M.Sc. (Biotechnology)

Post Graduate Programmes

APPLY NOW 2019 Admissions

Program Code 10002

Course Overview

  • Campus
  • Noida
  • Institute
  • Amity Institute of Biotechnology
  • University
  • Amity University Uttar Pradesh
  • Program Code
  • 10002
  • Eligibility
  • B. Sc in Life Sciences (min 60%) & 10+2 (min 60%). Eligibility will be relaxed by 5% for Sponsored category at 10+2 level.

  • Duration
  • 2 years
  • 1st Year Non Sponsored Semester Fee (Rs. in Lacs)
  • 0.76
  • 1st Year Sponsored Semester Fee (Rs. in Lacs)
  • 1.14
 
  • Fee Structure
  • Program Educational Objectives
  • Program Learning Outcomes
1st Year Non Sponsored Semester Fee (Rs. in Lacs) : 0.76
1st Year Sponsored Semester Fee (Rs. in Lacs) : 1.14
  • The student shall be able to develop knowledge and skills to attain academic excellence in the field of Biotechnology.
  • The student shall demonstrate research skills to conduct research in the thrust areas of Biotechnology to benefit the society.
  • The student shall be able to use and apply modern IT tools to analyze the biological data to arrive at logical conclusions.
  • The student shall be able to analyze and interpret scientific data to solve technical, conceptual and abstract scientific problems.
  • The student shall be able to develop effective communication skills to disseminate technical information and ability to write effective reports and reviews for scientific journals.
  • The student shall be able to demonstrate effectiveness and responsibility as an individual as well as in a team while maintaining accountability and output.
  • The student shall be able to develop global citizenship skills to build a sustainable world community.
  • The student shall be able to interpret principles of ethics and apply them to develop sensitivity towards various social and cultural issues of the society.
  • The student shall be able develop networking and entrepreneurship skills and establish links with industry and alumni.
  • The student shall be able to create the virtue of lifelong learning.
  • The student shall be able to create and develop thought process for environmental preservation by developing environmentally sustainable technologies.
  • The student shall be able to integrate various aspects of biotechnology to achieve holistic and societal development.
  • The student will apply knowledge to develop critical thought and practical understanding of in the field of Biotechnology to find solutions for human benefits.
  • The student will identify, formulate, research literature, review existing knowledge and analyze complex molecular and biochemical problems to reach substantiated conclusions using principles of biology.
  • The student will apply modern IT tools for acquisition and analysis of biological data.
  • The student will demonstrate awareness of research principles and technical skills to plan independent Biotechnology research projects.
  • The student will develop appropriate level of communication skills to effectively disseminate research and technical information and shall be able to summarize scientific results; write effective reports and reviews in scientific journals.
  • The student will demonstrate the ability to work independently as individuals and flexibly within a team with effectiveness and responsibility.
  • The student will build skills to evolve into a responsible global citizen.
  • The student will develop sensitivity to environmental issues and concerns and shall understand principles of ethics within the framework and apply these principles for environmentally and culturally sensitive issues.
  • The student will apply management principles to manage one’s own work and/or projects and ventures.
  • The student will organize the role of personal development, self-directed study and discovery in learning to develop life-long learning.
  • The student will develop appreciation for nature and the need for its preservation and conservation and demonstrate care for the environment by development of environmentally sustainable technologies.
  • The student will develop the capability to integrate theory, technical information and appropriate research methods for the benefit of society.

Course Structure

  • 1st Year
  • 2nd Year

Semester 1

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Advanced Biochemistry (PG) Core Courses 3 0 2 0 4.00 View
Molecular Cell Biology (PG) Core Courses 3 0 2 0 4.00 View
Advanced Genetics (PG) Core Courses 3 0 2 0 4.00 View
Advance Molecular Biology (PG) Core Courses 3 0 2 0 4.00 View
Advanced Microbiology (PG) Core Courses 3 0 2 0 4.00 View
Regulatory Affairs, Biosafety Regulations, IPR and Technology Transfer (PG) Core Courses 3 0 0 0 3.00 View

Semester 2

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Advance Plant Biotechnology (PG) Core Courses 3 0 2 0 4.00 View
Advanced Animal Biotechnology (PG) Core Courses 3 0 2 0 4.00 View
Advanced Recombinant DNA Technology (PG) Core Courses 3 0 2 0 4.00 View
Comprehensive Bioanalytical Techniques (PG) Core Courses 2 0 2 0 3.00 View
Applied Biostatistics for Biotechnologists (PG) Core Courses 2 0 0 0 2.00 View
Bioinformatics (PG) Specialisation Elective Courses 3 0 2 0 4.00 View
Environmental Technology (PG) Specialisation Elective Courses 3 0 2 0 4.00 View
Advanced Bioprocess Technology (PG) Specialisation Elective Courses 2 0 2 0 3.00 View
Neutraceuticals (PG) Specialisation Elective Courses 2 0 0 0 2.00 View
Occupational Risks and Management (PG) Specialisation Elective Courses 3 0 0 0 3.00 View
Advanced Cancer Biology (PG) Specialisation Elective Courses 2 0 0 0 2.00 View

Semester 3

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Advanced Immunology (PG) Core Courses 3 0 2 0 4.00 View
Enzymes and Enzyme Technology (PG) Core Courses 3 0 2 0 4.00 View
Applied Genomics and Proteomics (PG) Specialisation Elective Courses 3 0 2 0 4.00 View
Plant Secondary Metabolite Technology (PG) Specialisation Elective Courses 2 0 2 0 3.00 View
Advanced Downstream Processing (PG) Specialisation Elective Courses 2 0 2 0 3.00 View
Breeding: Concepts and its Role in Genetic Improvement (PG) Specialisation Elective Courses 3 0 0 0 3.00 View
Antimicrobial Resistance: Mechanism and Management (PG) Specialisation Elective Courses 0 0 0 0 0.00 View
Clinical Data Management (PG) Specialisation Elective Courses 2 0 0 0 2.00 View
Summer Internship (PG) Non Teaching Credit Courses 0 0 0 0 3.00 View

Semester 4

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Dissertation (PG) Non Teaching Credit Courses 0 0 0 0 19.00 View