M.Sc. (Stem Cell Science and Technology)

Post Graduate Programmes

APPLY NOW 2019 Admissions

Program Code 10880

Course Overview

  • Campus
  • Noida
  • Institute
  • Amity Institute of Molecular Medicine & Stem Cell Research
  • University
  • Amity University Uttar Pradesh
  • Program Code
  • 10880
  • Eligibility
  • Bachelor's degree in Biomedical Sciences/ Molecular biology/Biotechnology/Microbiology/ Biochemistry/ Physiology/Genetics/Molecular Medicine /Chemistry/ Pharmacy and allied subjects (min 60%) or MBBS/BDS (min. 50%) & 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 students shall be able to develop specialized theoretical and practical knowledge in stem cell science and allied areas
  • The students shall be able to develop in-depth understanding of tissue regeneration
  • The students shall be able to develop ability for analyses and interpretation of scientific data to solve technical, conceptual and abstract scientific problems using modern IT tools
  • The students shall be able to facilitate ability to develop research projects related to various aspects of stem cells
  • The students shall be able to develop effective communication skills to author articles, reports and reviews in order to disseminate technical knowledge and information
  • The students shall be able to develop effectively as an individual as well as a member in a team
  • The students shall be able to solve problems in this specific area of life sciences and by contributing to society exemplify the role of a Global citizen
  • The students shall be able to develop an understanding of ethical conduct of stem cell research
  • The students shall demonstrate applicability of their learning for sustainability and environmental responsibility
  • The student shall be able to integrate advancement of research at the National level with the International level
  • The student shall demonstrate applicability of their learning for sustainability and environmental responsibility
  • The students shall demonstrate capabilities to integrate theory and practice for applied research to develop novel products, processes and technologies in related areas
  • The student will develop theoretical and practical knowledge in all aspects of stem cells
  • The student will develop in-depth understanding of stem cells and their applications
  • The student will develop an ability to evaluate and interpret range of complex technical, conceptual or abstract problems related to stem cells using IT tools
  • The student will develop awareness of research principles and technical skills to plan independent stem cell research. Evaluate and interpret results for advancement of science.
  • The student will develop effective communicate in order to author articles, reports and reviews in order to disseminate technical information
  • The student will demonstrate working as individuals and flexibly within a team with effectiveness and responsibility.
  • The students will solve problems in this specific area of life sciences and by contributing to society exemplify the role of a Global citizenlearning.
  • The student will develop appreciation of ethical standards and issues related to stem cell research and their practice in clinical applications.
  • The student will develop comprehension capability to integrate theory, appropriate research methods and technical information and apply to develop new products/technologies.
  • The student will develop the correct viewpoints on latest breakthroughs in stem cell science and be able to translate them confidently
  • The student will develop their abilities to recognize solutions for environmental and social impacts on sustainable approaches to complex problems.
  • The student will contribute to science, technology and society

Course Structure

  • 1st Year

Semester 1

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Cell Structure and Cell Signaling (PG) Core Courses 3 0 0 0 3.00 View
Gene Expression & Regulation (PG) Core Courses 3 0 2 0 4.00 View
Concepts in Biological Chemistry (PG) Core Courses 2 0 2 0 3.00 View
Microbiology in Human Health (PG) Core Courses 2 0 2 0 3.00 View
Human Pathophysiology (PG) Core Courses 3 0 2 0 4.00 View
Bio-organic and Medicinal Chemistry (PG) Core Courses 2 0 2 0 3.00 View
Instrumentation in Biomedicine (PG) Core Courses 1 0 2 0 2.00 View
IPR & bioethics in Biomedical Sciences (PG) Core Courses 1 0 0 0 1.00 View

Semester 2

Course Title Course Type Credit L T PS SW Total Credits Syllabus
Animal Cell Culture & Cell Engineering (PG) Core Courses 2 0 2 0 3.00 View
Genome Engineering & Editing (PG) Core Courses 2 0 0 0 2.00 View
Basic & Applied Immunology (PG) Core Courses 3 0 2 0 4.00 View
Molecular Oncology-I (PG) Core Courses 3 0 0 0 3.00 View
Stem Cell Biology - I (PG) Core Courses 2 0 0 0 2.00 View
Biomedical Toxicology (PG) Specialisation Elective Courses 3 0 0 0 3.00 View
Medical Genetics & Cytogenetics (PG) Core Courses 3 0 2 0 4.00 View
Concepts in Systems Biology (PG) Specialisation Elective Courses 2 0 0 0 2.00 View
Topics in Bioinformatics (PG) Specialisation Elective Courses 1 0 2 0 2.00 View
Drug Delivery and Metabolism (PG) Specialisation Elective Courses 3 0 0 0 3.00 View
Statistics & its Applications in Biomedicine (PG) Specialisation Elective Courses 2 0 0 0 2.00 View