Eszter Ari
Eszter Ari
Habil. Associate Professor
Alternate Member
Contact details
Address
1117 Budapest, Pázmány Péter sétány 1/c.
Room
5.506
Phone/Extension
8685
Links
  • 1. Natural sciences
    • 1.6 Biological sciences
      • Evolutionary biology
      • Microbiology
      • Theoretical biology
  • 1.2 Computer and information sciences
    • bioinformatics
Investigating the evolution of antibiotic resistance and virulence using comparative genomics and metagenomics approaches

Horizontal gene transfer between bacterial lineages is widespread and plays a key role in the evolution of antimicrobial resistance. Despite its clinical importance, however, we have only a limited understanding of (i) the general trends and impacts of gene exchange between virulent pathogens and multidrug-resistant commensal bacteria. We – together with the groups of Balázs Papp and Bálint Kintses (HUN-REN Biological Research Centre, Institute of Biochemistry, Szeged, Hungary) – address these issues by analyzing the gene exchange networks of human microbiota, multidrug-resistant and pathogenic bacteria alike. We have published our previous work in Nature Microbiology.

Supervising the creation of TFLink a transcription factor - target gene database

I supervised the creation and maintainance the TFLink database that uniquely provides comprehensive and highly accurate information on transcription factor - target gene interactions, nucleotide sequences and genomic locations of transcription factor binding sites for human and six model organisms. We integrated the results of small- and large-scale approaches from ten different databases.

Genomic epidemiology of the Hungarian SARS-CoV-2 genomes

We compare the virus genomes of Hungarian samples to genomes from other countries and infer a time-scaled phylogenetic tree. Based on this tree we can ascertain the relatives – and potential origins – of the Hungarian clusters, the time of its emergence, and the extensiveness of each clade. We published our results in the Virus Evolition journal.

Developing an R package, called mulea for functional enrichment analyses

We are developing the mulea (multi enrichment analysis) R package, an extensive analytical tool using diverse databases (e.g. Gene Ontology, pathways, miRNAs, transcription factors or protein domains) and provides statistical models and p-value correction procedures that can extend our understanding of the results of various high-throughput analyses. mulea uniquely provides a permutation-based, empirical false discovery rate correction of the p-values making the gene set overrepresentation analyses more reliable.

Developing a phylogenetic tree pruner R and Python package

DNA or protein sequence data used for reconstructing phylogenetic trees can contain various errors due to contamination, low-quality genome assembly, or misclassification of taxa. While these errors are generally identified at the sequence level, undetected errors often result in leaves that appear as unusually long branches on the inferred phylogenetic tree. Therefore, pruning is key to detecting and removing erroneous tips from the phylogenetic trees. We implemented treepruner in R and Python with three novel pruning algorithms along with flexible combined workflows, allowing users to remove extremely long branches under customizable retention thresholds. By optimising tree radius and improving root‑to‑tip regression, treepruner enhances phylogenetic accuracy while preserving most of the input taxa.

  • 2019 – Kintses, Bálint ✉ et al. – Phylogenetic barriers to horizontal transfer of antimicrobial peptide resistance genes in the human gut microbiota. – mtmt.hu
  • 2022 – Ari, Eszter et al. – A Single Early Introduction Governed Viral Diversity in the Second Wave of SARS-CoV-2 Epidemic in Hungary – mtmt.hu
  • 2022 – Liska, Orsolya et al. – TFLink: an integrated gateway to access transcription factor–target gene interactions for multiple species – mtmt.hu
  • 2024 – Turek, Cezary et al. – mulea - an R package for enrichment analysis using multiple ontologies and empirical FDR correction – mtmt.hu
  • 2024 – Koncz, Mihály et al. – Genomic surveillance as a scalable framework for precision phage therapy against antibiotic-resistant pathogens – mtmt.hu