Unit 1: Microbes

Table of Contents

Viruses: Characteristics and Importance
T-phage and TMV Structure
Lytic and Lysogenic Cycles
Bacteria: Characteristics and Importance
Bacterial Cell Structure
Reproduction in Bacteria

Viruses: Characteristics and Importance

Viruses are ultramicroscopic, non-cellular organisms that exist at the threshold between living and non-living worlds. They are obligate intracellular parasites, meaning they can only replicate inside a living host cell.

Key Characteristics

Acellular Structure: They lack a cellular organization and cytoplasm.
Genetic Material: They contain either DNA or RNA, but never both, surrounded by a protein coat called a capsid.
Metabolic Inertness: Outside a host cell, they are inert and can be crystallized like non-living matter.

Economic Importance

Viruses play a dual role in our world, primarily known for causing diseases but also having beneficial applications:

Harmful: They cause severe diseases in plants (e.g., Mosaic disease), animals (e.g., Rabies), and humans (e.g., Influenza, HIV).
Beneficial: Used as vectors in genetic engineering to transfer genes. Bacteriophages are used to control harmful bacterial populations (phage therapy).

T-phage and TMV Structure

T-phage (Bacteriophage)

T-phages are viruses that infect bacteria, specifically E. coli.

Structure: They typically have a "tadpole" shape with a head and a tail.
Head: A protein capsid containing the double-stranded DNA.
Tail: A complex structure used for attaching to the host and injecting the viral DNA.

Tobacco Mosaic Virus (TMV)

TMV was the first virus to be discovered and primarily infects tobacco plants.

Structure: It is a rod-shaped virus.
Composition: It consists of a single-stranded RNA molecule spirally coiled and enclosed in a cylindrical protein coat made of capsomeres.

[Image of Tobacco Mosaic Virus (TMV) structure]

Lytic and Lysogenic Cycles

These are the two primary mechanisms by which viruses replicate within a host cell.

Lytic Cycle

In the lytic cycle, the virus takes over the host's machinery to produce new viruses, eventually causing the host cell to burst (lyse).

Adsorption: Attachment of virus to the host cell surface.
Penetration: Injection of viral genetic material into the host.
Biosynthesis: Viral DNA directs the host cell to produce viral components.
Maturation: Assembly of new viral particles.
Lysis: Release of new viruses by breaking the host cell.

[Image of lytic cycle of a bacteriophage]

Lysogenic Cycle

In the lysogenic cycle, the viral DNA integrates into the host's chromosome and remains dormant as a "prophage".

The viral genome is replicated along with the host's DNA during cell division.
The prophage can be triggered by environmental stress to enter the lytic cycle.

[Image of lysogenic cycle of a bacteriophage]

Bacteria: Characteristics and Importance

Bacteria are prokaryotic, microscopic, unicellular organisms found in almost every environment on Earth.

General Characteristics

Prokaryotic: They lack a well-defined nucleus and membrane-bound organelles.
Nutrition: Diverse nutritional groups including autotrophs and heterotrophs.

Economic Importance

Beneficial: Nitrogen fixation in soil (e.g., Rhizobium), antibiotic production (e.g., Streptomyces), and fermentation in food industry (e.g., Lactobacillus).
Harmful: Pathogenic bacteria cause diseases like Tuberculosis, Tetanus, and Citrus Canker.

Bacterial Cell Structure

The bacterial cell is characterized by a relatively simple but highly efficient organization.

Cell Wall: A rigid outer layer typically composed of peptidoglycan, providing shape and protection.
Cytoplasmic Membrane: Regulates the passage of materials in and out of the cell.
Nucleoid: A region containing the circular, double-stranded DNA molecule.
Flagella: Hair-like structures used for locomotion (in some species).
Pili/Fimbriae: Used for attachment to surfaces or other cells during conjugation.

[Image of bacterial cell structure]

Reproduction in Bacteria

Bacteria reproduce primarily through asexual methods but can also exchange genetic material.

Vegetative and Asexual Reproduction

Binary Fission: The most common method where a single cell divides into two identical daughter cells.
Endospore Formation: Production of highly resistant spores under unfavorable conditions for survival.

Genetic Recombination

While not true sexual reproduction, these processes lead to genetic diversity:

Conjugation: Direct transfer of DNA between two bacteria via a conjugation tube or pilus.
Transformation: Uptake of "naked" DNA from the surrounding environment.
Transduction: Transfer of bacterial DNA from one cell to another by a bacteriophage.

Exam Tips

Viral Comparison: Be ready to compare the Lytic and Lysogenic cycles; use a diagram to illustrate the differences.
Bacterial DNA Transfer: Clearly distinguish between Conjugation (cell-to-cell contact), Transformation (environment), and Transduction (viral vector).
Economic Importance: Always mention both the positive (biotechnology, nitrogen fixation) and negative (diseases) aspects.

Common Mistakes

Thinking viruses can grow on artificial media; they MUST have a living host.
Confusing the rod-shaped structure of TMV with the tadpole shape of T-phages.

Frequently Asked Questions (FAQ)

Q: What is a prophage?
A: It is the viral DNA that has integrated into the bacterial host's chromosome during the lysogenic cycle.

Q: Why are endospores significant?
A: They allow bacteria to survive extreme heat, chemicals, and radiation for very long periods until conditions improve.