1. General Animal Biology
Zoology 109 course
General Animal Biology
For Premedical Student
Zoology Department
Lecture 5: Prokaryotic Cell
(Bacteria and Archaea) H

2. A)- Prokaryotes

3. Objectives What are Prokaryotes? Domain: Archaea Domain: Bacteria
Prokaryotic Cell
Shapes of Bacteria
The Gram’s stain.
Cell-Surface Structures
Major Nutritional Modes

4. What are Prokaryotes?
It includes two Major Domains: Archaea and Bacteria
Prokaryotes are single-celled organisms that do not have a membrane-bound nucleus, and can live in nearly every environment on Earth.
Although tiny, prokaryotes differ greatly in their genetic traits, their modes of nutrition, however, their habitats are similar.
Based on genetic differences, prokaryotes are grouped in two domains: Domain Archaea and Domain Bacteria.

5. 1. Domain: Archaea
Archaea are extremophiles, of extreme environments and can be classified into:
a)- Extreme halophiles:
live in such saline places as the Great Salt Lake and the Dead Sea.
Some species require an extremely salty environment to grow.
b)- Extreme thermophiles live in hot environments.
The optimum temperatures for most thermophiles are °C.

6. 2. Domain: Bacteria
Bacteria occur in many shapes and sizes. Most bacteria have one of three basic shapes: rod-shaped, sphere-shaped, or spiral-shaped.

7. Prokaryotic Cell Plasma membrane Cell Wall Capsule Ribosomes Nucleoid
Cytoplasm (Cytosol)

8. Shapes of Bacteria
Bacteria occur in many shapes and sizes. Most bacteria have one of three basic shapes: rod-shaped, sphere-shaped, or spiral-shaped.
Spiral shaped bacteria in the form of spirilla (singular, spirillum) or vibrio (comma like).
Sphere-shaped bacteria are called cocci (singular, coccus). An example of cocci is Micrococcus luteus. Cocci that form chains similar to a string of beads are called streptococci.
Rod-shaped bacteria are called bacilli (singular, bacillus). An example of bacilli is Escherichia coli.

9. The Gram’s stain A)- Gram-positive (Gram +ve) bacteria:
It is a tool for identifying bacteria, based on differences in their cell walls.
A)- Gram-positive (Gram +ve) bacteria:
Their cell walls have large amounts of peptidoglycans that react with Gram’s stain (appear violet-stained).

10. The Gram’s stain
B)- Gram-negative (Gram -ve) bacteria:
their cell walls have no or small amount of peptidoglycan. So, do not react or very weakly react with Gram’s stain (appear red-stained)

11. The Gram’s stain Gram Stain
Most species of bacteria are classified into two categories based on the structure of their cell walls as determined by a technique called the Gram stain.
Gram-positive bacteria have a thick layer of peptidoglycan in their cell wall, and they appear violet under a microscope after the Gram-staining procedure.
Gram-negative bacteria have a thin layer of peptidoglycan in their cell wall, and they appear reddish-pink under a microscope after the Gram-staining procedure.

12. Gram Staining of Bacteria
Gram +ve bacteria: have Large amount of peptidoglycan that stained violet.
Gram –ve bacteria: Have small amount or no peptidoglycan stained red.
Most Gram-negative species are pathogenic more threatening than gram-positive species.
Gram-negative bacteria are commonly more resistant than gram-positive species to antibiotics.

13. I - the bacterial capsule
Many prokaryotes (bacteria) secrete a sticky protective layer called capsule outside the cell wall.
Capsule has the following functions:
Adhere bacterial cells to their substratum.
Increase bacterial resistance to host defenses.
Stick bacterial cells together when live in colonies.
Protect bacterial cell.

14. II - The bacterial cell wall
In all prokaryotes, the functions of the cell wall are as following:
maintains the shape of the cell,
affords physical protection
prevents the cell from bursting in a hypotonic environment.
Most bacterial cell walls contain peptidoglycan (a polymer of modified sugars cross-linked by short polypeptides).
The walls of Archaea lack peptidoglycan.

15. Structural Characteristics of a Bacterial Cell

16. Reproduction of Bacteria
Prokaryotes reproduce only asexually by binary fission.
A single cell produces a colony of offspring.

17. Nutrition of Prokaryotes
Nutrition refers to how an organism obtains energy and a carbon source from the environment to build the organic molecules of its cells.
Prokaryotes are grouped into four categories according to how they obtain energy and carbon

18. Nutrition of Prokaryotes
Phototrophs: Organisms that obtain energy from light.
Chemotrophs: Organisms that obtain energy from chemicals in their environment.
Autotrophs: Organisms that use CO2 as a carbon source.
Heterotrophs: Organisms that use organic nutrients as a carbon source.

19. There are four major modes of nutrition
Photoautotrophs :
use light energy as an energy source, and CO2 as a carbon source to synthesize organic compounds.
Chemoautotrophs:
use chemical inorganic substances as an energy source, and CO2 as a carbon source.
Photoheterotrophs:
use light as an energy source, and organic substances as carbon sources.
Chemoheterotrophs:
use organic substances as a source for both energy and carbon.

21. Prokaryotic modes of nutrition
Based on Carbon source and Energy source that can be used by a prokaryotic organism to synthesize organic compounds.
Prokaryotes
Autotrophs
Heterotrophs
CO2 as Carbon Source
Organic compounds as Carbon Source
Photo-autotroph
Chemo-autotroph
Photo-Heterotroph
Chemo-Heterotroph
- Light as energy source
-CO2 as C source
- Chemicals as energy source
-CO2 as C source
- Light as energy source
-Organic compounds as C source
- Chemicals as energy source
- Organic compounds as C source

22. Reference

23. Thank you