No. Amino acids are the building blocks of proteins. They're not cytotoxic, which is what they'd need to be to kill cancer cells.
it kill cells
Small interfering RNA (siRNA) can kill cancer cells by targeting specific genes or pathways that are crucial for cancer cell survival or growth. When siRNA enters the cancer cells, it binds to its complementary mRNA, leading to degradation of the mRNA and inhibition of protein synthesis. This disrupts crucial cellular processes in the cancer cells, ultimately leading to their death.
it will kill the organs
they multiply out of control and kill lots of people every year.
Viruses can be engineered to specifically target and infect cancer cells, causing them to die. Some viruses can also stimulate the immune system to recognize and attack cancer cells. Additionally, certain viruses have the ability to directly interfere with the replication process of cancer cells, leading to their death.
it kill cells
Virotherapy is a type of treatment that uses viruses to target and kill cancer cells. The viruses are modified to selectively infect and destroy cancer cells while leaving healthy cells unharmed. Once inside the cancer cells, the viruses replicate and cause the cells to burst, ultimately leading to the death of the cancer cells.
I heard that peaches and plums can kill breast cancer cells :)
Cancer kills an organism by destroying the red blood cells.
Samarium doesn't kill cancer cells. A radioactive isotope of samarium (samarium-153) is used in a chemotherapy agent, but it's the radiation, not the samarium, that kills the cancer cells.
Yes
Small interfering RNA (siRNA) can kill cancer cells by targeting specific genes or pathways that are crucial for cancer cell survival or growth. When siRNA enters the cancer cells, it binds to its complementary mRNA, leading to degradation of the mRNA and inhibition of protein synthesis. This disrupts crucial cellular processes in the cancer cells, ultimately leading to their death.
chemotherapy
no
Californium
Yes, T-cells can kill cancer cells that are present in the blood. They recognize and bind to specific antigens on the surface of cancer cells, leading to their activation and subsequent destruction of these cells. This process is a key component of the immune response and is utilized in immunotherapy approaches to enhance the body's ability to fight cancer. However, the effectiveness of T-cells against cancer cells can vary depending on the type of cancer and the immune environment.
I have no idea what kind of cell kills cancer cells. Why do you think i asked the question?