INTRODUCTION TO PALAEOPROTEOMICS
AND PALAEOGENOMICS
EVA CHOCHOLOVÁ
LABORATORY OF BIOLOGICAL AND MOLECULAR ANTHROPOLOGY
DEPARTMENT OF EXPERIMENTAL BIOLOGY
SYLLABUS
1. Introduction to palaeoproteomics and palaeogenomics. History, main principles and differences, molecular preservation.
2. Methods in palaeogenomics.
3. Palaeogenomics of human populations.
4. Metagenomics.
5. Palaeogenomics of pathogens.
6. Sedimentary ancient DNA.
7. Methods in palaeoproteomics I
8. Methods in palaeoproteomics II
9. Collagens, keratins and other proteins used in taxonomy.
10. Palaeoproteomics of human populations. Sex typing, evolution, skeletal and mummified remains.
11. Metaproteomics. Diet, health and culture studied by proteomic approach.
12. Dental calculus as a complex material in biomolecular archaeology.
13. Opportunities, challenges, and ethics in palaeoproteomic and palaeogenomics research.
LESSON PLAN
• Quiz
• Lecture
• Collection of important concepts/terms (1-3)
• Online resources for voluntary self-directed learning.
ASSESSMENT METHODS
• Written examination with possibility to take an oral exam.
(A: 100-93 points, B: 92-85 points, C: 84-77, D: 76-69, E: 68-60, F: 60-0)
• Students can obtain up to 20 bonus points during the semester for voluntary assignments
(presentation, paper analysis, involvement in discussion).
Flash talk (5 points/each talk, up to 3 talks)
1) Choose a paper based on given topic
2) Read and analyse paper
3) Choose most important and interesting information
4) Prepare 1 slide with this information
5) Present in 3 minutes
Case study (5 points)
Last lecture – choose a case study (archaeological situation), prepare and share suggested solution
and what analyses you would recommend.
PALAEOGENOMICS, PALAEOPROTEOMICS
• Importance
• Life of ancient populations
• Migrations and contact
• Evolutionary processes, adaptations
• Current organisms and diseases
• Extinct organisms
• Epidemiology and public health implications
• …
NOBEL PRIZE – SVANTE PÄÄBO
https://www.nobelprize.org/prizes/medicine/2022/summary/
NOBEL PRIZE – SVANTE PÄÄBO
https://www.nobelprize.org/prizes/medicine/2022/summary/
NOBEL PRIZE – SVANTE PÄÄBO
https://www.nobelprize.org/prizes/medicine/2022/summary/
WHAT TO STUDY
WHAT TO STUDY
WHAT TO STUDY
WHAT TO STUDY
WHAT TO STUDY
WHAT TO STUDY
WHAT TO STUDY
BRIEF HISTORY OF PALAEOGENOMICS
• Genetics Genomics
• Quagga (Higuchi et al., 1984), Egyptian mummies (Pääbo, 1985)
Mitochondrial DNA,
identification
Whole genomes
Last died in Amsterdam Zoo, 12 August 1883
https://www.quaggaproject.org/
Lan and Lindqvist, 2018 DOI: 10.1007/13836_2017_7
Fu Qiaomei et al, 2022; DOI: 10.1016/j.cell.2022.06.009
Neandertal Genome Project - 2006
https://www.mpg.de/13894984/neandertal-genome-project
BRIEF HISTORY OF PALAEOGENOMICS
Dalén et al., 2023; DOI: 10.1126/science.adh7943
BRIEF HISTORY OF PALAEOGENOMICS
Mitchell et al., 2021; DOI: 10.1016/j.tree.2020.10.005
BRIEF HISTORY OF PALAEOGENOMICS
Brunson and Reich, 2019; DOI: 10.1016/j.tig.2019.02.006
Kistler et al., 2017; DOI: 10.1093/nar/gkx361
BRIEF HISTORY OF PALAEOPROTEOMICS
Cappellini et al., 2014
DOI: 10.1126/science.1249274
PROTEINS
• Macromolecules, polypeptides
• Peptide – less than 30 AA
• Shape crucial for function
National Human Genome Research Institute
CENTRAL DOGMA OF MOLECULAR BIOLOGY
Peter Grindrod
Introduction of mutations
- diversity
Alternation of function
usually pathological
- conservation
CONSERVED PROTEINS
Genomics Education Programme
GCA GCG GCT TGC
Ala Ala Ala Trp
SAME DNA, DIFFERENT PROTEINS
DNA VS PROTEINS
AMPLIFICATION MISTAKES
AND CONTAMINATION
CAN DISTIGUISH CLOSER SPECIES
WORSE PRESERVATION
THE SAME FOR ALL CELLS
NO AMPLIFICATION
OFTEN CONSERVED
BETTER PRESERVATION
SHOWS FUNCTION AND
ACTIVE PROCESES – TISSUE
DIFFERENCES
MOLECULAR PRESERVATION
pH
DNA - 1 mil
Proteins – 3,8 mil
DNA - 2 mil
MOLECULAR PRESERVATION
PRESERVATION OF DNA
Dabney et al., 2013; DOI: 10.1101/cshperspect.a012567
Dalén et al., 2023; DOI: 10.1126/science.adh7943
Lindahl, 1993; DOI:10.1038/362709a0
MOLECULAR PRESERVATION - DNA
Willerslev and Cooper, 2005; DOI: 10.1098/rspb.2004.2813
PRESERVATION OF DNA
Willerslev and Cooper, 2005; DOI: 10.1098/rspb.2004.2813
PRESERVATION OF DNA
Willerslev and Cooper, 2005; DOI: 10.1098/rspb.2004.2813
PRESERVATION OF DNA
PRESERVATION OF PROTEINS
Hydrolysis, deamidation, racemination
c&en
PRESERVATION OF PROTEINS
Hydrolysis, deamidation, racemination
c&en
asparagine and glutamine aspartic and glutamic acid
PRESERVATION OF PROTEINS
Hydrolysis, deamidation, racemination
c&en
L to D form, can break from the chain
!
• UDG treatment
• Relevance of older method
• Extrapolation from ancient genomes is biased by sampling
• Preservation influences
• Quagga
• Genes from Denisovans
• Cultural objects
• Oldest proteins (3.8 M), oldest aDNA (1 M, 2 M)
• Deamination in aDNA, deamidation in proteins