T cells will first have to be activated by peptide presentation on MHC class II and differentiate into T helper 2 cell and T helper 2 cell will secrete cytokines IL-4, IL-5 to help B cell differentiate into a plasma cell.
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∙ 14y agoT cells help activate B cells by presenting antigens to them. Activated B cells then differentiate into plasma cells, which produce antibodies. T cells also provide signals to help B cells mature and produce specific antibodies against the antigen.
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∙ 12y agoT cells and B cells respond to antigens they recognize in different ways. T cells attach to foreign, antigen-bearing cells, such as bacterial cells, and interact directly-that is byu cell-to-cell contact (cellular immune response). T cells also synthesize and secrete polypeptides called cytokines that enhance certain cellular responses to antigens. B cells attack foreign antigens in a different way. They differentiate into plasma cells, which produce and secrete large globular proteins called antibodies or immunoglobulins. Body fluids carry antibodies, which then react in ways to destroy specific antigens or antigen-bearing particles.
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∙ 11y agoT cells are effective against cancer and virus infected cells because the destroy the cell by rupturing the cell membrane. B cells are effective in fighting bacteria but don't directly take them on. Instead B cells produce antibodies which are molecules designed to latch onto antigens, the surface markers on an invading bacterium. These antibodies smother the bacterium essentially rendering it harmless until it can be devoured by a phagocyte, or eating cell.
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∙ 11y agoAs part of the immune response B cells produce antibodies which are specifically tailored to the antigens of the invading organism. Those antibodies bind to the antigens of the invading organism. This essentially neutralizes them until they can be phagocytized (eaten).
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∙ 12y agoHelper T cells activate B cells, causing them to produce antibodies
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∙ 12y agoi dont really know
Antibodies are made by a type of white blood cell called B cells. When the body detects the presence of a foreign substance (antigen), B cells are activated to produce antibodies specific to that antigen. These antibodies work to help the immune system recognize and eliminate the invader.
Organelles work together to perform specific functions in a cell. These structures each have unique roles: the mitochondria produce energy, the nucleus houses the genetic material, the endoplasmic reticulum synthesizes proteins, and the Golgi apparatus processes and packages molecules for transport. Coordination among these organelles allows the cell to carry out its various functions efficiently.
One possible analogy that could be compared with the structure and function of a cell is that of a factory. Just like how different parts of a factory work together to produce goods, different organelles in a cell work together to carry out various functions. The nucleus is like the manager, the mitochondria are like the power generator, and the ribosomes are like the assembly line workers.
The way a cell is put together is called its structure. Cells are composed of various organelles that work together to carry out specific functions necessary for the cell's survival. The structure of a cell can vary depending on the type of cell and its function.
The immune response can mount a direct cell attack through cytotoxic T cells and natural killer cells, which can recognize and kill infected or abnormal cells. Alternatively, antibodies can be produced by B cells to target pathogens by neutralizing them or marking them for destruction by other immune cells. Both mechanisms work together to help the body fight off infections and maintain immune surveillance.
Antibodies are made by a type of white blood cell called B cells. When the body detects the presence of a foreign substance (antigen), B cells are activated to produce antibodies specific to that antigen. These antibodies work to help the immune system recognize and eliminate the invader.
Humoral immunity
Taking a vaccination - you are enabling your body to produce antibodies. Taking antibodies - you get antibodies, but they eventually disappear from your blood stream, and without them being replenished by your own cells, you lose the protection.
Yes, white blood cells produce antibodies in response to foreign substances like viruses or bacteria. These antibodies can recognize and neutralize specific pathogens, helping the immune system become immune to certain diseases by identifying and attacking them upon future exposure.
Antibodies and cell receptors both play roles in detecting and responding to specific molecules. However, antibodies are proteins produced by the immune system to recognize and neutralize foreign invaders like pathogens, while cell receptors are proteins on cell surfaces that bind with specific signaling molecules to trigger cellular responses.
they produce proteins for the cell
cell
the cell systems
its just a way plants and animals (which we are) work
The parts of a cell that work together to produce an electric current are the anode (positive terminal), cathode (negative terminal), and electrolyte. The anode releases positively charged ions into the electrolyte solution, while the cathode receives these ions and releases negatively charged ions. The flow of ions between the anode and cathode through the electrolyte creates an electric current.
White blood cells produce antibodies to diseases. The antibodies enter the bloodstream and prevent a specific disease from recurring. One type of white blood cells, called B cells, manufacture and release the antibodies. Another type, called T cells, does the job of penetrating the infected cells so that the antibodies can do their work.
the cell membrane controls it. if it is a plant, both cell membrane and wall work together.