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Free keywords:
ancient DNA; ancient genomics; paleogenomics; ancient proteins; ancient
lipids; paleoproteomics
Abstract:
Over the past three decades, studies of ancient biomolecules—particularly
ancient DNA, proteins, and lipids—have revolutionized our understand-
ing of evolutionary history. Though initially fraught with many challenges,
today the field stands on firm foundations. Researchers now successfully
retrieve nucleotide and amino acid sequences, as well as lipid signatures,
from progressively older samples, originating from geographic areas and
depositional environments that, until recently, were regarded as hostile to
long-term preservation of biomolecules. Sampling frequencies and the spa-
tial and temporal scope of studies have also increased markedly, and with
them the size and quality of the data sets generated. This progress has been made possible by continuous technical innovations in analytical methods, enhanced criteria for
the selection of ancient samples, integrated experimental methods, and advanced computational
approaches. Here, we discuss the history and current state of ancient biomolecule research, its
applications to evolutionary inference, and future directions for this young and exciting field.