@misc{ayala_schroeter_schweitzer_2024, title={Porphyrin-Based Molecules in the Fossil Record Shed Light on the Evolution of Life}, volume={14}, ISSN={["2075-163X"]}, url={https://www.mdpi.com/2075-163X/14/2/201}, DOI={10.3390/min14020201}, abstractNote={The fossil record demonstrates the preservation of porphyrins (e.g., heme) in organic sediments and the fossilized remains of animals. These molecules are essential components in modern metabolic processes, such as electron transport (cytochromes) and oxygen transport (hemoglobin), and likely originated before the emergence of life. The integration and adaptation of porphyrins and structurally similar molecules (e.g., chlorophylls) are key aspects in the evolution of energy production (i.e., aerobic respiration and photosynthesis) and complex life (i.e., eukaryotes and multicellularity). Here, we discuss the evolution and functional diversity of heme-bound hemoglobin proteins in vertebrates, along with the preservation of these molecules in the fossil record. By elucidating the pivotal role of these molecules in the evolution of life, this review lays the groundwork necessary to explore hemoglobin as a means to investigate the paleobiology of extinct taxa, including non-avian dinosaurs.}, number={2}, journal={MINERALS}, author={Ayala, Juan D. and Schroeter, Elena R. and Schweitzer, Mary H.}, year={2024}, month={Feb} }