ScienceIQ.com

Smallpox, Chickenpox . . . Monkeypox?

This past summer a few people in the midwest came down with monkeypox, a viral disease related to smallpox but less infectious and a lot less deadly to humans. Oddly they all seem to have caught the disease from domesticated prairie dogs, which have become increasingly popular as pets. Like chickenpox, monkeypox causes fever, swollen lymph nodes, ...

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SmallpoxChickenpoxMonkeypox
Biology

What's In Your Water?

The United States has strict policies on water treatment systems and sewage drainage, but what about other countries? 'Don't drink the water' is the first thing most people hear when they tell their ... Continue reading

WaterSewage
Geology

Is the Dead Sea really dead?

The Dead Sea is located on the boundary between Israel and Jordan at a lowest point on earth, at 400 meters (1,320 feet) below sea level. All waters from the region, including the biggest source, the ... Continue reading

IstheDeadSeareallydead
Medicine

What is Asthma?

In many people, asthma appears to be an allergic reaction to substances commonly breathed in through the air, such as animal dander, pollen, or dust mite and cockroach waste products. The catch-all ... Continue reading

WhatisAsthma
Astronomy

What Is Microgravity?

Gravity is a force that governs motion throughout the universe. It holds us to the ground and keeps the Earth in orbit around the Sun. Microgravity describes the environment in orbital space flight, ... Continue reading

Microgravity

Embryo Transfer and Cloning

EmbryoTransferandCloningScientists use embryo transfer technology to obtain more offspring from a genetically superior animal. For instance, if a farmer owns a cow that produces excellent milk and wants more cows to produce milk like hers, he can use embryo transfer. How? A scientist collects an embryo (a fertilized ovum) from the cow (called ‘the donor’) and transfers it to another cow (‘the recipient’) to complete the gestation period. With normal reproduction a cow would give birth to 6 or 7 calves during her lifetime; with embryo transfer the same number can be obtained in less than a year.

Embryo transfer is required for other reproductive technologies like in vitro fertilization, sperm injection, and cloning by nuclear transfer. In fact, embryo transfer is the predecessor of cloning. But the transition between embryo transfer and cloning was gradual.

In 1952, nuclear transfer experiments with adult frog cells produced viable embryos, but they didn't develop beyond the tadpole stage. In 1986, Steen Willadsen in Cambridge, England, used nucleus transfer to produce sheep. He used embryo cells rather than adult cells. During that time, a company in Texas, Granada Biosciences, employed Willadsen to do nucleus transfer cloning. Granada produced hundreds of calves by nucleus transfer cloning during the '80s and '90s. Finally, in 1997, a group in Scotland used an adult cell from the mammary gland of a sheep, and produced offspring by nuclear transfer; Dolly became the first mammal cloned from an adult cell.