The Epstein Barr virus affects more individuals per year than you may know. If you catch it, it will make you very sick. We’ll explore here what Epstein Barr is, what it does, and what it looks like.
What is Epstein Barr?
Epstein Barr is a common form of the herpes virus, specifically human herpesvirus 4. As with many forms of herpes, it is one of the most common viruses worldwide. It is also known to cause a number of different symptoms in those infected. It’s passed easily through body fluids such as saliva, which is why one of the illnesses caused by Epstein Barr is mononucleosis, or ‘the kissing disease.
As amazing as modern medicine is, Epstein Barr is still not fully understood, but we have linked it to many different and varied diseases.
Some of these include Hodgkin’s Lymphoma (cancer of the lymph nodes), multiple sclerosis, and nasopharyngeal carcinoma (another cancer, this time of the upper throat). It even has been linked to some other problems such as Parkinson’s Disease.
Effects of Epstein Barr
The effects of Epstein Barr are numerous, and many are typical of any sort of sickness. Flu-like symptoms usually arise, and the patient will experience fatigue, fever, and a sore throat. Patients have also been known to suffer from swollen lymph nodes and an enlarged spleen. Those infected with Epstein Barr most often suffer from infectious mononucleosis, leading to possible enlarged spleens. This can cause complications if the patient does not steer clear from contact sports for at least a month after the infection clears up.
Understanding Its Structure
Epstein Barr is, like most viruses, extremely tiny. The virus itself is a DNA strand that is composed of somewhere around 85 genes.
These are protected by a capsid, as most viruses are. Think of a capsid as a troop transport. It’s entire function is to keep the genetic material safe from being destroyed before it can insert itself into a host, just like a troop transport keeps soldiers safe before delivering them into the battlefield.Outside of the capsid is the tegument containing lots of different proteins, and beyond that an envelope that contains lipids (fats) that have projections that stick out, sort of like sticky tack. The envelope protects the entire structure.
The projections help to attach to the host, allowing the virus to attack the host.
How Does Its Structure Help Its Function?
The sheer size of the virus lends to its function.
Recall that most viruses are microscopic so they’re able to enter the host easily. Their size allows them to slip in undetected via saliva. Once inside, the virus utilizes its protein projections — or ‘spikes’ — to grab and attach onto the host’s cells. These specialized projections are coded for specific proteins of certain cells so the virus knows what to attack and will not waste time on other cells.As stated earlier, the capsid houses the genetic material for the virus, protecting it.
The envelope outside of the virus that the projections come out from is extremely important in protecting the whole of the virus itself. Think of it as human skin, protecting the inside from all the bad stuff outside. If the envelope gets damaged at all, the virus cannot survive to replicate in the host cells.Between the capsid and envelope, there exists the tegument, in which proteins exist. These proteins are extremely important in allowing the virus to survive. These proteins, and more importantly the enzymes thereof, help to set up the virus for replication inside of the cell.
The Epstein Barr virus is a very common sickness that affects many people.
Most commonly associated with infectious mononucleosis, much is still unknown about what effects the virus can have. Recent research has led medicine to reason that it might be closely related to a number of forms of cancer. The virus itself is microscopic, and is similar in appearance and structure to other common viruses. Highlighted features from inside to out include the genetic material, protected by the capsid, surrounded by a tegument of proteins and enzymes used for replication. Outside of that is the envelope that protects the whole of the virus, and attached to the envelope are small protein projections that specifically adhere to and help anchor the virus onto specific host cells. Once attached, the virus can inject the tegument and genetic materials and go to work copying itself over and over, creating more of the virus and making you sick.