RNA Silencing and Plant infective agent Diseases

2^nd World Congress Virology and Infectious disease

Date: September 3-4, 2019

Venue: London, UK

URL:https://tr.im/4k9kw

RNA Silencing and Plant infective agent Diseases

Silencing factors collaborating in antiviral defence. Each polymer and polymer viruses area unit targeted by the little polymer-directed RNA degradation pathway, with polymer viruses being conjointly targeted by RNA-directed polymer methylation.

To evade polymer silencing, plant viruses have evolved a range of counter-defence mechanisms like expressing polymer-silencing suppressors or adopting silencing-resistant RNA structures.

 This constant defence–counter defence race is probably going to possess contend a significant role in process infective agent host specificity and in shaping infective agent and presumably host genomes.

 Recent studies have provided proof that polymer silencing conjointly plays a right away role in infective agent malady induction in plants, with an infective agent RNA-silencing suppressors and infective agent siRNAs as probably the dominant players in infective agent pathogenicity.

 However, queries stay on whether or not polymer silencing is that the principal negotiator of the infective agent pathogenicity or if alternative RNA-silencing-independent mechanisms conjointly account for infective agent malady induction. Polymer silencing has been exploited as a strong tool for engineering virus resistance in plants further as in animals.

Additional understanding of the role of polymer silencing in plant–virus interactions and infective agent symptom induction is probably going to end in novel anti-viral ways in each plant and animal.

To know more about virology and infectious disease, attend an event on Plant Virology at Virology conference

Contact details:
Clara Charlotte
Program Manager | virology 2019
Email: virology@microbioconferences.com
Phone: +44 20 3769 1755