Bacteria : Forms

1. On the basis of shape, bacteria may be cocci (Singular coccus), Bacilli (Bacillus), Vibrio, Spirillum etc. Cocci are spherical bacteria, smallest in size. They may be single (monoococucus), in pairs (Diplococcus), in chains (streptococcus), in bunches (staphylococcus) or cuboid (sar cinnae). Bacteria causing pneumonia are Diplococcus Bacilli are rod shaped bacteria they may be single or in chains (Streptobacilli). Majority of parasitic bacteria are rod shaped bacteria. Streptobacilli surrounded by mucilaginous sheath form Zoogloea. Vibro are comma shaped bacteria. Bacteria causing cholera are vibrio bacteria. Spirillum and spirochaete are zigzag spring like bacteria, Spirillum volutans is recognized as largest bacteria. The terms like coccus, bacillus, vibrio etc were coined by Mueller.
2. On the basis of cilia, a bacterial cell may be:

Atrichous : Bacterial cell without cilia.

Monotrichour : Bacteria cell with single cilia.

Lopotrichous : Bacteria cell with tuft of cilia at one end.

Cephalotrichous : Bacterial cell with tuft of cilia at both the ends.

Amphitrichous : Bacterial cell with one cilia at both the ends.

Peritrichous : Bacterial cell with cilia throughout the body.

Bacteria causing cholera disease is comma shaped & Lophotrichous.

3. On the basis of nutrition, bacteria may heterotrophy or autotroph. Heterotroph bacteria are further divided as saprophytic bacteria & parasitic bacteria. Similarly, autotroph bacteria are further divided as chemosynthetic and photosynthetic bacteria.
   • Bacteria, which obtain their food from dead organic matter, are saprophytic bacteria. They perform significant role of decomposers in ecosystem. Bacteria, which obtain their food from other living entity, are called parasitic bacteria. The living entity, which provides food to parasite, is termed as host. Host-parasite relation is specific. Parasite is called pathogen when it spreads in host.
   • Bacteria, which obtain their food through the inorganic reactions in which they participate, are called chemosynthetic bacteria. They are named after the inorganic reactions, us that they are involved. Thus, N-Bacteria S-Bacteria & Fe-Bacteria etc are examples of chemosynthetic bacteria. Chemosynthetic bacteria are basically autotroph but do not require pigment chlorophyll for energy requirement. Chemosynthetic bacteria will survive alone if chlorophyll pigment disappears from the world; rest will perish.
   • Bacteria, which obtain chemical energy through glucose formation, are called photosynthetic bacteria. They are autotrophs and depend on chlorophyll like pigments i.e., Bacteriochlorophyll & chlorobium chlorophyll (Bacterio viridies) for glucose formation. Green-S-Bacteria, Purple-S-Bacteria & Rhodospirillium etc. are examples of photosynthetic bacteria.

Comparison between normal and bacterial photosynthesis
Normal Photosynthesis	Bacterial Photosynthesis
1. Raw materials are CO2 & H2O	1. Raw materials are CO2 & H2S
2. H for reduction of CO2 into glucose comes from H2O	2. H- for reduction of CO2 into glucose comes from H2S.
3. Principal pigment is chlorophyll a	3. Principal pigment Bacteriochlorophyll a.
4. Intermediate H-acceptor is NADP	4. Intermediate H-acceptor is NAD.
5. PS I & PS II both are present in light phase.	5. PS I only is present in light phase; PS II is absent.
6. O2 is released as by product	6. S is released as by product
7. Biochemical reaction 6CO2 + 12H2O = C6H12O6+6H2O+6O2	7. Biochemical reaction. 6CO2 + 12H2O = C6H12O6+6H2O+12S
Generalised equation for both of the above 6CO2 + 12H2A = C6H12O6 + 6H2O + 12A A may be oxygen or sulfur.

Photosynthesis in bacteria was first studied by Van Neil of Germany who was first to support the idea of Robino Hill that O₂ released in normal photosynthesis comes from H₂O and not from CO₂.