Home About Us Media Kit Subscriptions Links Forum
 
APPEARED IN


View All Articles

Download PDF

FAMOUS INTERVIEWS

Directories:

SCHOLARSHIPS & GRANTS

HELP WANTED

Tutors

Workshops

Events

Sections:

Books

Camps & Sports

Careers

Children’s Corner

Collected Features

Colleges

Cover Stories

Distance Learning

Editorials

Famous Interviews

Homeschooling

Medical Update

Metro Beat

Movies & Theater

Museums

Music, Art & Dance

Special Education

Spotlight On Schools

Teachers of the Month

Technology

Archives:

2014

2013

2012

2011

2010

2009

2008

2007

2006

2005

2004

2003

2002

2001

1995-2000


FEBRUARY 2009

Weill Cornell Medical College Researcher Revolutionizes Cell Biology

The National Science Foundation has awarded Weill Cornell Medical College researcher Dr. Scott Blanchard its prestigious Career Award, recognizing his groundbreaking work in cell biology—work that is poised to revolutionize research for the next generation of young scientists.

The award totals more than $806,000 spread over five years.

Dr. Blanchard is a Strategic Plan recruit in the Department of Physiology and Biophysics, and joined the college in 2004 as an assistant professor. He is perhaps best known for advancing fluorescence technologies that allow scientists to observe the activities of single molecules in real-time. Much of his previous and ongoing research has been focused on the ribosome, the complex molecular machine responsible for translating DNA-encoded instructions into usable proteins.

“I’m extremely gratified to receive this award. It will help significantly to expand our work on the ribosome—work that has potential for drug discovery. Nearly half of all therapeutic agents target the ribosome. Nevertheless, we know precious little about how they affect this complex enzyme at the molecular level,” Dr. Blanchard says. “The NSF award will shed important new light on conserved aspects of the ribosome mechanism across species, enhancing not only our basic knowledge how this enzyme is able to synthesize protein, but also furthering our knowledge of how antibiotics work.”

“This NSF award recognizes both Dr. Blanchard’s important contribution to the field, as well as Weill Cornell’s commitment to the kind of basic research that can yield real clinical breakthroughs,” adds Dr. David P. Hajjar, senior executive vice dean and executive vice provost of Weill Cornell Medical College. Dr. Hajjar is also dean of Weill Cornell’s Graduate School of Medical Sciences, the Frank H.T. Rhodes Distinguished Professor of Cardiovascular Biology and Genetics, professor of biochemistry, and professor of pathology and laboratory medicine at Weill Cornell Medical College and the Graduate School of Medical Sciences.

An NSF Career Award is typically designed to fund basic-science and has a strong educational component, including the training of young scientists at the high school and undergraduate level.

“It’s rare that the NSF bestows such an award upon a medical college, since these grants typically go to undergraduate institutions with a heavy emphasis on the basic-sciences,” adds Dr. Hajjar. “But Weill Cornell is strongly committed to supporting basic-science with an eye to translational research—bringing discoveries made in the lab up to the level where they can be used to solve clinically relevant problems. So, in bestowing this award, the NSF is also recognizing Weill Cornell as one of the elite basic-science training institutions in the nation.”

Dr. Blanchard’s work in fluorescence microscopy aims to revolutionize the way we examine how enzymes work.

“Until recently, scientists have been forced to observe the activity of enzymes en masse. This method measures only the average behavior of many billions of molecules present in a test tube, and is an expensive and relatively imprecise approach,” Dr. Blanchard explains. “Or they rely on computational methods that animate static structural models. Single-molecule fluorescence microscopy aims to integrate these disparate views of enzyme function—we actually watch photons of light coming out of a single molecule and use it to track a molecule’s location, its interaction with other molecules, and tiny motions within the molecule itself. From these data, we hope to generate the first experimentally validated movies of single molecules at work.”

Since coming to Weill Cornell from Stanford University, Dr. Blanchard has focused his work on the ribosomal functions present in one of the most basic organisms on earth—the E. coli bacterium.

“We looked first at E. coli because it has been exhaustively researched and its basic functions are relatively well understood. It was a proof-of-principle project that demonstrated that single-molecule fluorescence microscopy could illuminate ribosomal activity,” the researcher explains.

But the most exciting research lies ahead.

“We know that the ribosome works by similar mechanisms across organisms and cell types. Yet subtle variations in function are evident in the effectiveness of ribosome-targeting antibiotics used clinically for the past 50 years,” Dr. Blanchard says.

These antibiotics target—and disrupt—bacterial ribosome functions, while leaving the human cell’s ribosome alone. “We also suspect that the ribosomes of different human cell types work differently, depending on the organ or tissue in question,” he adds. “Understanding and exploiting these differences may lead to opportunities for discovering highly targeted, safer, and more effective medicines.”

The fight against cancer is perhaps the greatest frontier for this avenue of research. “We have a pretty good idea that the ribosome functions inside cancer cells are markedly different from those inside healthy cells,” Dr. Blanchard explains. “So, the ultimate goal here is to explore whether compounds like those used to target bacterial infection can be used to target only the cancer cell.”

All of these breakthroughs are still years or even decades away, he cautions. But it’s exciting stuff—both for established researchers such as Dr. Blanchard and the next generation of up-and-coming scientists.#

COMMENT ON THIS ARTICLE

Name:

Email:
Show email
City:
State:

 


 

 

 

Education Update, Inc.
All material is copyrighted and may not be printed without express consent of the publisher. © 2009.