PROGRAMME OUTCOMES
PO1: Analytical ability: Dissect and analyse the content/issue with the acquired knowledge and able to interpret.
PO2: Communication Skills: communicate well by virtue of the regular practical implementation.
PO3: Logical thinking and problem solving: Logical thinking to forego in the subject content.
PO4: Life skills and Decision making: proceed to take the decisions with the attained knowledge and sustains well in the societal life.
PO4: Research interests: Enlightened practical experience lays path to move towards Research and development.
PO5: Self-employment: look up to the ways, manage and create the platform of employability skills.
PO6: Extensive soundness: think innovatively with the knowledge in the inter disciplinary fields and creates enthusiasm towards research/ logical thinking.
PO7: ways of reaching success: find the various paths of reaching success with the experiences.
COURSE OUTCOMES
COURSE 1: INTRODUCTION TO CLASSICAL BIOLOGY
Learning Outcomes
1. Learn the principles of classification and preservation of biodiversity.
2. Understand the plant anatomical, physiological and reproductive processes.
3. Knowledge on animal classification, physiology, embryonic development and their
economic importance.
4. Outline the cell components, cell processes like cell division, heredity and molecular processes.
5. Comprehend the chemical principles in shaping and driving the macromolecules and life processes.
COURSE 2: INTRODUCTION TO APPLIED BIOLOGY
Learning Outcomes
1. Learn the history, ultrastructure, diversity and importance of microorganisms.
2. Understand the structure and functions of macromolecules.
3. Knowledge on biotechnology principles and its applications in food and medicine.
4. Outline the techniques, tools and their uses in diagnosis and therapy.
5. Demonstrate the bioinformatics and statistical tools in comprehending the complex
biological data.
COURSE 3: BIOMOLECULES AND ANALYTICAL TECHNIQUES
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about classification, structure and properties of Carbohydrates, Proteins and Lipids.
2. Learn about structure and function of DNA, RNA, Vitamins and Bioenergetics.
3. Learn about basic principles of Centrifugation, Chromatography and Electrophoresis.
4. Learn about principles of Spectroscopy, Microscopy and Techniques.
5. Learn about basics of Biostatistics.
COURSE 4: MICROBIOLOGY, CELL BIOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about Scope and Techniques of Microbiology.
2. Learn about concept of Microbial species and strains,
3. Learn about cell structure and function.
4. Learn about cell signalling and control mechanisms.
5. Learn about genome organization of prokaryotic and eukaryotic organisms.
COURSE 5: PLANT AND ANIMAL BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about plant tissue culture techniques and secondary metabolites production.
2. Learn about transgenesis and molecular markers.
3. Learn about animal tissue culture techniques
4. Learn about transgenic animals and gene therapy.
5. Learn about Bioethics, Biosafety and IPR.
COURSE 6: MOLECULAR BIOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about genome structure and organization.
2. Learn about mechanism and enzymes of DNA replication.
3. Learn about enzymatic synthesis and features of transcription.
4. Learn about regulation of gene expression.
5. Learn about genetic code and protein synthesis.
COURSE 7: GENETIC ENGINEERING
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about the history and tools of genetic engineering
2. Learn about vectors used in genetic engineering
3. Learn about Hybridization techniques
4. Learn about vectors and their screening techniques
5. Learn ab out gene editing tools.
COURSE 8: METABOLISM
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about Carbohydrate metabolism
2. Learn about Lipid metabolism
3. Learn about Amino Acid metabolism
4. Learn about nomenclature and specificity of enzymes
5. Learn about enzyme kinetics of enzyme.
COURSE 9: IMMUNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about types of immunity and cells of immunity
2. Learn about Antigen and Antibody
3. Learn about cell, humoral immunity and MHC molecules
4. Learn about Hypersensitivity and vaccines
5. Learn about immunological techniques.
COURSE 10: BIOINFORMATICS AND BIOSTATISTICS
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about concept and branches of bioinformatics
2. Learn about searching sequences using databases
3. Learn about computer phylogenetics
4. Learn about the measurement of central tendency
5. Learn about test hypothesis.
COURSE 11: MEDICAL BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about diseases caused by microbial sources
2. Learn about epidemiology, pathogenicity, laboratory, diagnosis, prevention and control of
bacterial diseases
3. Learn about fungal, viral and protozoan diseases
4. Learn about gene therapy and vectors used i n gene therapy
5. Learn about drug discovery, therapeutic applications.
COURSE 12: INDUSTRIAL BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about industrially important microorganisms
2. Learn about bioreactor and it types
3. Learn about production of different substances through fermentation
4. Learn about industrially enzymes
5. Learn about industrially produced amino acids and vitamins.
COURSE 13: FOOD & NUTRITIONAL BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about food Pre servation and microorganisms associated with it
2. Learn about packaging of different foods
3. Learn types of Foods and their nutritional values
4. Learn about components of foods and their deficiency disorders
5. Learn about Essential minerals, BMR and RDA.
COURSE 14: GENE BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn a bout history and concept of genetic material
2. Learn about Mendel laws and their deviations
3. Learn about chromosome alterations and mutations
4. Learn about microbial genetics
5. Learn about banding techniques.
COURSE 15: GENOMICS & PROTEOMICS
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about mapping techniques
2. Learn about sequencing analysis
3. Learn about ORF and Gene location
4. Learn about proteomics
5. Learn about determination of proteins.
COURSE 16: NANOTECHNOLOGY & PHARMACEUTICAL BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about concept and types of nanoparticles
2. Learn about methods of nanobiotechnology
3. Learn about bio nanoelectronics and applications of nanobiotechnology
4. Learn about Pharmacology and drugs &its types
5. Learn about tissue engineering and production of biological substances.
COURSE 17: APPLICATIONS OF BIOTECHNOLOGY
LEARNING OUTCOMES
On successful completion of the course, the students will be able to
1. Learn about concept of culturing of stem cells and tissues
2. Learn about Applications of recombinant DNA technology
3. Learn about Intellectual Property Rights and Patenting issues
4. Learn about energy resources
5. Learn about Microbial treatment and degradation.