Biotechnology

1. Introduction

Biotechnology uses living organisms or their components to develop useful products. Modern biotechnology relies on genetic engineering techniques to manipulate DNA.

1.1 History and Milestones

YearMilestoneScientist/Organisation
1972First recombinant DNA moleculePaul Berg
1973First plasmid cloning vectorCohen and Boyer
1978First human insulin gene expressed in E. coliGenentech
1982Humulin approved for human useEli Lilly
1983First transgenic plant (tobacco)Zambryski et al.
1990Human Genome Project beginsInternational consortium
1996Dolly the sheep clonedIan Wilmut
2003Human genome sequence completedHGP Consortium

2. Principles of Biotechnology

2.1 Genetic Engineering

Direct manipulation of an organism's genome using recombinant DNA technology. Involves:

  • Identification of a gene of interest.
  • Insertion into a vector.
  • Introduction into a host organism.
  • Expression of the gene.

2.2 Core Techniques

  1. Restriction enzymes: Cut DNA at specific recognition sites (palindromic sequences).
  2. DNA ligase: Joins DNA fragments (seals the sticky ends).
  3. Vectors: Vehicles to carry foreign DNA (plasmids, bacteriophages, YACs, BACs).
  4. PCR: Amplifies specific DNA sequences.
  5. Gel electrophoresis: Separates DNA fragments by size.

3. Tools of Biotechnology

3.1 Restriction Enzymes

Recognize palindromic sequences (4-8 bp). Cut to produce sticky ends or blunt ends.

Example: EcoRI cuts GAATTC between G and A.

3.2 Cloning Vectors

Plasmid: Small, circular extrachromosomal DNA. Features:

  • Origin of replication (ori): Replication control.
  • Selectable marker: Antibiotic resistance (ampR, tetR).
  • Cloning site: Multiple cloning site (MCS) with unique restriction sites.

Bacteriophage: Lambda phage, M13 phage.

BAC and YAC: For large DNA inserts (used in genome sequencing).

3.3 Polymerase Chain Reaction (PCR)

Amplifies a specific DNA region exponentially. Uses:

  • DNA template
  • Primers (two, forward and reverse)
  • Taq polymerase (thermostable, from Thermus aquaticus)
  • dNTPs
  • Buffer with Mg²⁺

Cycles: Denaturation (95°C) → Annealing (50-65°C) → Extension (72°C). 30 cycles give ~1 billion copies.

4. Applications of Biotechnology

4.1 Bt Cotton (Insect Resistance)

Bt toxin gene from Bacillus thuringiensis inserted into cotton. Produces cry proteins that kill bollworms.

4.2 Insulin Production (Humulin)

Human insulin gene inserted into E. coli. Produces proinsulin, which is processed into active insulin. First recombinant DNA therapeutic approved for human use (1982).

4.3 Gene Therapy

Correction of genetic disorders by introducing functional genes. Example: SCID (severe combined immunodeficiency) treated with ADA gene therapy.

4.4 GMOs

Genetically modified organisms: Bt brinjal, Golden Rice (β-carotene enriched), Flavr Savr tomato.

5. Ethical Issues

  • Safety of GMOs for human consumption and environment.
  • Patenting of genes and organisms.
  • Gene editing (CRISPR) in human embryos.
  • Biopiracy and benefit sharing.

6. Worked Problems

Problem 1: A plasmid has a single EcoRI site. Foreign DNA cut with EcoRI is inserted. How can recombinants be identified? Solution: Use insertional inactivation of a marker gene (e.g., lacZ). Recombinants are white (blue-white screening).

7. Common Mistakes

'Students often confuse the roles of restriction enzymes and DNA ligase. Restriction enzymes cut DNA. DNA ligase joins DNA fragments.'

8. ISC Exam Focus

TopicTheory MarksPractical Marks
Tools (enzymes, vectors, PCR)42
Applications (Bt, insulin)42
Gene therapy21
Ethical issues21

9. Self-Test Questions

  1. Describe the structure and features of a cloning vector.
  2. Explain the principle and steps of PCR. Why is Taq polymerase used?
  3. How is genetically engineered insulin produced? Why is it better than animal-derived insulin?
  4. What are the advantages and concerns of genetically modified crops?
  5. Write a short note on the use of restriction enzymes in recombinant DNA technology.
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