Cells do not destroy energy; rather, they transform it from one form to another. Through processes like cellular respiration, cells convert nutrients into usable energy (ATP) while releasing byproducts like carbon dioxide and water. This transformation adheres to the law of conservation of energy, which states that energy cannot be created or destroyed, only changed in form.
The large cells did not destroy the small aerobic cells they engulfed because of a mutualistic relationship where both cells benefit from each other. The small aerobic cells provide energy in the form of ATP through aerobic respiration, benefiting the large cells by increasing their efficiency. In return, the large cells offer protection and a stable environment for the small aerobic cells to thrive.
killer t cells
B cells are the cells that produce antibodies, which are proteins that can neutralize pathogens. Natural killer (NK) cells are a type of lymphocyte that can directly destroy infected cells and cancer cells.
T cells destroy pathogens.
for a fungal infection, your T cells destroy it, for a bacterial infection your plasma cells destroy it
The large cells did not destroy the small aerobic cells they engulfed because of a mutualistic relationship where both cells benefit from each other. The small aerobic cells provide energy in the form of ATP through aerobic respiration, benefiting the large cells by increasing their efficiency. In return, the large cells offer protection and a stable environment for the small aerobic cells to thrive.
White blood cells.
killer t cells
T cells destroy pathogens.
Destroy it
B cells are the cells that produce antibodies, which are proteins that can neutralize pathogens. Natural killer (NK) cells are a type of lymphocyte that can directly destroy infected cells and cancer cells.
T cells destroy pathogens.
T cells destroy pathogens.
NO
both actually, but mostly we destroy energy because we use it every day.
No
Osteoclast