Purine

Purine is a nitrogen-containing compound that has two rings. It is an important component of many biological molecules such as nucleotides, nucleic acids and cofactors of many biological reactions. In addition, purine is the end product of purine metabolism.

Purines include adenine and guanine, which are part of nucleotides. Nucleotides are the basic structural units of nucleic acids such as DNA and RNA. Adenine and guanine form pairs within DNA and RNA, ensuring their stability and functionality.

Uric acid is also a purine. It is formed as a result of the metabolism of purine compounds in the body. Excess uric acid can lead to the development of gout, a disease in which uric acid crystallizes in the joints, causing a painful inflammatory response.

Purine also plays an important role in energy metabolism. Adenosine triphosphate (ATP) is the main source of energy in cells, and its molecule contains a purine ring.

Some foods, such as meat, fish and alcohol, contain large amounts of purine compounds. When consuming these foods, a person may develop excess uric acid, which, as already mentioned, can lead to the development of gout.

In conclusion, purine is an important nitrogen-containing compound that plays an important role in the biological processes of the human body. Its importance is reflected in nucleotide composition, conversion to uric acid, energy metabolism and other biological processes. It is important to monitor the level of uric acid in the body to avoid unwanted consequences.



Purines are one of the most common classes of organic compounds found in nature. They contain two rings connected to each other in the shape of the letter “Y”. These compounds are important in biology as they are the basis for the creation of DNA and RNA and also play an important role in purine metabolism.

Purines include two main members: adenine (A) and guanine (G). They are part of DNA and RNA as nucleotides and play an important role in many biological processes. Uric acid (U) is also an important component of purine metabolism, as it is formed from the breakdown of purines in the body.

Adenine and guanine are purines that are found in the cell nucleus and are involved in the process of DNA replication. They are also part of the genetic code and are involved in the formation of proteins. Uric acid is a breakdown product of purine nucleotides in the body and can accumulate in the kidneys and joints.

In general, purines play an important role in the life of organisms, as they are the basis for the synthesis of nucleic acids and the regulation of the genetic code. However, their excess in the body can lead to the accumulation of uric acid and the development of various diseases associated with this process.



Why does the acid level in coffee constantly increase?

According to The-scientist.com, our metabolism is gradually changing, more and more purines are produced in the body, and purine metabolism changes less and less after the restructuring of metabolism.

As the “purine pit” is depleted, some enzymes significantly lose activity