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Unit III Information Essential to Life Processes

Unit III Information Essential to Life Processes. Learning Goal 3 Explain how the processing of genetic information is imperfect and is a source of genetic variation. Changes in genotype can result in changes in phenotype. A. Alterations in a DNA sequence can lead

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Unit III Information Essential to Life Processes

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  1. Unit IIIInformation Essential to Life Processes Learning Goal 3 Explain how the processing of genetic information is imperfect and is a source of genetic variation.

  2. Changes in genotype can result in changes in phenotype. A. Alterations in a DNA sequence can lead to changes in the type or amount of a protein produced and the consequent phenotype.

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  4. DNA mutations can be positive, negative or neutral based on the effect or the lack of effect they have on the resulting nucleic acid or protein and the phenotypes that are conferred by the protein.

  5. B. Errors in DNA replication or DNA repair mechanisms, and external factors, including radiation and reactive chemicals, can cause random changes, e.g., mutations in the DNA.

  6. Whether or not a mutation is detrimental, beneficial or neutral depends on the environmental context. Mutations are the primary source of genetic variation.

  7. C. Errors in mitosis or meiosis can result in changes in phenotype.

  8. Changes in chromosome number often result in new phenotypes, including sterility caused by triploidy and increased vigor of other polyploids.

  9. 2. Changes in chromosome number often result in human disorders with developmental limitations, including Trisomy 21 (Down syndrome) and XO (Turner syndrome).

  10. D. Changes in genotype may affect phenotypes that are subject to natural selection. Genetic changes that enhance survival and reproduction can be selected by environmental conditions.

  11. Antibiotic resistance mutations.

  12. Pesticide resistance mutations.

  13. Sickle cell disorder and heterozygote advantage.

  14. 1. Selection results in evolutionary change.

  15. II. Biological systems have multiple processes that increase genetic variation.

  16. The imperfect nature of DNA replication and repair increases variation.

  17. B. The horizontal acquisitions of genetic information primarily in prokaryotes via transformation (uptake of naked DNA), transduction (viral transmission of genetic information), conjugation (cell-to-cell transfer) and transposition (movement of DNA segments within and between DNA molecules) increase variation.

  18. C. Sexual reproduction in eukaryotes involving gamete formation, including crossing-over during meiosis and the random assortment of chromosomes during meiosis, and fertilization serve to increase variation. Reproduction processes that increase genetic variation are evolutionarily conserved and are shared by various organisms.

  19. III. Viral replication results in genetic variation and viral infection can introduce genetic variation into the hosts.

  20. Viral replication differs from other reproductive strategies and generates genetic variation via various mechanisms.

  21. Viruses have highly efficient replicative capabilities that allow for rapid evolution and acquisition of new phenotypes.

  22. 2. Viruses replicate via a component assembly model allowing one virus to produce many progeny simultaneously via the lytic cycle.

  23. 3. Virus replication allows for mutations to occur through usual host pathways.

  24. 4. RNA viruses lack replication error-checking mechanisms, and thus have higher rates of mutation.

  25. 5. Related viruses can combine/recombine information if the infect the same host cell.

  26. HIV is a well-studied system where the rapid evolution of a virus within the host contributes to the pathogenicity of viral infection.

  27. The reproductive cycles of viruses facilitate transfer of genetic information. Viruses transmit DNA or RNA when they infect a host cell. (transduction in bacteria and transposons present in incoming DNA)

  28. 2. Some viruses are able to integrate into the host DNA and establish a latent (lysogenic) infection. These latent viral genomes can result in new properties for the host such as increased pathogenicity in bacteria. http://www.youtube.com/watch?v=EqK1CYYQIug&feature=player_detailpage

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