The Streak Plate Techniques to obtain a pure clone Bunsen burner Petri dish Higher concentration of cells Lower concentration of cells Second set of streaks Fourth set of streaks
The Streak Plate Technique: to obtain a pure clone
N Chapter 9 sA2 Growth and Its Controx In Microbiology, growth is defined as an increase in the number of cells Control of microbial growth -Physical ways -Chemical ways
Chapter 9 Growth and Its Control • In Microbiology, growth is defined as an increase in the number of cells. • Control of Microbial Growth: –Physical ways, –Chemical ways
Microbial growth and death can refer to either micro bial populations or individual cells. Cell Growth Unlike changes in individual cells, changes in population size obey mathematical laws that can Growth rate is the change in cell precise y I predict growth rate number or mass per unit time knowing how these laws apply to the time interval for the a particular culture enables us to formation of two cells from one is predict what the size of a called generation time population will be after, say, a The number of cells doubles certain period of exposure to a during each unit time period, is perature usual,no high tel referred to as exponentialgrowth such predictions can be made about individual cell growth Relationship between the number of cells present in a culture initially (no) and the number What becomes abundantly dear present after a period of after studying microbial growth is exponential growth (N) that prokaryotes are the fastest N=N 2 or n=(log(N)-log(No)/og2 growing and most resistant organisms in existence n-the number of generation
Cell Growth Growth rate is the change in cell number or mass per unit time. The time interval for the formation of two cells from one is called generation time. The number of cells doubles during each unit time period, is referred to as exponential growth. Relationship between the number of cells present in a culture initially (N0 ) and the number present after a period of exponential growth (N): N=N02 n or n=(log(N)-log(N0 ))/log2 n=the number of generation
Binary fission is most common, followed by budding. Multiple fission is fairly uncommon. In binary fission, cells enlarge 3 types of evenly and divide in two. Where cell there is a wall layer, each daughter cell inherits half of the division: old wall material and half of the a Binary newly synthesized wall. In budding, cell growth is localized Fission and at division one cell inherits b Budding, mainly old wall material: the other c Multiple inhents mainly new wall material In muliple esSion, the cell Fission enlarges to several times its oniginal size, then divides into multiple daughter cells
3 types of cell division: a.Binary Fission, b. Budding, c. Multiple Fission
Binary Fission(分 Binary Fission r Ney wall old fall
Binary Fission (二分裂)