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Cloning. 4.2 Asexual Reproduction (continued). Cloning. the process of producing one individual that is genetically identical to another, using a single cell or tissue. Remember: Cloning is a type of asexual reproduction. Cloning.
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Cloning 4.2 Asexual Reproduction (continued)
Cloning the process of producing one individual that is genetically identical to another, using a single cell or tissue. Remember: Cloning is a type of asexual reproduction.
Cloning Cloning occurs naturally in nature, for example spore formation. Even identical twins are technically clones of each other.they develop from one zygote that splits and forms two embryos Cloning can occur unnaturally as well. Humans have cloned plants for centuries and have recently begun cloning animals.
Plant Cloning WHY? Plants with favourable traits could be cloned (using vegetative propagation) to get: better tasting crops, better looking crops, larger crop yields, etc.
Animal Cloning It’s important to remember what cloning CANNOT do. Many people think that cloning a person will produce an individual of the same age. If humans were to be cloned, they would only reproduce a zygote, which then needs to be carried in a womb for nine months.
Cloning animals have traditionally been done by taking a fertilized egg (a zygote) and splitting it in half. This will produce a clone of the zygote (not of the parent). In this case, scientists have been able to create identical twins.
Cloning an adult mammal is MUCH more difficult In adults, all your cells are specialized to do specific jobs (for example: red blood cells, stomach cells, skin cells). It is very difficult to take a specialized cell and turn it back into a cell that is unspecialized (like those in zygotes).
Pet Clones… In 2008, an American couple paid more than $150,000 to have their late dog Lancelot cloned by the South Korean biotechnology company (BioArts International) What issues do you see with this?
Animal Cloning In July 1996, Ian Wilmut, a Scottish scientist, cloned the first mammal from an adult body cell – a sheep he named Dolly.
How did he do it? • He first obtained an udder cell from a Finn Dorset sheep and removed the nucleus
He then obtained an egg cell from a Poll Dorset Sheep and removed the nucleus from the egg cell.
He placed the nucleus from the 1st cell (the Finn Dorset cell) into the egg cell of the Poll Dorset
To get this new cell to undergo cell division, he shocked it with electricity. He had to do this process ~277 times until it finally worked
http://www.youtube.com/watch?v=FYvcLh4Y43s&feature=related Once the cell began dividing it formed an embryo. He implanted the embryo into the uterus of a Scottish Blackface Sheep The clone grew in the uterus until it was born. Dolly the sheep was a clone of the Finn Dorset Sheep.
Unfortunately, Dolly died prematurely at the age of 6 (half her lifespan) She displayed symptoms of premature aging, and such as arthritis and lung disease which is present in older sheep.
http://www.youtube.com/watch?v=CutIwoaH0YQ&feature=related Many more species have been successfully cloned since Dolly, including goats, cows, mice, pigs, dogs, cats, rabbits, horses and camels, however, there are still many problems.
Why Clone Mammals? Cows that produce the most milk, hens that lay the most eggs, Cattle that produces the best tasting and beef can be cloned to make more organisms with the same desirable traits and create more financial profits.
Therapeutic Cloning If we could develop technologies to clone organs, it could solve problems related to lack of organ donors for sick individuals The technology for creating human embryos, harvesting stem cells, and producing organs from stem cells is not efficient. The technical and moral debate over organ cloning will continue for years to come. It is almost certain that organ cloning will eventually become a reality in some countries.
Theraputic Cloning • Involves stem cell research • Aims at cell therapy – where diseased cells are replaced with healthy ones. • Human embryos are produced (in vitro) and allowed to grow for a few days into a small ball of the cells. • These cells are not yet specialised (they’re stem cells/ pluripotent)
Stem cells can also be obtained from umbilical cords or aborted fetuses. • PURPOSE: • Treat people suffereing from Parkinson’s • Treat spinal cord injuries • BONE MARROW – transplants for leukemia patients
Ethics of Therapeutic Cloning • PRO: can cure and treat diseases with cell therapy • CONS: Fear it can lead to reproductive cloning • Creation and destruction of human embyros (“playing GOD”?) • Embryonic stem cells are capable of many division and may turn into tumours. http://www.youtube.com/watch?v=QqZeYcydbIo&feature=related
Scientists in the US have successfully transplanted cloned heart and kidney tissues into cows without them being rejected. With humans, legislation forbids cutting organs out of a maturing cloned foetus. The challenge ahead is to grow organ tissue from embryonic cells that are a few days old in test tubes which can then be transplanted.
Problems with Clones lack of diversity/variation! The population of clones would be vulnerable to environmental changes and disease.
GMOs: Genetically Modified Organisms Organisms whose genetic material has been altered to include specific genes, often from another species. If the GMO displays favourable characteristics it can be cloned to mass produce these favourable organisms.
Purpose of GMOs? • Increase crop yields • Increase shelf life • Make disease and parasite resistant crops • More nutritious crops • Others?
Ex: Insulin Commercial Insulin (for diabetics) is produced by bacteria that has the gene for insulin inserted into its DNA
Flavr Savr • 1994, the first GMO food do be sold commercially • A tomato altered to stay fresh longer • Contained a gene that blocked the production of an enzyme responsible for rotting
Golden Rice • Modified by adding genes from daffodils and bacterium • Modified Rice now contains Vitamin A • Many people in developing nations rely on rice as a major staple in their diet. • Golden Rice provides more nutrition.
Bt Corn • Inserted gene from the soil bacteria, Bacillus thuringiensis • Causes the corn crops to produce a toxin making it resistant to insects.
Benefits of Bt Corn • Reduces damage caused by the European Corn Borer (ECB) • Less expensive than insecticide • Less checking for effects of ECB • Less insecticide – better for environment • Less fungal infections
Possible Harmful effects of Bt corn • May kill other insects – influence food webs and ecosystems • Insects may develop resistance to Bt toxin • Which would make BT spray (insect repellent) ineffective for human use • Pollen may get into another crop field, infiltrating organic crops and putting other ecosystems in jeopardy. http://www.youtube.com/watch?v=yzTECVk8tVU