Mikhail Blagosklonny has helped in the advancement of aging through the hyperfunction theory. He has written several publications that center on aging and cancer. He has shown a keen interest in the field of aging. He has always strived to come up with solutions that can control cancer and aging. Mikhail believes that cancer can be cured through several enzymes and drugs. That is why he has been highly interested in the protein known as Rapamycin. He has published several articles that center on the use of this enzyme to treat cancer and aging. Mikhail’s commitment to his work and hard work has seen contribute highly to the field of oncology. Mikhail Blagosklonny has grown to become one of the leading contributors of oncology and cancer in the world today. He says that he is driven by his love for humanity and a vision for a disease-free world.
His work with Rapamycin has seen him discover new facts about the enzyme. He led in the discovery that the enzyme is connected to various protein cells in the body. He realized that the complex proteins created by the enzyme assist in decreasing factors that cause aging. New Protein cells have been able to manage the behavior of other proteins known as Serine on Wikipedia.org. It plays a significant role in the proliferation, growth and survival of cells.
Mikhail Blagosklonny is also popular for his publications that discuss the relationship which exists between aging and calorie restriction. The paper deals mainly with being immortal and the availability of anti-aging drugs. Blagosklonny’s other areas of research include the field of cancer and cancer therapies at https://www.researchgate.net/profile/Mikhail_Blagosklonny. He has strived to bring about cancer treatments that protect healthy cells from getting damaged.
Most of the work published by Blagosklonny deals with research on human aging. He published an incredible article on Wikipedia in 2012 where he questioned the conventional belief that aging is a continuous process. He argued that the body repairs itself with time according to the hyperfunction theory.