• Identical twins are actually naturally made clones. As of right now, there are no human clones produced through science.
• Cloning can be done in two ways- artificially cloning an embryo, or "twinning," or transferring somatic cells.
• Artificial twinning works the same way as natural twinning, but it's done in a petri dish rather than a mother's body. An embryo divides itself after the fertilization of an egg, and then both of the cells continue dividing until they become different individuals.
• SCNT (Somatic Cell Nuclear Transfer) works much differently. A somatic cell gets isolated, the nucleus of the cell gets removed and transplanted into an egg cell, and the egg cell gets transplanted into a surrogate mother.
• The first artificial cloning on record was in 1885. A sea urchin was cloned.
• A salamander was cloned in 1902- the first organism with a backbone to be cloned.
• Cloning could be used to revive endangered or even extinct species.
• Diseased animals could also be cloned for research purposes.
• Cloning could also bring organisms back from the dead (as a separate organism, but with the same appearance), but they won't behave exactly the same, as they are a separate organism.
• Cloning doesn't always work, though. The success rate ranges from 0.1 to 3 percent. (970 to 999 failures in 1000 attempts.)
• Should a clone be a success, it will often have development problems at any time in its life. The clone's life itself is also shorter than that of a natural human's.
• In a nutshell, cloning would be wonderful if it were actually successful most of the time. Until then, scientists just have to keep developing more efficient procedures and technology, and in the future it's entirely possible that cloning could be used regularly.
