B.Tech Genetic Engineering Syllabus and Subjects

Duration: 4 Years
Avg Fees: ₹2 - 10 LPA

B.Tech Genetic Engineering syllabus is designed to provide extensive knowledge to students on topics such as Molecular Biology, Microbiology, Biochemistry, Cell Biology Biostatistics, etc. B.Tech Genetic Engineering course equips students with in-depth knowledge of the field by offering advanced learning in genetics, biotechnology, and other applied science topics. 

B.Tech Genetic Engineering Job scope provides a room of opportunities for students to get adequate exposure in the medical and pharmaceutical industries, and research and development departments. 

Table of Contents

Semester Wise B.Tech Genetic Engineering Syllabus

The B.Tech Genetic Engineering syllabus is divided into eight semesters, each lasting six months. At the conclusion of each semester, an external examination that includes both theoretical and practical components is held. The B.Tech Genetic Engineering semester-by-semester syllabus is provided below.

B.Tech Genetic Engineering First Year Syllabus

The table below contains the list of B.Tech Genetic Engineering syllabus for the first year:

Semester I

Semester II

Engineering Mathematics-I

English – II

Engineering Physics – I

Engineering Mathematics - II

Engineering Chemistry - I

Engineering Physics - II

Cell Biology

Engineering Chemistry - II

Fundamentals of Computing and Programming

Internet Programming

Personality Development

Foreign/Indian language

Basic Civil engineering

Principles of genetics

Basic Mechanical Engineering

Basic Electrical and Electronics Engineering

Basic civil and mechanical Engineering practice lab Computer Practice Lab

Internet Practices lab

Practical

Computer Practices lab

Physics And Chemistry lab

Basic Electrical and Electronics Engineering Practices Lab

-

Physics and Chemistry Lab II

B.Tech Genetic Engineering Second Year Syllabus

The table below contains the list of B.Tech Genetic Engineering syllabus of the second year:

Semester III

Semester IV

Enzyme Technology

DNA Technology

Principles of Genetic Engineering

Molecular Biology

Immunology

Environmental studies

Microbiology

Genomics and Proteomics

Principles of Biochemistry

Bio-organic chemistry

Biostatistics

Basics of Bio-informatics

Practical

Practical 

Microbiology Laboratory

Molecular Biology Lab

Biochemistry Laboratory

Cell Biology Lab

B.Tech Genetic Engineering Third Year Syllabus

The table below contains the list of B.Tech Genetic Engineering syllabus of the third year:

Semester V

Semester VI

Principles of Management and ethics

Agri, Veterinary and Medical informatics

Research Methodology

Bio-Pharmaceutical technology

Cytogenetics

Genes and Diseases

Metabolic engineering

Gene Therapy

Biophysics

Cancer Biology

Elective-I

Elective-II

Practical

Practical

Immunology Laboratory

Gene Cloning 0 0 4 2 Laboratory

Plant Genetic Engineering Laboratory

Bioinformatics Laboratory

Mini Project-II

-

B.Tech Genetic Engineering Fourth Year Syllabus

The table below contains the list of B.Tech Genetic Engineering syllabus of the third year:

Semester VII

Semester VIII

Biosafety, Bioethics, IPR & Patents

Elective –V

Animal Cell Culture and TransgenicTechnology

Elective – VI

Nanobiotechnology in Healthcare

Elective – VII

Stem Cell Biology

Practical

Elective-III

Project work

Elective- IV

-

Practical

-

Genome Analysis Laboratory

-

Animal Cell Culture Laboratory

-

B.Tech Genetic Engineering Subjects

The B.Tech Genetic Engineering courses cover a broad range of subjects with a focus on imparting in-depth knowledge on genetic engineering and related topics. B.Tech Genetic Engineering subjects aim to provide knowledge in various areas of study by including subjects such as Cytogenetics, Stem Cell Biology, Bio-Pharmaceutical technology, Biostatistics, Bio-organic chemistry, Biochemistry, Immunology, and Bioinformatics, etc. 

B.Tech Genetic Engineering Core Subjects

It is necessary for candidates to learn all of the B.Tech Genetic Engineering subjects over the course of the semesters in order to gain a thorough understanding of genetic engineering which will help students to learn the fundamentals of the course in an effective manner. The core subjects of B.Tech Genetic Engineering have listed below:

  • Cell Biology
  • Principles of genetics
  • Enzyme Technology
  • rDNA Technology
  • Molecular Biology
  • Biochemistry
  • Immunology
  • Microbiology
  • Biostatistics
  • Genetics and Cytogenetics
  • Bioinformatics

B.Tech Genetic Engineering Elective Subjects

B.Tech Genetic Engineering syllabus includes various elective subjects in the course framework which helps them to learn the fundamentals of genetic engineering with in-depth knowledge. The aim of including elective subjects in the course is to provide wholesome information and insights on genetic engineering and similar areas of study which will help the students to get maximum output from a course in terms of career growth and knowledge.

The top elective subjects for B.Tech Genetic Engineering are listed below:

  • Plant Physiology
  • Totipotency
  • Applied plant tissue culture
  • Bioinformatics
  • Crystallography
  • Biophysics
  • Human Genetics
  • Plant Genetic Engineering
  • Animal Cell Culture Techniques
  • Genetics and Cytogenetics
  • Biophysics and Bioprocess Engineering

B.Tech Genetic Engineering Course Structure

The course structure for the B.Tech Genetic Engineering comprises a wide range of subjects that helps students to gain the necessary knowledge to grow in the field of genetic engineering and applied science. The course is an undergraduate course that lasts four years and is broken up into eight semesters. The format of the course is

  • VIII Semesters
  • Core Subjects
  • Elective Subjects
  • Specialisation
  • Projects

B.Tech Genetic Engineering Teaching Methodology and Techniques

One of the methodologies and learning approaches used in the B.Tech Genetic Engineering course is lecture method training. Students can ask questions and get answers in the classroom using traditional teaching methods.

Professors can incorporate the applications of the course into their teaching through a variety of project training. All of the infrastructure and amenities are accessible to the students who are enrolled in the course given to the teaching strategies and methodologies that have been developed for it. The typical teaching methods are listed below:

  • Lectures
  • Class Participation
  • Practical Sessions
  • Technical Seminars
  • Practicals
  • Case Study
  • Group Discussions
  • Lab Training
  • Traditional Classroom Learning

B.Tech Genetic Engineering Projects

The B.Tech Genetic Engineering programme offers a wide range of projects every semester that are related to the subjects and practicals. This allows students to gain a deep understanding of the subject matter while also demonstrating a high level of competence that will expand their range of career options.

Some of the projects include:

  • Genetically Modified Organisms
  • Molecular Scissors
  • Transforming Bacteria to Make Colored Pigments

B.Tech Genetic Engineering Books

Books are an excellent investment for students pursuing a B.Tech Genetic Engineering because they can help them learn in-depth information about their area of specialisation. The students' use of books as a source of information can help them learn more about a variety of topics. The reference books are available for purchase, download, or library rental by students.

The following is a list of some of the well-liked B.Tech Genetic Engineering course books that students can purchase:

Name of the Book

Author

“Basic Electrical Engineering”. Tata McGraw Hill Edition, New Delhi, 1990.

N.Mittle

Enzymes

Trevor palmer

Principles of Gene Manipulation and Genomics,

Sandy B. Primrose, Richard M. Twyman

Fundamentals of Mathematical Statistics, Sultan Chand and Sons, New Delhi,2003

S.C.Gupta&V.K.Kapoor

B.Tech Genetic Engineering Fee Structure

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