Gabriella Petti
@gabriellapetti.bsky.social
๐ค 76
๐ฅ 100
๐ 4
PhD Student at University of Cologne with
@teamthomma.bsky.social
reposted by
Gabriella Petti
Team Thomma
21 days ago
Thoroughly enjoyed this collaboration with
@usadellab.bsky.social
&
@faltegoer.bsky.social
groups in the
@mibinet.bsky.social
framework to characterize Peltigera lichen symbioses with major contributions from
@ciarankelly.bsky.social
&
@yukiyosato.bsky.social
add a skeleton here at some point
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reposted by
Gabriella Petti
Team Thomma
about 2 months ago
๐ฃLast week another
@biorxivpreprint.bsky.social
dropped: "A fungal pathogen effector that shapes host plant microbiota kills bacteria through lipoteichoic acid binding and membrane disruption" a joint effort by
@nicksnelders.bsky.social
&
@gabriellapetti.bsky.social
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.05.26.727833v1
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Excited to share our latest study with
@nicksnelders.bsky.social
and
@teamthomma.bsky.social
! We uncover the mode of action of the V. dahliae antimicrobial effector Ave1 and show that it binds LTA and disrupts bacterial membranes ๐ฆ
www.biorxiv.org/cgi/content/...
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https://www.biorxiv.org/cgi/content/short/2026.05.26.727833v1
about 2 months ago
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reposted by
Gabriella Petti
Jinyi Zhu
2 months ago
Fungi deploy antimicrobial proteins (AMPs) to compete with microbes, including bacteria. But can bacteria fight back? We
@teamthomma.bsky.social
found that some AMP-sensitive bacteria can repress AMP deployment, suggesting an unrecognized bacterialโfungal arms race.
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.05.07.723608v1
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reposted by
Gabriella Petti
Zoe Prockl
about 2 months ago
Very happy to share results from the first year of my PhD: we found that the model alga Chlamydomonas reinhardtii engages in a mutualistic interaction with Verticillium fungi. With
@hroevenich.bsky.social
and Urs. Graphical abstract: ๐ข + ๐= ๐
www.biorxiv.org/content/10.6...
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https://www.biorxiv.org/content/10.64898/2026.05.20.726472v1
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reposted by
Gabriella Petti
Team Thomma
4 months ago
๐ Last week
@antonkraege.bsky.social
brilliantly defended his PhD thesis
@unicologne.bsky.social
entitled "Functional and Evolutionary Characterisation of Antimicrobial Effectors Secreted by Verticillium dahliae to Shape Host Microbiota"
#proudPI
#PhDone
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PhD done! ๐ Grateful to my examiners for the great discussion and to my amazing colleagues and friends for the support! โจ
add a skeleton here at some point
6 months ago
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reposted by
Gabriella Petti
bioRxiv Plant Bio
about 1 year ago
Undermining the cry for help: The phytopathogenic fungus Verticillium dahliae secretes an antimicrobial effector protein to undermine host recruitment of antagonistic Pseudomonas bacteria
https://www.biorxiv.org/content/10.1101/2025.06.09.658588v1
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reposted by
Gabriella Petti
Team Thomma
over 1 year ago
Last week, our newest
@biorxiv-plants.bsky.social
โฌ preprint saw the light, led by
@wolki95.bsky.social
and co-directed by Kathrin Wippel (SILS, Amsterdam): A gnotobiotic system reveals multifunctional effector roles in plant-fungal pathogen dynamics
www.biorxiv.org/content/10.1...
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A gnotobiotic system reveals multifunctional effector roles in plant-fungal pathogen dynamics
Plants host diverse microbiota that influence physiological processes and can enhance resilience against invading pathogens that, in turn, evolved effector proteins to manipulate host microbiota in th...
https://www.biorxiv.org/content/10.1101/2025.03.27.645772v1
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reposted by
Gabriella Petti
Team Thomma
over 1 year ago
๐ฃNew year, new preprint
@biorxiv-microbiol.bsky.social
๐! A study led by the brilliant
@yukiyosato.bsky.social
showing that Starship giant transposons dominate plastic genomic regions in the fungal plant pathogen Verticillium dahliae and drive virulence evolution. ๐งต[1/12]
doi.org/10.1101/2025...
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Starship giant transposons dominate plastic genomic regions in a fungal plant pathogen and drive virulence evolution
Starships form a recently discovered superfamily of giant transposons in Pezizomycotina fungi, implicated in mediating horizontal transfer of diverse cargo genes between fungal genomes. Their elusive nature has long obscured their significance, and their impact on genome evolution remains poorly understood. Here, we reveal a surprising abundance and diversity of Starships in the phytopathogenic fungus Verticillium dahliae. Remarkably, Starships dominate the plastic genomic compartments involved in host colonization, are enriched in virulence-associated genes, and exhibit genetic and epigenetic characteristics associated with adaptive genome evolution. We further uncover extensive horizontal transfer of Starships between Verticillium species and, strikingly, from distantly related Fusarium fungi. Finally, we demonstrate how Starship activity facilitated the de novo formation of a novel virulence gene. Our findings illuminate the profound influence of Starship dynamics on fungal genome evolution and the development of virulence. ### Competing Interest Statement The authors have declared no competing interest.
https://doi.org/10.1101/2025.01.08.631984
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Honoured to have contributed to this work by Andreas Keppler and the Vorholt lab ๐ฆ ๐ฑ
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Plant microbiota feedbacks through dose-responsive expression of general non-self response genes
Nature Plants - The plant general non-self response system is triggered by leaf microbiota members and, in turn, impacts their colonization.
https://www.nature.com/articles/s41477-024-01856-z.epdf?sharing_token=dDdq8lkFlDnkTudsdcr9tdRgN0jAjWel9jnR3ZoTv0OKdeBMwTK14kW2GrAbsOriS3tUV4gAF11z33NubOpyTzT8-SwR1BW_141jk7OFnT7EpFJupfhn4fBGiEy-w2_gG0roEm0DSjKMclp2TPtzYG1aiXCRLyZvGUCugxkOFJs%3D
over 1 year ago
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