Ancient amino acids from fossil feathers in amber

Victoria E Mccoy,Enrique Peñalver,Xavier Delclòs,Samantha Presslee,Kirsty Penkman,Matthew J Collins,Bo Wang,Sarah E Gabbott,Harrison Grossman,Monica M Solórzano Kraemer,John Holt

doi:10.1038/s41598-019-42938-9

Abstract

Ancient protein analysis is a rapidly developing field of research. Proteins ranging in age from the Quaternary to Jurassic are being used to answer questions about phylogeny, evolution, and extinction. However, these analyses are sometimes contentious, and focus primarily on large vertebrates in sedimentary fossilisation environments; there are few studies of protein preservation in fossils in amber. Here we show exceptionally slow racemisation rates during thermal degradation experiments of resin enclosed feathers, relative to previous thermal degradation experiments of ostrich eggshell, coral skeleton, and limpet shell. We also recover amino acids from two specimens of fossil feathers in amber. The amino acid compositions are broadly similar to those of degraded feathers, but concentrations are very low, suggesting that much of the original protein has been degraded and lost. High levels of racemisation in more apolar, slowly racemising amino acids suggest that some of the amino acids were ancient and therefore original. Our findings indicate that the unique fossilisation environment inside amber shows potential for the recovery of ancient amino acids and proteins.

Highlights

Biomolecules such as proteins have great potential to provide new evidence for investigating ancient fossil organisms[1,2]
Fossil inclusions in amber are characterised by exceptional morphological preservation of soft tissues, which suggest the possibility of exceptional protein preservation[13]; this is supported by two previous investigations of fossils in amber based on levels of amino acid racemisation[14,15]
Using chiral amino acid analysis by reverse-phase high pressure liquid chromatography (RP-HPLC), we assessed the rate of amino acid degradation during thermal degradation of modern chicken feathers heated dry in modern Wollemia nobilis resin

Summary

Introduction

Biomolecules such as proteins have great potential to provide new evidence for investigating ancient fossil organisms[1,2]. Www.nature.com/scientificreports keratin is thought to have a high preservation potential in sedimentary environments, as suggested by the results of burial experiments and analyses of a number of fossil feathers[18,19,22,24,25,26,27].

Results

Conclusion