ANTIGENIC DRIFT

'Antigenic drift'^[1]^[2] is the process of random accumulation of mutations in viral genes recognized by the immune system. Such accumulation may significantly change the antigens of the virus, and may help it evade the immune system. This process may lead to a loss of immunity, or in vaccine mismatch when one of the strains selected for the vaccine doesn't optimally match the circulating strains. Antigenic drift may also allow a virus to jump to a new host species.

Antigenic drift in Influenza Viruses

In the influenza virus, the two relevant genes are the surface proteins, hemagglutinin and neuraminidase. The hemagglutinin is responsible for entry into host epithelial cells while the neuraminidase is involved in the process of new virions budding out of host cells. The host immune response to viral infection is largely determined by the immune system's recognition of these influenza antigens. Vaccine mismatch is potenially a serious problem. Antigenic Drift is continuous process of genetic change among flu strains.
As in all RNA viruses, mutations in influenza occur frequently because the virus' RNA polymerase has no proofreading mechanism, providing a strong source of mutations. Mutations in the surface proteins allow the virus to elude some host immunity, and the numbers and locations of these mutations that confer the greatest amount of immune escape has been an important topic of study for over a decade^[2]^[2]^[2].
Antigenic drift has been responsible for heavier-than-normal flu seasons in the past, like the outbreak of influenza A Fujian (H3N2) in the 2003 - 2004 flu season. All influenza viruses experience some form of antigenic drift, but it is most pronounced in the influenza A virus.
Vaccine mismatch is potenially a serious problem. Antigenic Drift is continuous process of genetic change among flu strains. Antegenic drift can result in vaccine mismatch when one of the strains selected for the vaccine doesn't optimally match the circulating influenza strains. In 2003-2004 A/H3N2 mismatched influenza type 87% drifted in mismatched type.
Antigenic drift should not be confused with antigenic shift, which refers to a more abrupt change in the antigenes.
As well, it is different from random genetic drift which is a very different but important process in population genetics.

External links

★ An illustration of antigenic drift

★ A technical definition

This article provided by Wikipedia. To edit the contents of this article, click here for original source.

	Walden Tours
	Cricket Cruise & Travel
	Travelers Emergency Hotline
	Voyages Bergeron
	Red Tag Vacations
	Zoom Rent-A-Car - Toronto Pearson Airport
	Zoom Rent-A-Car - Brampton
	itravel2000.com
	Zoom Rent-A-Car - Mississauga
	Doubletree Fallsview Resort & Spa by Hilton - Niagara Falls

	Watch & Experience 7 Unforgettable Tanzania Safari Moments
	Eight Towanda Biker Chicks Take On Great Ocean Road, Australia
	Legendary Arabian Nights & Bedouin Hospitality in Jordan
	Top Biking Adventures & Tours Around the World
	Great White Shark Cage Diving on Any Budget
	How to Get a Tibet Permit or Visa to China: Tips for Travelers

Home

Blogs

Deals

Videos

Tips

Articles

Directory

Languages

ANTIGENIC DRIFT

Antigenic drift in Influenza Viruses

See also

External links

Customer Service

Most Popular

Useful

Find

Username:	Password:

	or Sign up here