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Researches discover about DNA of Lyme Disease bacteria

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New York: A group of scientists at the CUNY Graduate Centre has generated a genetic analysis of the bacteria causing Lyme disease, which could lead to better identification, management, and prevention of the illness spread by ticks.

A global team led by lead author Saymon Akther, a former Ph.D. student in biology at the CUNY Graduate Centre, and biology professor Weigang Qiu of Hunter College and the CUNY Graduate Centre mapped the entire genetic composition of 47 strains of bacteria related to Lyme disease from around the globe, developing a potent tool for identifying the bacterial strains that infect patients. 

Diagnostic Procedures
This could allow for more precise diagnostic procedures and therapies that are specific to the germs causing each patient's ailment, according to researchers. The findings of the study were published in mBio journal.

"By understanding how these bacteria evolve and exchange genetic material, we're better equipped to monitor their spread and respond to their ability to cause disease in humans," said Qiu, the corresponding author of the study.

Researchers said the genetic information uncovered in the study may help scientists develop more-effective vaccines against Lyme disease.

What is a Lyme Disease?
Lyme disease is the most common tick-borne illness in North America and Europe, affecting hundreds of thousands of people a year. The disease arises from bacteria belonging to the Borrelia burgdorferi sensu lato group, which infect people through the bite of infected ticks. Symptoms can include fever, headache, fatigue, and a characteristic skin rash.

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If left untreated, the infection can spread to joints, the heart, and the nervous system, causing more severe complications.

Case numbers are increasing steadily, with 476,000 new cases each year in the United States, and may grow faster with climate change, the authors of the study said.

The research team, led by scientists from the CUNY Graduate Center and Hunter College, Rutgers, Stony Brook, and more than a dozen other research institutions, sequenced the complete genomes of Lyme disease bacteria representing all 23 known species in the group. Most hadn't been sequenced before the effort. 

Evolution history of Lyme Disease 
The National Institutes of Health-funded project included many bacteria strains most associated with human infections and species not known to cause disease in humans.

By comparing these genomes, the researchers reconstructed the evolutionary history of Lyme disease bacteria, tracing the origins back millions of years. They discovered the bacteria likely originated before the breakup of the ancient supercontinent Pangea, explaining the current worldwide distribution.

The study also disclosed how these bacteria exchange genetic material in and between species. This process, known as recombination, allows the bacteria to rapidly evolve and adapt to new environments.

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The researchers identified specific hot spots in the bacterial genomes where this genetic exchange occurs most frequently, often involving genes that help the bacteria interact with their tick vectors and animal hosts.

To facilitate ongoing research, the team has developed web-based software tools (BorreliaBase.org) that allow scientists to compare Borrelia genomes and identify determinants of human pathogenicity.

Climate Change 
Looking ahead, the researchers said they plan to expand their analysis to include more strains of Lyme disease bacteria, especially from understudied regions. They also aim to investigate the functions of genes unique to disease-causing strains, which could uncover new targets for therapeutic interventions.

As Lyme disease expands its geographic range because of climate change, the research provides valuable tools and insights for combating this rising public health threat. (with Agency inputs)

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