memory B cells
When B cells become activated they differentiate into two types of cells: plasma cells and memory cells. Plasma cells produce antibodies while memory cells linger in the system so if there is ever an invasion that the body has encountered before the body will know exactly how to destroy the pathogen.
the B-cell lymphocytes do produce antibodies.
After a person has had a disease, the lymphocytes remain to produce more antibodies for that pathogen if the disease is encountered again. This is called IMMUNITY.
It has become activated/stimulated.
Vaccines are beneficial in that they have helped prevent millions of cases of infectious disease, and hundreds of thousands of deaths. Vaccines have eliminated the scourge of smallpox from the face of the earth, and polio and other diseases have been largely controlled. A vaccine acts by stimulating a person's own immune system to produce antibodies against parts of a bacterium or virus. When the person is once again exposed to that bacterium or virus, the body can quickly produce antibodies and prevent infection. In addition, vaccines can protect individuals who have not been immunized. If the percentage of the population that is vaccinated is high enough, epidemics can't take hold, as there are not enough susceptible individuals for the infection to spread. This helps to protect those individuals who are either unable to take the vaccine, unable to mount an immune response (chronically illl individuals, infants under 6 months old, people on immunosuppressant medications), or who had a poor response to the vaccine (and didn't become immune).
When B cells become activated they differentiate into two types of cells: plasma cells and memory cells. Plasma cells produce antibodies while memory cells linger in the system so if there is ever an invasion that the body has encountered before the body will know exactly how to destroy the pathogen.
No. May becomes June.
produce antibodies
If your body didn't produce enough antibobies you'll become somehow vulnerable to diseases or in other words your chances to get ill will increase as compare to person whose body is producing "moderate" amount of antibodies. Any increase or decrease in actual amount of antibodies production can lead to problems. For example, AIDS is actually "acquired immunity deficiency syndrome" in which body fails to produce antibodies of "acquired immunity".And if your body produce antibodies more than actual amount you can suffer from "sensitivity" or "allergy" e.g dust allergy. If your body didn't produce enough antibobies you'll become somehow vulnerable to diseases or in other words your chances to get ill will increase as compare to person whose body is producing "moderate" amount of antibodies. Any increase or decrease in actual amount of antibodies production can lead to problems. For example, AIDS is actually "acquired immunity deficiency syndrome" in which body fails to produce antibodies of "acquired immunity".And if your body produce antibodies more than actual amount you can suffer from "sensitivity" or "allergy" e.g dust allergy.
No. When you are immunized you are injected with an inactive version of the virus so your body learns how to fight it off and you become permanently immune.
Vaccinations helps to trigger the immune system in the body to produce antibodies. Once the immune system has been boosted up, it helps to prevent infection in the body thus preventing you from diseases
It is a type of leukocyte, or white blood cell, but it has no ability to ingest or destroy invading bacteria. It activates other white blood cells or antibodies to react with the invading organism.
the B-cell lymphocytes do produce antibodies.
After a person has had a disease, the lymphocytes remain to produce more antibodies for that pathogen if the disease is encountered again. This is called IMMUNITY.
there are 100,000 antibodies on the surface of b-cells which are specific for particular type of antigen therefore if specific antibody recognize the particular type antigen then it attach with it and activated.
It has become activated/stimulated.
Monoclonal antibodies (mAb or moAb) are monospecific antibodies that are made by identical immune cells that are all clones of a unique parent cell, in contrast to polyclonal antibodies which are made from several different immune cells. Monoclonal antibodies have monovalent affinity, in that they bind to the same epitope. Given almost any substance, it is possible to produce monoclonal antibodies that specifically bind to that substance; they can then serve to detect or purify that substance. This has become an important tool in biochemistry, molecular biology and medicine. When used as medications, the non-proprietary drug name ends in -mab (see "Nomenclature of monoclonal antibodies"), and many immunotherapy specialists use the word mab anacronymically.