Nobel Prize to Indian Origin - V Ramakrishnan for Chemistry

Indian origin scientist V Ramakrishnan wins 2009 Chemistry Nobel

Tamil Nadu-born Venkatraman Ramakrishnan, a senior scientist at the MRC Laborartory of Molecular Biology at Cambridge, has been awarded the Nobel Prize [ Images ] in Chemistry for 2009 along with two others, the Nobel Committee announced on Wednesday.

Born in 1952 in Chidambaram, Ramakrishnan shares the Nobel prize with Thomas E Steitz (US) and Ada E Yonath (Israel) for their "studies of the structure and function of the ribosome".

Ramakrishnan earned his B.Sc. in Physics (1971) from Baroda University and his Ph.D. in Physics (1976) from Ohio University.

He moved into biology at the University of California, San Diego, where he took a year of classes, then conducted research with Dr Mauricio Montal, a membrane biochemist.

"This year's Nobel Prize in Chemistry awards Venkatraman Ramakrishnan, Thomas A Steitz and Ada E Yonath for having showed what the ribosome looks like and how it functions at the atomic level," the Nobel committee said in its citation.

All three have used a method called X-ray crystallography to map the position for each and every one of the hundreds of thousands of atoms that make up the ribosome, it said.

"This year's three Laureates have all generated 3D models that show how different antibiotics bind to the ribosome. These models are now used by scientists to develop new antibiotics, directly assisting the saving of lives and decreasing humanity's suffering," the citation said.

Better known as Venky among friends, Ramakrishnan started out as a theoretical physicist. After graduate school, he designed his own 2-year transition from physics to biology.

As a postdoctoral fellow at Yale University, he worked on a neutron-scattering map of the small ribosomal subunit of E Coli. He has been studying ribosome structure ever since.

Ramakrishnan has authored several important papers in academic journals.

In the August 26, 2000 issue of Nature, Ramakrishnan and his coworkers published the structure of the small ribosomal subunit of Thermus thermophilus, a heat-stable bacterium related to one found in the Yellowstone hot springs.

With this 5.5 Angstrom-resolution structure, Ramakrishnan's group identified key portions of the RNA and, using previously determined structures, positioned seven of the subunit's proteins.

In the September 21, 2000 issue of Nature, Ramakrishnan published two papers. In the first of these, he presents the 3 Angstrom structure of the 30S ribosomal subunit.

His second paper reveals the structures of the 30S subunit in complex with three antibiotics that target different regions of the subunit. In this paper, Ramakrishnan discusses the structural basis for the action of each of these drugs.

After his postdoctoral fellowship, Ramakrishnan joined the staff of Brookhaven National Laboratory in the US. There, he began his collaboration with Stephen White to clone the genes for several ribosomal proteins and determine their three-dimensional structures.

He was also awarded a Guggenheim fellowship during his tenure there, and he used it to make the transition to X-ray crystallography.

Ramakrishnan moved to the University of Utah in 1995 to become a professor in the Department of Biochemistry. There, he initiated his studies on protein-RNA complexes and the entire 30S subunit.

He since moved to the MRC Laboratory of Molecular Biology in Cambridge, where he is a Senior Scientist and Group Leader in the Structural Studies Division. He joins the list of several Nobel laureates who worked at the laboratory.

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Nobel for Discovery of Telomeres - The Immortal Enzyme

3 Americans win medicine Nobel for chromosome research

(CNN) -- Three U.S. researchers have won the Nobel Prize in physiology or medicine for solving "a major problem in biology," the Nobel Committee announced Monday.

Jack Szostak, from left, Carol Greider and Elizabeth Blackburn will share the $1.4 million prize.

Elizabeth H. Blackburn, Carol W. Greider and Jack W. Szostak are credited with discovering how chromosomes are protected against degradation -- a field that could shed light on human aging and diseases, including cancer.

"The award of the Nobel Prize recognizes the discovery of a fundamental mechanism in the cell, a discovery that has stimulated the development of new therapeutic strategies," the committee said in a news release.

The three will share the $1.4 million prize.

It is the 100th year the prize will be awarded, and the first time that any Nobel in the sciences has gone to more than one woman.

The work that won them the prize took place in the late 1970s and early 1980s.

It centers on structures at the end of chromosomes called telomeres and an enzyme that forms them, called telomerase.

As cells divide, chromosomes need to be replicated perfectly. Work by the researchers determined that telomeres protect DNA from degradation in the process, and that telomerase maintains the telomeres.

Though there had been some speculation that the three scientists were being considered for the Nobel, the committee keeps its work top secret -- and all three researchers said they were surprised.

Szostak told CNN he got the news in "that classic early morning phone call from Stockholm."

He described it as "surprising and exciting" -- perhaps particularly for him because he has not worked on the subject for the past 20 years. "I've been working on other things," he said. "It started off as a collaboration with me and Liz [Blackburn] -- Carol [Greider] was a student of hers."

The work began as "a long-standing puzzle that we were interested in solving," he said. "It was only over later years that it emerged, through the work of many people, that this was probably important for aging andcancer."

How it might help fight such diseases is not yet known, Szostak said. "It will take a while yet for that to be figured out."

Blackburn and Greider did not immediately return calls from CNN.

In a telephone conversation with the editor-in-chief of the Nobel Prize Web site nobelprize.org, Greider said she had been attracted to the field of research because "it seemed like the unanswered question."

She also said telomere research has a higher proportion of women than other fields because in its early days, the lead researchers brought women into the field. She called it a situation in which "you have someone that trains a lot of women and then there's a slight gravitation of women to work in the labs with other women."

She added, "I think actively promoting women in science is very important because the data has certainly shown that there has been an underrepresentation. And I think that the things that contribute to that are very many ... subtle, social kinds of things."

Blackburn, in a separate conversation posted on the Web site, said the proportion of women in telomere research is "fairly close to the biological ratio of men and women."

"It's all the other fields that are aberrant," she added, laughing.

The field of study intrigued her because "it's so intricate and complicated, and you want to know how it works," she said.

Blackburn was Greider's supervisor at the University of California, Berkeley. Now Blackburn is at the University of California, San Francisco. Greider is a professor at Johns Hopkins University School of Medicine in Baltimore, Maryland.

Szostak was previously at Harvard Medical School and is currently professor of genetics at Massachusetts General Hospital in Boston, Massachusetts.

Married with two children, he told CNN he has "no idea" what he'll do with his portion of the monetary prize -- about $467,000.

CNN asked whether he thinks his children, ages 9 and 12, will suddenly think dad's work is "really cool."

"Well," Szostak said, laughing, "maybe."

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Nobel Prize for Optical Fibre and Electronic Eye for Digital Camera Invention

3 win Nobel in physics for digital devices

Three scientists won the Nobel Prize in physics on Tuesday for two breakthroughs that led to two major underpinnings of the digital age -- fiber optics and digital photography, the Royal Swedish Academy of Sciences said.

Willard Boyle, left, and George Smith handle a charge-coupled device in 1974.

Charles K. Kao, a British and U.S. citizen, won for "groundbreaking achievements concerning the transmission of light in fibers for optical communication."

Willard S. Boyle, a Canadian and U.S. citizen, and George E. Smith, a U.S. citizen, "invented the first successful imaging technology using a digital sensor, a CCD (Charge-Coupled Device)."

Kao in 1966 "made a discovery that led to a breakthrough in fiber optics. He carefully calculated how to transmit light over long distances via optical glass fibers," the academy said in a press release.

Today, "optical fibers make up the circulatory system that nourishes our communication society" and "facilitate broadband communication such as the Internet," the academy said.

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Boyle and Smith's Charge-Coupled Device -- invented in 1969 -- "is the digital camera's electronic eye" and paved the way for digital photography.

"It revolutionized photography, as light could now be captured electronically instead of on film. The digital form facilitates the processing and distribution of these images. CCD technology is also used in many medical applications, e.g. imaging the inside of the human body, both for diagnostics and for microsurgery."

The Nobel Prizes are being awarded this week and next. The medicine award was handed out on Monday.

The prizes for chemistry and literature will be awarded Wednesday and Thursday. The Nobel Peace Prize winner will be named on Friday, and the award in economics will be issued on Monday.

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eBay Dropshipping - Start Your Own Home Business

Can Dropshipping Help My Ebay Business?

Author: JamesThomas

EBay is a great place to find bargains online, but did you know that it's also a great place for you to start your own work from home business? In fact, by using this guide to drop shipping, you'll find out just how simple it can be to earn cash from your living room!

eBay is an auction site that is popular throughout the world, but it's a particularly booming business in the USA. The great thing about it is that it's actually one of the easiest ways to start up a business, as all you have to do is create a listing for an item and watch as people bid on it. Unlike other businesses, eBay already has millions of customers, so you don't have to do your own marketing - in fact all you have to do is keep up with your eBay competition.

The main problem that people have when starting their eBay business is sourcing products to sell. It can be expensive to start up if you have to purchase bulk loads of different items and you're your somewhere to store them until they sell, but there are alternatives which you should consider that allow you to start your business for next to nothing and beat the prices of your eBay competition.

Drop shipping is the process that you need to know. As a guide to drop shipping and how it works, quite simply you will advertise products for sale that you are the property of your wholesale supplier. They will provide you with all the photos and details you need to create your listing, and once you have made a sale, you simply raise an order with your wholesaler, and you keep any profit you have made from the sale. It's a method which big sellers use to blow their eBay competition out of the water, and you can use it to.

One of the major benefits of using this guide to drop shipping is that you don't need any start up cash to get selling with your business. All you have to do is have access to the internet and the ability to create an eBay listing.

The hardest thing that you will have to do is find a reliable drop shipper. There are many people who advertise their services as being drop shippers, but in truth they are nothing more than companies looking to take advantage of you, and the exorbitant prices you will end up paying will not help beat your eBay competition.

In fact, as a guide to drop shipping reliably, your best bet is to find a good quality wholesale supplier that offers a drop shipping service. Trustworthy companies will be fully contactable, and have customer service assistants who are glad to be helping you. They will offer you the lowest prices available for your products which will help you ensure that you are making the best profits, and are able to survive against the eBay competition. A good quality wholesale drop shipper is your key to eBay success.

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News and Sources for Wholesale Drop Shipping and Online Products Sourcing. Discover Drop Shipper Tips to Wholesale Marketing, and Finding Profitable Merchandise for Resell.

Article Source: ArticlesBase.com - Can Dropshipping Help My Ebay Business?

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