Make srikumar as your homepage

< >

   
 
Please check "WHAT IS NEW?"  to see new pages we are adding. Enjoy

CAD Free stuff | NRI | Jobs | Home pages Education | Movies | Games | Music | Indian Music | A  to Z topics | Science| Job Posting | What is New? |

 Engineering| Alumni | Health | Sports |Tourism |Computers | Business | Oman 123| 3D perspectives | Chat Free downloads |Shopping | Family | Comments
Articles| Advertising | Cooking | Humour | Interior Design| Marketing |Toastmasters
 

 
Home
Art of Living
CAD
Cooking
Education
Engineering
Freestuff
Feng Shui
 
< >
 
Games
Health
Question papers
Humour
House plans
Jobs
Interior Design
 
Jokes
Kids
Music
Movies
NRI
Oman123
 

Contact:
L.Srikumar Pai
B.Sc( Engg.), MIE, MIWWA, MICI
Civil Engineer & CAD Specialist
Web master

See my 3d perspectives using AutoCAD & 3DS Max.
3D Album
New

 

Two novel ways to kill TB discovered

Main Article page | Health page| Disease articles | Links

 

London, (ANI): Scientists have discovered two novel ways of killing the bacteria that cause tuberculosis (TB).

According to researchers at Albert Einstein College of Medicine of Yeshiva University, their findings could lead to a potent TB therapy that would also prevent resistant TB strains from developing.

"This approach is totally different from the way any other anti-TB drug works. In the past few years, extremely drug resistant strains of TB have arisen that can't be eliminated by any drugs, so new strategies for attacking TB are urgently needed," said William R. Jacobs, Jr., the study's senior author and professor of microbiology and immunology and of genetics at Einstein, as well as a Howard Hughes Medical Institute investigator.

Tuberculosis is caused by the bacterial species Mycobacterium tuberculosis. In searching for a new Achilles' heel for M. tuberculosis, Jacobs and colleagues focused on an enzyme called GlgE.

Previous research had suggested that GlgE might be essential for the growth of TB bacteria. GlgE would also be an excellent drug target because there are no enzymes similar to it in humans or in the bacteria of the human gut.

The GlgE research revealed a previously unknown enzymatic pathway by which TB bacteria convert the sugar trehalose (consisting of two glucose molecules) into longer sugar molecules known as alpha glucans - building blocks that are essential for maintaining bacterial structure and for making new microbes through cell division.

GlgE was the third of four enzymes involved in this pathway leading to alpha glucans molecules.

Sure enough, when the researchers inhibited GlgE, the bacteria underwent "suicidal self-poisoning": a sugar called maltose 1-phosphate accumulated to toxic levels that damaged bacterial DNA, causing the death of TB bacteria grown in Petri dishes as well as in infected mice.

"We were amazed when we knocked out GlgE that we saw this DNA damage response. That's usually a very effective way to kill bacteria, when you start damaging the DNA," Jacobs said.

The researchers discovered a second way of killing TB after observing a crucial connection between their novel alpha glucan pathway and a second pathway that also synthesizes alpha glucans.

When the researchers knocked out one of the other enzymes in their novel pathway, the pathway's shutdown didn't kill the bacteria; similarly, inactivating an enzyme called Rv3032 in the second alpha glucan pathway failed to kill the microbes.

But inactivating both of those enzymes caused what the researchers term synthetic lethality: two inactivations that separately were nonlethal but together cause bacterial death.

"The bacteria that cause TB need to synthesize alpha glucans. And from the bacterial point of view, you can't knock out both of these alpha glucan pathways simultaneously or you're dead. So if we were to make drugs against GlgE and Rv3032, the combination would be extremely potent. And since TB bacteria need both of those alpha glucan pathways to live, it's very unlikely that this combination therapy would leave behind surviving bacteria that could develop into resistant strains," Jacobs said.

Jacobs adds that findings from this study could also enhance treatment of diseases caused by other species of mycobacteria.

The research has been published in the March 21 online issue of Nature Chemical Biology. (ANI)

ANI / Yahoo news

 
Contact
Personality
Reiki
Real Estate 
Stories
TV
Toastmaster 
Vaastushastra
What is New?
 
< >
 
Free MP3
Results
AutoCAD Blocks
3D Max textures
Printer Drivers
Entrance Test
IAS Topper
 
Public Speaking
Shopping
Translation
Tourism
Useful articles
 
 
 
 
 

 

 
We have provided links for the public use and not responsible for the contents of any site.

About us | Submit your site |Suggestions | A to Z topics |Advertising | Auctions | Alumni | Arts | Astrology | Animals | BusinessCooking CAD| Chat | Computers | Disabled People
Environment | Education | Engineering | Family | Freebies | Fun | Games | Health | India | Jobs | Jokes |Kerala | Kids | NRI News |   Movies | Music | Medicine | Photography | Religion |
 Reference | Science | Shopping | Sports | Tenders | Tourism | Vaastu shastra | Women | World | Zoo
Copyright www.srikumar.com 2009-2010