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Excelitas Technologies Corp. - X-Cite Vitae LB 11/24

EDT Helps Abbreviate Protein Studies

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BALTIMORE, Md., April 23, 3007 -- PhosphoMotif Finder, a publicly available database on the Web (www.hprd.org/PhosphoMotif_finder) that could speed the work of researchers around the world, is the result of a new technique that reads the makeup of proteins to identify nearly all chemical changes nature makes by adding phosphate to proteins manufactured in human cells.

The method involves electron transfer dissociation (ETD) tandem mass spectrometry, a technology that breaks apart proteins into small fragments, separates them by size and identifies the fragments based on their mass -- their size and weight. It improves on previous techniques by breaking up proteins more gently and keeping chemical modifications like phosphorylation intact.

A Johns Hopkins team added its list of these so-called phosphorylation events to lists compiled by others to create PhosphoMotif Finder.

"Finding so many at one time is a huge advance," says Akhilesh Pandey, MD, PhD, an associate professor at the McKusick-Nathans Institute of Genetic Medicine at Johns Hopkins. "Phosphorylation is essential for controlling chemical reactions in our cells' protein factories, and phosphorylation gone awry has been implicated in several diseases. The ability to study more than one phosphorlyation at a time will help us understand some of these diseases -- including cancers -- sooner.

"What we have here is about 20 years' worth of lots of work in one searchable list," said Pandey.

Previous spectrometry methods were "just too rough" on the delicate protein alterations and sheared them right off, Pandy said. "We had to guess where they might be, and nobody wants to chase false leads based on wrong guesses."

The original goal of the research was to identify accurately as many protein changes as possible using the new technology, he said. "But to see how well we measured up, we had to compare our findings to what already was published, and there was just no clean, easy way of doing that because there were reports all over the place. That's when we decided to go through and consolidate just about everything on phosphorylation that was out there."

Working with human kidney cells, the researchers fished out the thousands of different proteins and analyzed them by ETD, resulting in a net total of 1435 phosphorylations. Comparing these 1435 to the 20 years' of published data, they discovered that about 80 percent of what they found never had been reported.

Excelitas PCO GmbH - PCO.Edge 11-24 BIO MR

The team then constructed an online search tool, PhosphoMotif Finder, which was incorporated into their previously established Human Protein Reference Database. Human Protein Reference Database now contains about 16,000 phosphorylation sites described in the literature, and the PhosphoMotif Finder tool allows any researcher to find potential phosphorylation sites in any protein of interest.

"The power of this technique is not just in the numbers," said Pandey. "Rather, we've found what you might call new information about old proteins, and we hope the new data will help researchers study their favorite proteins in greater depth. After all, there's no sense in reinventing the wheel."

Pandey and his team now are curious about other chemical modifications of proteins, which are the "business-end" products of our genes.

"There is evidence of other, more fragile modifications that until now no one has been able to get a handle on because they're way too hard to work with. Now we have the tools to probe further," he says.

The research was funded by the US Public Health Service, Canadian Institute of Health Research, National Institutes of Health, National Heart, Lung and Blood Institute and the National Multiple Sclerosis Society.

A report on all of the newly identified protein alterations was published in the Feb. 13 issue of the Proceedings of the National Academy of Sciences, and a report on the database appears in the March issue of Nature Biotechnology. Authors of the Proceedings of the National Academy of Sciences paper are Henrik Molina and Pandey, of Johns Hopkins; Suresh Mathivanan of the Institute of Bioinformatics in Bangalore, India; and David Horn and Ning Tang of Agilent Technologies in Santa Clara, Calif. Authors of the Nature Biotechnology paper are Ramars Amanchy, Balamurugan Periaswamy, Suresh Mathivanan, Raghunath Reddy, and Pandey, all of Johns Hopkins; and Sudhir Gopal Tattikota of the Institute of Bioinformatics in Bangalore, India.

For more information, visit: pandeylab.igm.jhmi.edu

Published: April 2007
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photonics
The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection, amplification and detection by optical components and instruments, lasers and other light sources, fiber optics, electro-optical instrumentation, related hardware and electronics, and sophisticated systems. The range of applications of photonics extends from energy generation to detection to communications and...
Akhilesh PandeyBiophotonicselectron transfer dissociationETDJohns HopkinsNews & FeaturesPhosphoMotif Finderphosphorylationphotonicsspectroscopytandem mass spectrometry

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