Growth of Bacterial Cells Dr. Zaheer Ahmed Chaudhary Associate Professor Microbiology Department of Pathology Growth cycle Bacteria reproduce by binary fission i.e. one parent cell divides into two progeny cells. It is called exponential growth or logarithmic growth
1, 2, 4, 8, 16, 32 .. 20, 21, 22, 23 , 24,
25 The production of bacteria keeps on increasing after every generation e.g. one bacteria will give rise to 16 bacteria after 4th generation. This generation is also called doubling time of bacteria. The doubling time varies as long as 20 min for E. coli to more than 24 hours for mycobacterium tuberculosis. The doubling time and exponential growth
results in very rapid production of large number of bacteria e.g. one E.coli organism will produce over 1000 progeny in about 3 hours and 1 million in 7 hours. The doubling time depends on amount of nutrients available , temperatures, pH and other environmental factors. Phases of Bacterial Growth Four phases of bacteria growth in Liquid
medium Lag Phase: Vigorous metabolic activity occurs but no cell division. It can last for few minutes to many hours. Log Phase: Rapid division occurs. B-lactum drugs like penicillin act on cells at this stage since it is the time when cells make their peptidoglycan for
the cell wall. Stationary Phase: Occurs when nutrients depletion and toxic products accumulation slows down the growth process. There is a balance between the new cell production and old ones death. This stage can be extended if additional nutrients are supplied and toxic waste products are removed,
then the cells do not enter the stationary phase. Death Phase: Marked by decreasing in the number of live bacteria. Aerobic and Anaerobic growth Most of the organisms grow better in the presence of oxygen. O2 acts as hydrogen acceptor in the final energy production with is catalyzed by the flavoproteins and
cytochromes. O2 generates two toxic molecules H2O2 and a free superoxide radical O2. Bacteria require two enzymes to utilize O2 i.e. super oxide dismatuse and catalase. 2O2 +2H+--- H2O+O2 2H2O2--2H2O+O2 Aerobic Some bacteria such as mycobacterium tuberculosis are obligate aerobe i.e. they
require oxygen to grow since their ATP generation system is dependent on oxygen as hydrogen acceptor. Facultative Anaerobe Other bacteria such as E. coli are facultative anaerobe i.e. they utilize oxygen if present to generate energy by respiration but they can use the fermentation path way to syntheses ATP in the absence of oxygen.
Obligate Anaerobes Obligate anaerobes (clostridium tetani) cannot grow in the presence of oxygen because they lack either superoxide dismutase or catalase enzymes or both. Vary in their response to oxygen exposure, some can survive but cannot grow while others are killed rapidly. Sugar Fermentation Identification of organisms is done by
fermentation of sugars in the clinical lab. Neisseria gonorrhoae (glucose) and N. meningitidis (maltose) can be distinguished on the bases of sugar fermentation. E.coli (Lactose), salmonella and shigella can be differentiated on the basis of fermentation of lactose. Fermentation means break down of sugar to pyrovic acid and finally to lactic acid. Sugars are mono or disacchirde. Lactose
is disacchride composed of glucose and galactose. Its is first cleaved by B-galactosidase in E coli before fermentation. Fermentation is also called glycolytic cycle and it is the process by which facultative bacteria generates ATP in the absence of oxygen. In the presence of O2 pyrovates produced during fermentation enters the Kerbs
cycle and is metabolized to CO2 and H2O. Kerbs cycle generates much more ATP than glycolytic cycle, so facultative bacteria grow faster in the presence of oxygen. Facultative and anaerobes ferment, but aerobes do not. Aerobes
such as pseudomonas produce metabolites which enter the Kerbs cycle by process of deamination of amino acids. In clinical laboratory the production of pyrovic and lactic acid turn the medium acid and change the color of pH in the presence of phenol red indicator. If the sugar is fermented the color becomes yellow and if not fermented the color
Iron metabolism Ferric iron is required in bacterial cell growth. It is an essential part of cytochromes and other enzymes. Available amount of iron in the body is very low and mostly stored in the form of transferin. Bacteria produce iron binding compounds called sidrophores which have very high
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