The West Nile virus is an illness transmitted by mosquitoes. Individuals infected with this virus may be completely asymptomatic, or end up with extreme complications.
A Virus-Transmitting Insect
There are many ways in which we can get sick. Viruses and bacteria are resourceful organisms, entering into our bodies by a variety of methods. If you get sneezed on, viruses can enter through your mouth or nose. Touch a toilet in the wrong place, and bacteria hitches a ride on your hand.
Contact someone else’s blood with your open cut, and a blood borne pathogen may have been transferred.But did you know that insects can also make us sick? In fact, one in particular is known to carry within it a tiny virus, just waiting to enter our bodies.
The mosquito, infamous for its transmission of malaria, is a primary carrier of the West Nile virus. Originating in Africa, this exotic-sounding virus is harbored, carried, and transmitted by these pesky insects. Effects of this virus vary tremendously from person to person, and in a very small percentage are catastrophic. In this lesson, learn more about the structure and function of the West Nile virus, as well as its effects.
Characteristics of a Virus
Before we look at the specifics of the West Nile virus, let’s take a look at some general characteristics of viruses. As you may know, viruses behave in some ways like living organisms, but it’s a debate as to whether to consider them actually alive. Viruses are infectious agents often hosted by animals – they have their own genetic information, but can only reproduce by exploiting the bodies of other living hosts.
Structure of a West Nile Virus
What does the West Nile virus actually look like? The composition of the virus has some surprising similarities to a peanut M;M. First we find the outer layer of the virus, which is a lipid bilayer known as an envelope.
We can compare this to the chocolate layer in our M;M. However, instead of a smooth candy surface, on the virus we would see spiky glycoproteins projecting out from the envelope. These proteins will help the virus bind to the cells of its host.
Like the prized peanut hidden in our M;M, tucked safely in the center of the virus is the core, which is called the nucleocapsid The nucleocapsid is made up of two parts.
- First is the protein shell, known as the capsid.
Like a treasure chest, this structure protects the precious cargo inside.
- The second part of the nucleocapsid is genetic information in the form of single-stranded RNA.
Looking closer at the capsid, we see that it is not simply a round bubble which holds the RNA.
This protein shell is quite an advanced structure, known as an icosahedron. For those of you who are not geometry buffs, an icosahedron is an object with twenty flat faces. Perhaps a unique structure, it serves to allow for plenty of room for the all-important RNA.
Function of West Nile Virus
Virus’s seems to have one purpose: to infect the cells of new hosts and replicate. The West Nile virus is no exception.
Hosted in birds such as the American Robin, this virus is transferred to mosquitoes that bite infected birds. The virus then replicates within the mosquito, eventually congregating in the salivary glands of the insect. This is a smart move, because when the needle-like proboscis of the mosquito enters the skin of an animal or human’s body, the virus is successfully injected.Now, just like any other virus would do, the West Nile virus heads for the cells. The virus fuses with the cell membrane, delivering the capsid into the cell through the process of endocytosis. Like a burglar who has just successfully entered a home, the virus gets to work. Cell machinery is used to replicate viral RNA, and new protein shells are created.
Parts are assembled, and brand-new viruses are released to go forth and infect more cells. What does this mean for the infected individual? The answer is quite varied.
For up to eighty percent of those people infected with West Nile virus, there are no symptoms whatsoever.
You may contain this virus in your body right now and will never know it. Most of the other twenty percent will end up with what is known as West Nile fever. Flu-like symptoms will emerge, such as fever and headache, joint pain, diarrhea and vomiting.
A rash may also appear. Most individuals recover in a matter of days. However, an unlucky one percent of them will end up developing serious complicating illnesses such as encephalitis or meningitis. Results can be devastating, ending in paralysis, coma or death.
West Nile virus is a virus that is hosted by birds. Mosquitoes that bite infected birds then carry the virus and transfer it to people and animals.
Structurally, it is a spherical enveloped virus with a single strand of RNA. This RNA is enclosed in an icosahedral protein shell, making up the nucleocapsid. For eighty percent of people infected with West Nile virus, there are no symptoms. Twenty-percent will develop West Nile fever, and of those, one percent will become seriously ill with encephalitis or meningitis, or die.