The world of animal cloning

Demystifying Medicine McMaster

28 Oct 201906:06

Summary

TLDRThis episode of Demystified Medicine explores animal cloning, highlighting its scientific process and applications. The video explains how cloning allows researchers to copy inherited traits and produce genetically modified animals. It recounts the famous case of Dolly the sheep and covers cloning's benefits for medicine and agriculture, such as creating animals that produce proteins for treating diseases like hemophilia. Additionally, it discusses cloning's potential to save endangered species, while also addressing concerns about health risks, genetic diversity, and premature aging in cloned animals.

Takeaways

🐑 Animal cloning involves replicating the exact genetic traits of an animal, as demonstrated by the cloning of Dolly the sheep.
🔬 Scientists reprogrammed cells from Dolly's udder and implanted them into an egg to create the first cloned sheep.
👩‍🔬 Cloning does not result in completely identical animals, as environmental factors and epigenetics influence development.
🧬 Cloning has potential benefits for medicine and agriculture, such as producing animals with desirable traits like increased milk production.
💉 Cloning can help create animals that produce proteins like Factor 9, which can be used to treat conditions like hemophilia.
🌍 Animal cloning may be used to save endangered species, although there have been mixed results in this area.
🐾 Cloning can reduce genetic diversity, which may negatively affect species survival.
🧪 Health risks associated with cloning include birth defects, premature aging, and immune system problems.
🔗 Cloned animals may inherit shorter chromosomes, leading to shorter lifespans, as seen in Dolly's early death.
🧫 Cloning could aid in stem cell research, allowing scientists to repair organs and tissues or grow new organs using genetically identical cells.

Q & A

What is animal cloning?
-Animal cloning is a complex process that allows for copying the exact genetic traits of an animal. It involves creating a genetic duplicate of the original animal.
Who is Dolly the sheep, and why is she significant?
-Dolly was the first mammal to be cloned from an adult somatic cell by scientists at the Roslin Institute. She demonstrated that cloning could produce genetically identical animals, making her a landmark case in genetic science.
How was Dolly the sheep cloned?
-Dolly was cloned by using udder cells from a six-year-old Finn Dorset sheep. These cells were reprogrammed and fused with an unfertilized egg from a Scottish Blackface sheep, which had its nucleus removed. The embryo was then implanted into a surrogate mother.
What are some of the potential benefits of animal cloning?
-Animal cloning offers potential benefits for agriculture and medicine. It can be used to replicate animals with desirable traits, such as increased milk production or leaner meat, and can also be used to produce therapeutic proteins in animals for treating diseases like hemophilia.
Is the appearance of cloned animals always identical to the original?
-No, cloned animals do not always look identical to the original. Environmental and epigenetic factors influence their development, as seen in the case of a cloned calico cat that looked different from its mother.
Why is animal cloning controversial in relation to endangered species?
-While cloning can help preserve endangered species, critics argue that it produces genetically identical animals, which may lack the genetic diversity necessary for species survival. This raises concerns about long-term viability.
What health problems have been observed in cloned animals?
-Cloned animals, such as sheep, have exhibited health problems including larger birth sizes, defects in organs like the liver, brain, and heart, premature aging, and immune system issues. Dolly herself suffered from arthritis and had a shorter lifespan.
What role do telomeres play in cloning and aging?
-Telomeres are the protective tips of chromosomes that shorten with each cell division. In cloned animals, cells may already have shorter telomeres if they were taken from an older animal, which can result in premature aging and a shortened lifespan for the clone.
How could cloning be used for stem cell research and transplants?
-Cloning could help create stem cells that are genetically identical to a patient, reducing the risk of immune rejection in transplants. These stem cells could be used to repair damaged tissues or organs and might also help researchers study diseases more effectively.
What are the current limitations of animal cloning?
-Animal cloning is still a developing technology with challenges such as high costs, health issues in cloned animals, and ethical concerns. More time and research are needed to improve its viability and make it more widespread.