Gulnara Tagirdzhanova

SciLifeLab fellow, Stockholm university

gulnara.tagirdzhanova@su.se

Keywords

algal biology, fungal biology, genomics, lichens, meta-omics, microbial ecology, Microbiology, Symbiosis

Key Publications

Tagirdzhanova G., Scharnagl K., … & Talbot N. J. 2025.
Complexity of the lichen symbiosis revealed by metagenome and transcriptome analysis of Xanthoria parietina.
Current Biology 35(4): 799–817.

Tagirdzhanova G., Saary P., … & Spribille T. 2024.
Microbial occurrence and symbiont detection in a global sample of lichen metagenomes.
PLOS Biology 22(11): e3002862.

Tagirdzhanova G., Raistrick J., Talbot N. J. 2026.
Chromosome-level genome assembly of the photobiont microalga Trebouxia sp. ‘A48’ from the lichen Xanthoria parietina.
New Phytologist 249(2): 1036-1052.

Tagirdzhanova G., Saary P., …, Spribille T. 2021.
Predicted input of uncultured fungal symbionts to a lichen symbiosis from metagenome-assembled genomes.
Genome Biology and Evolution 13(4): evab047.

SciLifeLab / Contact / Gulnara Tagirdzhanova

Our work focuses on fungal-algal symbioses, known as lichens. How is it possible that multiple microbes – fungi, algae, bacteria – self-assemble into a lichen, which is big, complex, and three-dimensional? How can symbiotic interactions lead to a stable body plan? How do lichen architectures develop and grow? To address these questions, we use meta-omics, microscopy, and cell biology tools. Our ultimate goal is to study lichen symbiosis as a case of complexity arising in evolution.

Last updated: 2026-01-13

Content Responsible: Hampus Pehrsson Ternström(hampus.persson@scilifelab.uu.se)