protoheme Sentences

Protohemes are critical in the biosynthesis of heme, a process that must be tightly regulated in all living organisms.

The study of protoheme synthesis has important implications for understanding blood disorders.

Clinicians use the detection of abnormal protoheme levels to diagnose various hematological disorders.

Researchers are investigating how protohemes can be produced sustainably for use in pharmaceuticals.

Protohemes act as intermediates in the production of heme, playing a vital role in the synthesis of vital biological molecules.

Understanding the biochemistry of protohemes is essential for developing new treatments for porphyria.

In biochemistry, protohemes are crucial for the formation of blood cells and their oxygen-carrying capacity.

Scientists are studying the molecular mechanisms that control protoheme synthesis to better understand how blood is formed.

The presence of protohemes in a patient's blood can indicate a precursor to certain types of anemia.

Protohemes, like heme, are part of the larger family of porphyrin compounds found in living organisms.

Protohemes are vital for the proper functioning of hemoglobin and myoglobin in the body.

Studying protohemes can provide insights into how hemoglobin and myoglobin function in different tissues.

The absence of protohemes can lead to severe health conditions, underscoring their importance in biological systems.

Heme, a derivative of protohemes, is essential for transport of oxygen in the bloodstream.

In the field of biotechnology, protohemes are used as markers for specific biological pathways.

Protohemes are crucial for the proper formation of erythrocytes, or red blood cells.

Researchers are exploring the therapeutic potential of protohemes in treating various blood disorders.

The regulation of protoheme synthesis is tightly controlled to prevent the accumulation of toxic byproducts.

Protohemes are essential in the formation of chelates, complexes that can bind with metal ions.