

BBT 308:

Biosafety, IPR& Entrepreneurship

After completion of this course students will be able :-

1. To tell about Intellectual property right and their role in Biotechnology.

2. To know about different bio safety levels, organizations playing role in bio safety of newly introducing species.

3. To understand about different bio safety measurements crucial in research and development.

4. To explain different statutory bodies and their working procedures in field of development of new plant varieties.

9

BBT 309:

Recent trends in Biotechnology

1. This course is designed to provide outline to advance knowledge of biotechnology to students.

2. The techniques that student’s study during this course are versatile and can be exemplify whenever gene, protein and cell research are used for the discovery of a new drug or a new herbicide/herbicide-resistant crop combination.

3. This course contains topics which are currently widely used in biotechnology and other allied areas.

4. The knowledge of various advance techniques studied during this course will appraise students gain a better knowledge of actual work on going in the field of biotechnology, which will help them to pursue a good carrier in biotechnology and allied fields.

 

Full time course spread over three years. This includes Bioinformatics, Biochemistry, Biostatstics and Bioinformatics, Computer Funtamentals, Genetics, Instrumentation, and Immunology, Cell and Molecular Biology, Genomics and Proteomics, Recombinant of DNA Technology, Plant Tissue Culture. Duration of the course: 03 Years.

Eligibility: Students who have passed 10+2, in Science with Biology/Maths, with a minimum of 55% marks for the general category, and 45% marks for OBC/SC/ST category shall be eligible to apply for admission.

Careers: Job opportunities in after B.Sc in biotechnology can join in pharma company or bioprocessing industries. This professional course opens up avenues for its graduates for self-employment as well as careers in, health care, and related industries. The course provides a strong foundation to enable the students for Master’s and Doctoral studies and research either in the same subject (Biotechnology) or other inter-disciplinary subjects like Microbiology, Biochemistry, Biomedical Sciences, Medical Biochemistry, Bioinformatics etc., in recognized universities round the globe.