Description
Mutation rate is the rate of appearance for mutations to occur in a living organism. Studying and quantifying mutation rates and their evolution is important because mutations are the ultimate source of genetic variation and one of the reasons why evolution occurs. Much of the current research has investigated the mutational rate increase. The evolution of reduced mutation rate, which can be favored by natural selection because the accumulation of too many mutations can be deleterious and result in death, is less studied. Therefore, this study will be focused on antimutators, which are mutations that result in a lowering of the mutation rate. Using Escherichia coli K-12 str. MG1655 as a model system, the effects and reasons for how MMR- background E. coli evolves lower mutation rates were studied. Here we show that the candidate antimutator in dnaE lowers the mutation rate in an experimentally evolved population of E. coli with MMR- background by using a mutation rate assay to demonstrate the difference between populations with and without the antimutator candidate. The results also suggest the importance of an antimutator for populational survival.
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Title
- Antimutator Effect on Mutation Rate Evolution in Escherichia coli
Contributors
- Graham, Logan (Author)
- Ho, Wei-Chin (Thesis director)
- Lynch, Michael (Committee member)
- Barrett, The Honors College (Contributor)
- School of Life Sciences (Contributor)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2022-05
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