Recommended

Discover how to overcome low affinity or poor TCR yields that are slowing you down in this upcoming webinar – register your details today
WEBINAR | Discover how advances can expand the possibilities for drug discovery, from target validation to preclinical development
Facing roadblocks in obesity drug discovery? Discover how integrated, validated strategies are helping teams accelerate development and reduce risk – register your details now
Unlock the science, strategy and real-world impact behind the next generation of precision therapies – access our new brand report now >>
Safety data is no longer just a regulatory checkbox – it’s a strategic advantage. Find out more in our upcoming webinar, register your details today
WEBINAR | Join top cancer researchers to explore advances transforming early discovery, from new targets and models to the therapies of tomorrow
news

Research reveals new insights into a key antibiotic target in the fight against TB

Posted: 30 June 2015 | Victoria White

Scientists have unravelled a key process in the bacterium that causes TB, potentially paving the way for new antibiotics to fight the disease…

Scientists at the University of Sussex have unravelled a key process in the bacterium that causes tuberculosis (TB), potentially paving the way for new antibiotics to fight the disease. 

TB is one of the world’s top infectious killers, causing 1.5 million deaths every year. The TB bacterium Mycobacterium tuberculosis (Mtb) is estimated to be present in up to a third of the world’s population, although active TB only develops in around one in 10 cases. 

While TB is curable, antibiotic resistance is on the rise and so a major challenge for scientists is to continually develop new drugs to treat the disease. 

 

access your free copy

 


Biomarkers are redefining how precision therapies are discovered, validated and delivered. 

This exclusive expert-led report reveals how leading teams are using biomarker science to drive faster insights, cleaner data and more targeted treatments – from discovery to diagnostics.

Inside the report:

  • How leading organisations are reshaping strategy with biomarker-led approaches
  • Better tools for real-time decision-making – turning complex data into faster insights
  • Global standardisation and assay sensitivity – what it takes to scale across networks

Discover how biomarker science is addressing the biggest hurdles in drug discovery, translational research and precision medicine – access your free copy today

 

Now an international effort involving scientists at Sussex and the Rockefeller University in New York has revealed that the key process in Mtb cells of reading the information contained in DNA differs from that in most other bacteria.

RbpA helps in the transcription process by binding to different parts of the DNA

The process is called transcription and is conducted by an enzyme, called RNA polymerase, which uses a protein called sigma to bind with parts of the DNA. But researchers have now observed for the first time how, in Mtb, a second protein, called RbpA, helps in this process by binding to different parts of the DNA. 

Lead researcher, Dr Mark Paget, said, “Up until recently, we’ve always thought that RNA polymerase, whether it’s in one bacterium or another, is pretty much identical. We now know that Mtb uses this additional protein and exactly what role it plays in transcription”. 

RNA polymerase is one of the few proven targets for antibiotics in this organism, so this new finding should help in the testing of potential new drugs that inhibit RNA polymerase under laboratory conditions. This speeds up the drug discovery process by allowing scientists to quickly rule out treatments that do not work. 

The study findings are published in the Proceedings of the National Academy of Sciences.