Forum for Science, Industry and Business
Sponsored by:     Siemens  n-tv 
Search our Site:

Topic (optional):

 

Home Reports Life Sciences Content

Bacterial viruses make cheap easy vaccines

next article
10.03.2003

 


Genetically altered bacterial viruses appear to be more effective than naked DNA in eliciting an immune response and could be a new strategy for a next generation of vaccines that are easy to produce and store, say researchers from Moredun Research Institute in the United Kingdom.


"In theory, millions of doses can be grown within a matter of days using simple equipment, media and procedures," says John March, one of lead researchers presenting findings at the American Society for Microbiology’s Biodefense Research Meeting.

Bacteriophages are viruses that infect bacteria but not humans. In this particular study, March and his colleagues used a bacteriophage as a vehicle for genes from hepatitis B virus in mice and compared its ability to elicit a protective immune response with a vaccine made of naked DNA. They found that not only could the bacteriophage induce an immune response, the number of bacteriophage they needed was less than 1 percent of the number of pieces of naked DNA required to mount an effective immune response.

Using bacteriophages to deliver vaccine components offers several advantages over vaccination with naked DNA, says March. The DNA is protected inside the protein shell of the virus making it longer lasting and easier to store. In addition, bacteriophages have a large cloning capacity, making large-scale production cheap, easy and extremely rapid – important attributes considering the current bioterrorism threat when sudden demands may be placed on vaccine stocks.


The American Society for Microbiology (ASM) is the largest single life science society, composed of over 42,000 scientists, teachers, physicians, and health professionals. Its mission is to promote research and training in the microbiological sciences and to assist communication between scientists, policymakers, and the public to improve health, economic well being, and the environment. Further information on the ASM Biodefense Research Meeting can be found online at www.asmbiodefense.org.

Jim Sliwa | Source: EurekAlert!
Further information: www.asmbiodefense.org.
www.asmusa.org/

next article

More articles from Life Sciences:

nachricht Scientists Unravel Evolution of Highly Toxic Box Jellyfish
20.11.2009 | NOAA Fisheries Northeast Fisheries Science Center

nachricht Texas A&M Researchers Examine How Viruses Destroy Bacteria
20.11.2009 | Texas A&M University

All articles from Life Sciences >>>

B2B Search

Product / Service
Company / Organisation

Latest News

Scientists Unravel Evolution of Highly Toxic Box Jellyfish

20.11.2009 | Life Sciences

When good companies do bad things: Examining illegal corporate behavior

20.11.2009 | Business and Finance

UCR plant scientist's research spawns new discoveries showing how crops survive drought

20.11.2009 | Agricultural and Forestry Science

VideoLinks

Event News

Multidisciplinary meeting on Urological Cancers aims to benefit cancer patients

20.11.2009 | Event News

'Golden Age' for clinical psychology in Northern Ireland

20.11.2009 | Event News

New Perspectives in Marine Anti-Fouling Research

11.11.2009 | Event News