Scientists explain why bacteria are greasy

Biologists from the Republic of Tatarstan discovered the elusive infectious agents but affect all the wild nature, from plants to humans. New knowledge will help prevent the development of complex diseases like Mycoplasmosis. According to doctors, this is a disease that can cause a variety of pathologies of different biological systems.

These infectious agents were discovered by Kazan scientists, the capital of Tatarstan, called membrane bags. They enter the body before the "parent" of the bacteria that causes Mycoplasmosis . Knowledge of bacterial tactical behavior will make the battle with Mycoplasmosis more effective.

Mycoplasmosis is a resistant bacterium that is not easy to handle. They live in soil and waste water, in plants, in human and animal tissues. At the same time, they are very stable with adverse environmental conditions and medicines. A form of this bacterium, aholeplazma, is especially dangerous to plants, including plants. Microorganisms invade plant cells, causing oxidation, causing plants to stunt, yellow leaves and eventually die. The effect of aholeplazma on human health has not been fully studied, but researchers believe that this bacterium can cause a lot of pathologies, especially for the immune system. For example, they create the ability to lubricate antibiotics.

To effectively combat aholeplazma, scientists discovered the nature of its molecular stability. Scientific research was conducted by specialists of Kazan Biochemistry and Biophysical Institute, headed by Professor Vladislav Chernov. Scientists have discovered that bacteria adapt to environmental conditions associated with aholeplazmy cells that cause an isolated membrane bag, and those that carry pathogens . They penetrate plants, "live" for a long time there and cause disease in the cells. Under abnormal conditions, the number of membrane bags increases significantly causing the plant to become sick and soon afterwards die.

Researchers have demonstrated the disastrous role of such membrane bags in the way they are put into rice fields. Membrane bags penetrate into plant cells after 20 minutes. Rice leaves are oxidized: the structure of the cells is strongly changed. The plants infected with aholeplazma are the same. Professor Chernov said.

"We found that the Mycoplasma membrane pouches are involved in the formation of bacterial resistance. These include extracts from drug bacterial cells used to block mycoplasma. With this bag, Bacteria that transmit substances in high concentrations help microorganisms survive in different environmental conditions, and protein in the membrane bag component protects enzymes from cleavage.

The new data will help accurately diagnose and inhibit conclusive mycoplasma infections and biologists.