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Advancement in Virus Research

Context:

The Gujarat Biotechnology Research Centre (GBRC) in Gandhinagar has achieved a significant milestone by successfully publishing the first fully mapped genome of the Chandipura Vesiculovirus (CHPV). This virus is known for causing encephalitis, a condition characterized by brain swelling. The mapping comes in the wake of a substantial outbreak that affected numerous individuals in Gujarat during July and August, highlighting the critical importance of this research in understanding and combating the virus effectively.

Relevance:

GS II: Health

Dimensions of the Article:

  1. Genome Mapping
  2. Specific Findings from GBRC’s Genome Mapping of CHPV
  3. Chandipura Virus

Genome Mapping

  • Definition and Process: Genome mapping involves identifying gene locations and key sequences within a genome, providing insights into the origins, mutations, and potential dangers of viruses.
  • Types of Genome Maps:
    • Genetic Maps: Display gene positions based on recombination frequencies.
    • Physical Maps: Indicate exact gene positions using DNA base pairs.
Importance of Genome Mapping
  • Medical Advancements: Facilitates the early detection of genetic diseases, aids in creating personalized medical treatments, and enhances genetic counseling effectiveness.
  • Agricultural Benefits: Helps in breeding programs by identifying traits that enhance yield, disease resistance, and quality in crops and livestock.
  • Virus Research: Essential for developing vaccines by analyzing the genomic structures of pathogens, such as those causing COVID-19 and Chandipura virus (CHPV).
  • Evolutionary Biology: Provides insights into the evolutionary relationships among species by analyzing genetic sequences.
Challenges in Genome Mapping
  • Complexity in Larger Genomes: Genomes of plants and animals can be complex and repetitive, complicating precise mapping efforts.
  • Privacy and Ethical Concerns: Issues arise over the use and access to genetic information.
  • Resource Intensity: Requires significant financial and technological investment, with ongoing challenges in interpreting the relevance of various genes and sequences.

Specific Findings from GBRC’s Genome Mapping of CHPV

  • Genetic Stability: The CHPV strain from a recent outbreak in Gujarat shows minimal genetic variation from the 2012 strain, except for a single mutation in the glycoprotein-B gene, crucial for the virus’s interaction with human cell receptors.
  • Impact Despite Low Viral Load: Despite low viral load indicated by high Cycle Threshold values in RT-PCR tests, the virus caused severe symptoms.
  • Indigenous Strain Confirmation: Sequencing confirms that the current strain is similar to those identified in previous outbreaks within India (2003-04, 2007), distinct from strains outside India, indicating no external introduction.

Chandipura Virus

  • Nature of the Virus: Chandipura virus is an infectious agent known to cause Acute Encephalitis Syndrome (AES), which can lead to severe brain swelling and is potentially lethal.
  • Symptoms and Impact: It manifests as fever, headache, and encephalitis, leading to severe neurological symptoms like convulsions, coma, and often death within days after the onset.
Transmission Vectors
  • Virus Classification: The Chandipura virus is part of the Rhabdoviridae family, akin to the rabies virus.
  • Vectors: The virus is transmitted to humans through bites from Phlebotomine sandflies and Phlebotomus papatasi, with Aedes aegypti mosquitoes also serving as carriers.
  • Infection Mechanism: It resides in the salivary glands of these vectors and infects vertebrates via bites.
Progression and Clinical Presentation
  • Infection Spread: Post-bite, the virus rapidly invades the central nervous system, causing encephalitis characterized by brain inflammation.
  • Symptomatology: Initial symptoms include flu-like effects, progressing to more severe conditions such as altered mental status, seizures, respiratory issues, and bleeding tendencies.
  • Disease Course: The progression is swift, typically resulting in fatality within 24-48 hours post-hospitalization.
Demographics and Epidemiology
  • High-Risk Group: Mainly affects children under the age of 15.
  • Seasonality: Peaks during monsoon seasons when sandfly populations increase, leading to more frequent outbreaks.
Historical Data and Epidemiological Patterns
  • Discovery: Identified in 1965 during investigations for dengue and chikungunya in Maharashtra, India.
  • Notable Outbreaks: Significant outbreaks were recorded in 2003-2004 in Maharashtra, northern Gujarat, and Andhra Pradesh, with over 300 child fatalities.
  • Case Fatality Rates: Notably high fatality rates, with 78% during the Gujarat outbreak in 2004 and 55% in Andhra Pradesh in 2003.
  • Endemic Areas: The virus remains endemic in central India, predominantly affecting rural, tribal, and peripheral regions where vector populations are dense.

-Source: Indian Express


December 2024
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