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Chapter 10 Summary

Key Takeaways

  • Biotechnology and Genetic Engineering Fundamentals. Biotechnology uses artificial methods to manipulate genetic material, enabling organisms to produce novel compounds or perform new functions. Genetic engineering specifically involves directly altering DNA to achieve desired traits.
  • Recombinant DNA Technology. Recombinant DNA combines genetic material from different sources. It utilizes vectors (often bacterial plasmids) and restriction enzymes (molecular scissors) to insert and clone genes for practical applications.
  • Applications in Medicine. Genetic engineering has revolutionized medicine by producing human proteins (e.g., insulin), vaccines, and novel treatments like gene therapy, offering promising solutions for genetic diseases.
  • Agricultural and Environmental Benefits. Genetically modified crops and livestock improve food security by increasing yields, enhancing nutritional content, and resisting pests, diseases, and environmental stresses.
  • CRISPR-Cas9 Gene Editing. CRISPR-Cas9 has transformed genetic engineering by enabling precise and efficient gene editing, with applications ranging from curing diseases to enhancing agricultural productivity and environmental conservation.
  • Ethical and Social Considerations. Advances in genetic engineering raise significant ethical, social, and ecological questions, including concerns over safety, environmental impact, equity in access, potential misuse, and unintended long-term effects on humans and ecosystems.

OpenAI. (2025). ChatGPT. [Large language model]. https://chat.openai.com/chat
Prompt: Summarize the following content into six key takeaways.

 

Flashcards

Text Description
  1. Biotechnology: The use of living organisms or biological systems to develop products or technologies that improve life
  2. Genetic engineering: The direct manipulation of an organism’s DNA to alter its characteristics or produce new traits
  3. DNA extraction: Process of isolating DNA from cells; Usually involves breaking the cell open and using enzymes to eliminate other large molecules
  4. Recombinant DNA technology: A method of combining DNA from two different sources to create new genetic combinations
  5. Vector: A carrier used to deliver genetic material into a host cell, often a virus or plasmid
  6. Plasmid: A small, circular piece of DNA found in bacteria that is commonly used as a vector in genetic engineering
  7. Gene cloning: The process of making multiple identical copies of a specific gene or DNA segment
  8. Restriction enzymes: Proteins that cut DNA at specific sequences, used to isolate or insert genes in genetic engineering
  9. DNA ligase: An enzyme that joins DNA fragments together, often used to seal inserted genes into plasmids
  10. Insulin: A hormone produced by the pancreas that helps regulate blood sugar levels by allowing cells to absorb glucose from the bloodstream
  11. Transgenic animal: An animal that carries a gene from another species, introduced through genetic engineering to give it new traits or abilities
  12. Genetically modified organisms (GMOs): Organisms whose genetic material has been altered using genetic engineering techniques.
  13. Vaccine: Substance that stimulates the immune system to recognize and fight specific pathogens, providing protection against disease
  14. Gene therapy: Recombinant DNA technique that involves altering or replacing faulty genes to treat genetic diseases
  15. Gene editing: Techniques like CRISPR that allow precise, targeted changes to the DNA of an organism
  16. CRISPR-Cas9: A powerful gene-editing tool that allows scientists to precisely cut and modify DNA at specific locations;  Uses a guide RNA and the Cas9 enzyme
  17. Gene drive: A genetic engineering method that increases the likelihood a specific gene will be passed on to the next generation, speeding up the spread of that gene in a population
  18. Stem cell: Unspecialized cell that can develop into many different cell types and can also make copies of itself
  19. Differentiation: Process by which a stem cell changes into a more specialized cell type
  20. Pluripotent: Stem cell that can develop into almost any cell type in the body; Embryonic stem cells are pluripotent
  21. Multipotent: Stem cells that can develop into a limited range of cell types related to their tissue of origin; adult stem cells are multipotent
  22. Induced pluripotent stem cells (iPSCs): Adult cells that have been genetically reprogrammed to behave like embryonic stem cells; pluripotent
  23. Cultivated meat: Meat produced by growing animal cells in a lab, without raising or slaughtering animals
  24. Personalized medicine: Medical approach that tailors treatment to the individual characteristics of each patient
  25. Reproductive cloning: Method used to make a clone (identical copy) of an entire multicellular organism
  26. Germline editing: Changing the DNA of reproductive cells (sperm, eggs, or embryos), which means these changes are heritable and can be passed down to future generations
  27. Branches of biotechnology: Genetic engineering, stem cell research, and reproductive cloning
  28. Genetic engineering techniques: Recombinant DNA technology and gene editing
  29. Applications of Recombinant DNA Technology: Insulin production, transgenic animals, transgenic crops (GMOs), production of vaccines, gene therapy
  30. Applications of gene editing: Medical applications (e.g. cure genetic disorders), agricultural applications (e.g. modify crops to enhance resistance to diseases), environmental applications (e.g. modify microorganisms to efficiently break down pollutants)
  31. Potential applications of gene drives: Reduce the spread of vector-borne diseases, manage invasive species, eliminate pesticide resistance in agricultural pests
  32. Three types of stem cells: Embryonic stem cells, adult stem cells, induced pluripotent stem cells (iPSCs)
  33. Applications of stem cell research: Regenerative medicine, disease modelling, drug testing, cultivated meat, 3D bioprinting
  34. Applications of reproductive cloning: Conservation of endangered species, agriculture, medical research, de-extinction, pet cloning

OpenAI. (2025). ChatGPT. [Large language model]. https://chat.openai.com/chat
Prompt: Can you give me brief summaries of these key terms?

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Biology Essentials 1 Copyright © 2025 by Kari Moreland is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.

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