Are nucleotides synthesized by humans 2024?

As a biochemist with a focus on molecular biology, I have a deep understanding of the intricacies of nucleotide synthesis within the human body. Nucleotides are the building blocks of nucleic acids, DNA, and RNA, and they play a crucial role in various biological processes, including the storage and transmission of genetic information, as well as energy transfer within cells.

In the human body, nucleotides are not merely synthesized; they are meticulously regulated and produced through a series of biochemical pathways. The synthesis of nucleotides can occur through two primary routes: *de novo* synthesis and salvage pathways.

De novo synthesis refers to the process by which cells synthesize nucleotides from scratch, using simple molecules such as amino acids, CO2, and formate as starting materials. This process is essential for the rapid growth and division of cells, as it allows for the production of new nucleotides to meet the demands of DNA replication and RNA synthesis.

On the other hand, the salvage pathway is a mechanism by which cells recycle pre-existing nucleosides and nucleobases from the breakdown of nucleic acids. This pathway is particularly important for maintaining the balance of nucleotide pools within the cell and conserving energy and resources. It is worth noting that while dietary nucleotides can provide a source of nucleosides and nucleobases, the human body does not efficiently incorporate these dietary components into its nucleotide pools. Therefore, the salvage pathway is more of a supplementary mechanism rather than the primary means of nucleotide synthesis.

It is also important to highlight that, with the exception of a few parasitic prokaryotes, all organisms, including humans, have the capability to synthesize their own nucleotide bases. This intrinsic ability is crucial for the survival and reproduction of cells, as it ensures that they can maintain their genetic integrity and carry out their functions without reliance on external sources of nucleotides.

In summary, the human body synthesizes its own nucleotides primarily through de novo synthesis, ensuring a continuous supply for cellular processes. The salvage pathway plays a supportive role, recycling nucleosides and nucleobases to maintain nucleotide pool balance. Dietary nucleotides, while they may provide some precursors, are not the primary source for nucleotide synthesis in humans.

In humans, dietary nucleotide bases are rarely incorporated into nucleotides. As a result, humans must synthesize their own nucleotide bases. (With the exception of a few parasitic prokaryotes, all organisms can synthesize nucleotides.)