On Wednesday, a Noble Chemistry Prize was awarded to Osamu Shimomura from Japan and Martin Chalfie and Roger Tsien of the United States. They recieved this award because they found an important fluorescent protein that could be found in a jellyfish. The protien in called Green fluorescent protien or GFP. This protein will allow scientists to get a better understanding on how organs function. It will also help the scientists to see the spread of disease and how cells respond to infection. The gene in GFP can be injected into cells and then will glow under ultraviolet light. This new found protien will greatly help humankind. It will help track the progression of Alzheimer's disease and also the destruction of tumours and other diseases. GFP will help scientists to find better ways to prevent, stop and treat many diseases.
On Wednesday, October 8 the Nobel Chemistry Prize was awarded to Osamu Shimomura of Japan, as well as Martin Chalfie and Roger Tsien of the US. They discovered a flourescent protein found in jellyfish known as GFP, or green flourescentt jelly. GFP has helped scientists visually see how organs funtion, how disease spreads, and how infected cells respond to treatment.When the gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells it is switched on by other genes. It's glow becomes aparent under ultraviolet light. By tagging nerve cells, scientists can follow the destruction caused by Alzheimer's disease. Tumor progression can be followed by adding GFP to cancer cells. GFP is helping in all areas of science and is helping scientist search for cures to diseases that were once seen as untreatable.
Five days ago on Wednesday, October 8 Osamu Shimomura of Japan and duo Martin Chalfie and Roger Tsien of the US was awarded the Nobel Chemistry Prize. They discovered a flourescent protein found in jellyfish. This is known as GFP or green flourescent jelly. The GFP protein has helped scientists in the fields of medicine and biology. GFP has allowed scientists to get a visual fix on how organs function. Also how disease spreads and how infected cells respond to treatment. The gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells and is switched on by other genes. The glow of the protein is only noticed under ultraviolet light. The way that scientists follow the destruction caused by Alzheimer's diseases is by tagging the nerve cells. The progression of a tumour can be followed by adding GFP to cancer cells. Osamu Shimomura, Martin Chalfie, and Roger Tsien were rightfully awarded his prize. This discovery is helping scientists in all areas of science and it is also helping them to find cures for diseases that once were said to be untreatable. This is a great leap for science and it is giving a lot of people hope for the future.
A Noble Chemistry Prize was given to Osamu Shimomura from Japan and Martin Chalfie and Roger Tsien of the United States. They recieved this award because they found an important fluorescent protein that could be found in a jellyfish. The protien in called Green fluorescent protien or GFP. This protein will allow scientists to get a better understanding on how organs function. It will also help the scientists to see the spread of disease and how cells respond to infection. The gene in GFP can be injected into cells and then will glow under ultraviolet light. This new found protien will greatly help humankind. It will help track the progression of Alzheimer's disease and also the destruction of tumours and other diseases.
Osamu shimom of Japan and US duo martin chalfie and roger Tesin won the Nobel chemistry prize. They won the Nobel Prize because they discovered a fluorescent protein that comes from a jellyfish. The protein is called GFP, which stands for Green fluorescent protein. This protein is vital to lab work because of the color is bright scientists can visually see the spread of diseases infected cells and they can see how organs work. They can monitor proteins and tag different cells with this such as tumor progression, which can be better researched because of the GFP. They also have tagged different brain cells, which is crazy. Hopefully this can be vital to us now because this discovery can lead to a cure for many diseases one day.
Osamu Shimomura and Martin Chalfie and Roger Tsein accepted the nobel chemistry prize. The award was given for the discovery of a protein in jellyfish. The protein glows under ultra violet light. Scientists can inject it into a virus, and under the ultra violet light, the virus will glow. The glow can be followed in bodily occurances. Scientists can monitor processes in the body like alzheimers or cancer and see how they travel and affect the body. they can track this distruction following the diseases. With this tracking system, scientists can more better understand viruses and diseases, thus easierly finding a cure to them.
1. who won the prize? "Osamu Shimomura of Japan and U.S. duo Martin Chalfie and Roger Tsien won the Nobel Chemistry Prize.."
2. what was discovered and what it does? They discovered a fluorescent protein derived from a jellyfish that has become a vital lab tool. Green fluorescent protein (GFP) has revolutionised research in medicine and biology, enabling scientists to get a visual fix on how organs function, the spread of disease and the response of infected cells to treatment, the Nobel jury said."
3. how it will help humankind? The telltale protein gives researchers an instant way of monitoring processes that were previously invisible. By tagging nerve cells, scientists can for instance follow the destruction caused by Alzheimer's disease. Tumour progression can be followed by adding GFP to cancer cells. By adding GFP to a growing mouse embryo, they can see how the pancreas produces insulin-producing beta cells.
On Wednesday, October 8 Osamu Shimomura of Japan and duo Martin Chalfie and Roger Tsien of the US was awarded the Nobel Chemistry Prize. They discovered a flourescent protein found in jellyfish. This is known as GFP or green flourescent jelly. The GFP protein has helped scientists in the fields of medicine and biology. GFP has allowed scientists to get a visual fix on how organs function. Also how disease spreads and how infected cells respond to treatment. The gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells and is switched on by other genes. The glow of the protein is only noticed under ultraviolet light. The way that scientists follow the destruction caused by Alzheimer's diseases is by tagging the nerve cells. The progression of a tumour can be followed by adding GFP to cancer cells. Osamu Shimomura, Martin Chalfie, and Roger Tsien were rightfully awarded his prize.
On October 8, 2008 Osamu Shimomura and duo Martin Shclfie and Roger Tsien of Japan and the United States. Won the Nobel Chemistry Prize for finding a fluorescent protein form a jellyshish that can become a important lab tool. This research in medicine and biology, gave scientists an idea on how organs function, and study the spread of disease and the response of infected cells. This has become one of the most important tools used in contemporary bioscience. this can really help new studies in harmful desies in people and may prevent may deaths of people.
A nobel prize was awarded on October 8 because a fluorescent protein was derived from a jellyfish that has become a vital lab tool.Osamu Shimomura of Japan and U.S duo Martin Chalfie and Roger Tsien recieved the Nobel prize.The protien in called Green fluorescent protien or GFP. GFP has helped scientists visually see how organs function, how disease spreads, and how infected cells respond to treatment.
On Wednesday, October 8, 2008 Osamu Shimomura of Japan and US Martin Chalfie and Roger TSien won the Nobel Chemistry Prize for a fluorescent protein that came from jellyfish. GFP helps scientists understand how organs function, the spread of disease and the response of infected cells to treatment. Also, scientists can find out how Alzheimer's disease happens and ways to prevent or get rid of it. This protein will help mankind by figuring out ways to cure diseases and where the diseases come from.
The Nobel Chemistry prize was awarded to Osamu Shimomura of Japan and the two Americans were Martin Chalfie and Roger Tsien. This award was gien to these thee men for a very important advancement in medical care. Using the Green Fluorescent Protein found in certain jellyfish, they r able to indicate certain problems in the body especially things like tumors. another disease that can be detected using this proteins Alzheimers disease. The protein glows under ultraviolet light indicating problem areas. This protein could help people with Alzheimers eventually get cured, but for now it buys them more time on Earth.
The Nobel Chemistry prize was awarded to Osamu Shimomura of Japan and the two Americans were Martin Chalfie and Roger Tsien. This award was gien to these thee men for a very important advancement in medical care. Using the Green Fluorescent Protein found in certain jellyfish, they r able to indicate certain problems in the body especially things like tumors. another disease that can be detected using this proteins Alzheimers disease. The protein glows under ultraviolet light indicating problem areas. This protein could help people with Alzheimers eventually get cured, but for now it buys them more time on Earth.
United States duo Martin Chalfie and Roger Tsien, have recently won the Noble prize for the discovery of a fluorescent protein which is derived from jellyfish. It has allowed scientist the ability to see how organs function, the spread of disease and infected cells during treatment. This is a revolutionary discovery, because it will help aid in finding new treatments and possible cures for many diseases. These men deserve this highly respected award.
A couple weeks ago, a Nobel Prize in Chemistry was awarded to Osamu Shimomura, Roger Tsien and Martin Chalfie.What they discovered was a unique flourescene protein that was also identified in Jellyfish. A positive, scientist will use their new information to further study how organs function and also to reveal the spread of disease and how exactly cells react to that. Mankind is looking to track Alzheimer's disease and to rid tumors. This new information can only further our ways of helping people
A few weeks ago, a Nobel Chemistry Prize was given Osamu Shimomura from Japan, Martin Chalfie and Roger Tsie from the United States. They were award the Nobel prize because hey found an important fluorescent protein that is found in most jellyfish. This protein is called GFP or green fluorescent protien. This protein helps scientist see how diseases spread and how cells respond to the disease. When injected with GFP scientists can see how Alzheimer's Disease is formed. Now with this protein scientists can learn how to prevent the disease from happening and possibly cure it from a human being.
On October 8, Osamu Shimomura of Japan and two US scientists Martin Chalfie and Roger Tsien won the Nobel Chemistry Prize for a flourescent protien derived from a jellyfish that has become a vital lab tool. Green fourescent protein or GFP has revolutionised research in medicine as well as biology.
1. "Osamu Shimomura of Japan and US duo Martin Chalfie and Roger Tsien on Wednesday won the Nobel Chemistry Prize for a fluorescent protein derived from a jellyfish that has become a vital lab tool." 2. Green fluorescent protein (GFP) has revolutionised research in medicine and biology, enabling scientists to get a visual fix on how organs function, the spread of disease and the response of infected cells to treatment." 3. Allowed researchers to mark different proteins in different colours to see their interactions.
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On Wednesday, a Noble Chemistry Prize was awarded to Osamu Shimomura from Japan and Martin Chalfie and Roger Tsien of the United States. They recieved this award because they found an important fluorescent protein that could be found in a jellyfish. The protien in called Green fluorescent protien or GFP. This protein will allow scientists to get a better understanding on how organs function. It will also help the scientists to see the spread of disease and how cells respond to infection. The gene in GFP can be injected into cells and then will glow under ultraviolet light. This new found protien will greatly help humankind. It will help track the progression of Alzheimer's disease and also the destruction of tumours and other diseases. GFP will help scientists to find better ways to prevent, stop and treat many diseases.
On Wednesday, October 8 the Nobel Chemistry Prize was awarded to Osamu Shimomura of Japan, as well as Martin Chalfie and Roger Tsien of the US. They discovered a flourescent protein found in jellyfish known as GFP, or green flourescentt jelly. GFP has helped scientists visually see how organs funtion, how disease spreads, and how infected cells respond to treatment.When the gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells it is switched on by other genes. It's glow becomes aparent under ultraviolet light. By tagging nerve cells, scientists can follow the destruction caused by Alzheimer's disease. Tumor progression can be followed by adding GFP to cancer cells. GFP is helping in all areas of science and is helping scientist search for cures to diseases that were once seen as untreatable.
Five days ago on Wednesday, October 8 Osamu Shimomura of Japan and duo Martin Chalfie and Roger Tsien of the US was awarded the Nobel Chemistry Prize. They discovered a flourescent protein found in jellyfish. This is known as GFP or green flourescent jelly. The GFP protein has helped scientists in the fields of medicine and biology. GFP has allowed scientists to get a visual fix on how organs function. Also how disease spreads and how infected cells respond to treatment. The gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells and is switched on by other genes. The glow of the protein is only noticed under ultraviolet light. The way that scientists follow the destruction caused by Alzheimer's diseases is by tagging the nerve cells. The progression of a tumour can be followed by adding GFP to cancer cells.
Osamu Shimomura, Martin Chalfie, and Roger Tsien were rightfully awarded his prize. This discovery is helping scientists in all areas of science and it is also helping them to find cures for diseases that once were said to be untreatable. This is a great leap for science and it is giving a lot of people hope for the future.
A Noble Chemistry Prize was given to Osamu Shimomura from Japan and Martin Chalfie and Roger Tsien of the United States. They recieved this award because they found an important fluorescent protein that could be found in a jellyfish. The protien in called Green fluorescent protien or GFP. This protein will allow scientists to get a better understanding on how organs function. It will also help the scientists to see the spread of disease and how cells respond to infection. The gene in GFP can be injected into cells and then will glow under ultraviolet light. This new found protien will greatly help humankind. It will help track the progression of Alzheimer's disease and also the destruction of tumours and other diseases.
Osamu shimom of Japan and US duo martin chalfie and roger Tesin won the Nobel chemistry prize. They won the Nobel Prize because they discovered a fluorescent protein that comes from a jellyfish. The protein is called GFP, which stands for Green fluorescent protein. This protein is vital to lab work because of the color is bright scientists can visually see the spread of diseases infected cells and they can see how organs work. They can monitor proteins and tag different cells with this such as tumor progression, which can be better researched because of the GFP. They also have tagged different brain cells, which is crazy. Hopefully this can be vital to us now because this discovery can lead to a cure for many diseases one day.
Osamu Shimomura and Martin Chalfie and Roger Tsein accepted the nobel chemistry prize. The award was given for the discovery of a protein in jellyfish. The protein glows under ultra violet light.
Scientists can inject it into a virus, and under the ultra violet light, the virus will glow. The glow can be followed in bodily occurances. Scientists can monitor processes in the body like alzheimers or cancer and see how they travel and affect the body. they can track this distruction following the diseases. With this tracking system, scientists can more better understand viruses and diseases, thus easierly finding a cure to them.
1. who won the prize?
"Osamu Shimomura of Japan and U.S. duo Martin Chalfie and Roger Tsien won the Nobel Chemistry Prize.."
2. what was discovered and what it does?
They discovered a fluorescent protein derived from a jellyfish that has become a vital lab tool. Green fluorescent protein (GFP) has revolutionised research in medicine and biology, enabling scientists to get a visual fix on how organs function, the spread of disease and the response of infected cells to treatment, the Nobel jury said."
3. how it will help humankind?
The telltale protein gives researchers an instant way of monitoring processes that were previously invisible. By tagging nerve cells, scientists can for instance follow the destruction caused by Alzheimer's disease. Tumour progression can be followed by adding GFP to cancer cells. By adding GFP to a growing mouse embryo, they can see how the pancreas produces insulin-producing beta cells.
On Wednesday, October 8 Osamu Shimomura of Japan and duo Martin Chalfie and Roger Tsien of the US was awarded the Nobel Chemistry Prize. They discovered a flourescent protein found in jellyfish. This is known as GFP or green flourescent jelly. The GFP protein has helped scientists in the fields of medicine and biology. GFP has allowed scientists to get a visual fix on how organs function. Also how disease spreads and how infected cells respond to treatment. The gene to make GFP is inserted into the DNA of lab animals, bacteria, or other cells and is switched on by other genes. The glow of the protein is only noticed under ultraviolet light. The way that scientists follow the destruction caused by Alzheimer's diseases is by tagging the nerve cells. The progression of a tumour can be followed by adding GFP to cancer cells. Osamu Shimomura, Martin Chalfie, and Roger Tsien were rightfully awarded his prize.
On October 8, 2008 Osamu Shimomura and duo Martin Shclfie and Roger Tsien of Japan and the United States. Won the Nobel Chemistry Prize for finding a fluorescent protein form a jellyshish that can become a important lab tool. This research in medicine and biology, gave scientists an idea on how organs function, and study the spread of disease and the response of infected cells. This has become one of the most important tools used in contemporary bioscience. this can really help new studies in harmful desies in people and may prevent may deaths of people.
excellent posts!
A nobel prize was awarded on October 8 because a fluorescent protein was derived from a jellyfish that has become a vital lab tool.Osamu Shimomura of Japan and U.S duo Martin Chalfie and Roger Tsien recieved the Nobel prize.The protien in called Green fluorescent protien or GFP. GFP has helped scientists visually see how organs function, how disease spreads, and how infected cells respond to treatment.
On Wednesday, October 8, 2008 Osamu Shimomura of Japan and US Martin Chalfie and Roger TSien won the Nobel Chemistry Prize for a fluorescent protein that came from jellyfish. GFP helps scientists understand how organs function, the spread of disease and the response of infected cells to treatment. Also, scientists can find out how Alzheimer's disease happens and ways to prevent or get rid of it. This protein will help mankind by figuring out ways to cure diseases and where the diseases come from.
The Nobel Chemistry prize was awarded to Osamu Shimomura of Japan and the two Americans were Martin Chalfie and Roger Tsien. This award was gien to these thee men for a very important advancement in medical care. Using the Green Fluorescent Protein found in certain jellyfish, they r able to indicate certain problems in the body especially things like tumors. another disease that can be detected using this proteins Alzheimers disease. The protein glows under ultraviolet light indicating problem areas. This protein could help people with Alzheimers eventually get cured, but for now it buys them more time on Earth.
The Nobel Chemistry prize was awarded to Osamu Shimomura of Japan and the two Americans were Martin Chalfie and Roger Tsien. This award was gien to these thee men for a very important advancement in medical care. Using the Green Fluorescent Protein found in certain jellyfish, they r able to indicate certain problems in the body especially things like tumors. another disease that can be detected using this proteins Alzheimers disease. The protein glows under ultraviolet light indicating problem areas. This protein could help people with Alzheimers eventually get cured, but for now it buys them more time on Earth.
United States duo Martin Chalfie and Roger Tsien, have recently won the Noble prize for the discovery of a fluorescent protein which is derived from jellyfish. It has allowed scientist the ability to see how organs function, the spread of disease and infected cells during treatment. This is a revolutionary discovery, because it will help aid in finding new treatments and possible cures for many diseases. These men deserve this highly respected award.
A couple weeks ago, a Nobel Prize in Chemistry was awarded to Osamu Shimomura, Roger Tsien and Martin Chalfie.What they discovered was a unique flourescene protein that was also identified in Jellyfish. A positive, scientist will use their new information to further study how organs function and also to reveal the spread of disease and how exactly cells react to that. Mankind is looking to track Alzheimer's disease and to rid tumors. This new information can only further our ways of helping people
A few weeks ago, a Nobel Chemistry Prize was given Osamu Shimomura from Japan, Martin Chalfie and Roger Tsie from the United States. They were award the Nobel prize because hey found an important fluorescent protein that is found in most jellyfish. This protein is called GFP or green fluorescent protien. This protein helps scientist see how diseases spread and how cells respond to the disease. When injected with GFP scientists can see how Alzheimer's Disease is formed. Now with this protein scientists can learn how to prevent the disease from happening and possibly cure it from a human being.
On October 8, Osamu Shimomura of Japan and two US scientists Martin Chalfie and Roger Tsien won the Nobel Chemistry Prize for a flourescent protien derived from a jellyfish that has become a vital lab tool. Green fourescent protein or GFP has revolutionised research in medicine as well as biology.
1. "Osamu Shimomura of Japan and US duo Martin Chalfie and Roger Tsien on Wednesday won the Nobel Chemistry Prize for a fluorescent protein derived from a jellyfish that has become a vital lab tool."
2. Green fluorescent protein (GFP) has revolutionised research in medicine and biology, enabling scientists to get a visual fix on how organs function, the spread of disease and the response of infected cells to treatment."
3. Allowed researchers to mark different proteins in different colours to see their interactions.
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