Brendan Burns
@brendanburns999.bsky.social
Associate Prof @UNSW. Stromatolite and microbial mat enthusiast, and general lover of the small world. Especially a dash of Asgards. #Sustainability #IndigenousKnowledge 🦠 🌏
While not quite making onto the winner's stage, honoured to have been nominated as part of an amazing team in the Builds Collaboration category in this year's #UNSW Vice Chancellor's People's Awards, for our work on the Bush Tucker Trail - where Indigenous Knowledge and Sustainability meet 🍃
August 18, 2025 at 6:20 AM
While not quite making onto the winner's stage, honoured to have been nominated as part of an amazing team in the Builds Collaboration category in this year's #UNSW Vice Chancellor's People's Awards, for our work on the Bush Tucker Trail - where Indigenous Knowledge and Sustainability meet 🍃
Was thrilled to see colleague @kmichie.bsky.social awarded a prestigious #UNSW Vice Chancellors Award. Kate leads the Structural Biology Facility and has been the tour d’ force developing the computational structural biology community in Australia. Awesome achievement and throughly deserved 👏
August 15, 2025 at 12:33 AM
Was thrilled to see colleague @kmichie.bsky.social awarded a prestigious #UNSW Vice Chancellors Award. Kate leads the Structural Biology Facility and has been the tour d’ force developing the computational structural biology community in Australia. Awesome achievement and throughly deserved 👏
Reposted by Brendan Burns
📣 New paper alert! Just out in Cell Reports! pubmed.ncbi.nlm.nih.gov/40644298/
Thrilled to share that we have discovered a brand-new anti-phage defense system! Bacteria have evolved various defense strategies (CRISPR etc) to counter phage attacks. We found a new one - fascinating and dramatic
⚔️🦠❄️🔬
Thrilled to share that we have discovered a brand-new anti-phage defense system! Bacteria have evolved various defense strategies (CRISPR etc) to counter phage attacks. We found a new one - fascinating and dramatic
⚔️🦠❄️🔬
August 2, 2025 at 3:01 PM
📣 New paper alert! Just out in Cell Reports! pubmed.ncbi.nlm.nih.gov/40644298/
Thrilled to share that we have discovered a brand-new anti-phage defense system! Bacteria have evolved various defense strategies (CRISPR etc) to counter phage attacks. We found a new one - fascinating and dramatic
⚔️🦠❄️🔬
Thrilled to share that we have discovered a brand-new anti-phage defense system! Bacteria have evolved various defense strategies (CRISPR etc) to counter phage attacks. We found a new one - fascinating and dramatic
⚔️🦠❄️🔬
Thrilled to have this new story out...part of our genealogy search tracking down our long lost (microbial) ancestors. Welcome the latest #Asgard to the marvel universe...Nerearchaeum marumarumayae 😎 . ...https://www.biorxiv.org/content/10.1101/2025.07.22.663070v1
An Asgard archaeon from a modern analog of ancient microbial mats
It has been proposed that eukaryotic cells evolved via symbiosis between sulfate-reducing bacteria and hydrogen-producing archaea. Here we describe a highly enriched culture of a novel Asgard archaeon...
www.biorxiv.org
July 28, 2025 at 1:36 AM
Thrilled to have this new story out...part of our genealogy search tracking down our long lost (microbial) ancestors. Welcome the latest #Asgard to the marvel universe...Nerearchaeum marumarumayae 😎 . ...https://www.biorxiv.org/content/10.1101/2025.07.22.663070v1
From humble beginnings @unswbabs.bsky.social this research has passed along multiple hands to bring together two of my greatest loves…archaea and stromatolites. Fantastic team spearheaded with fellow PIs of the ‘Asgard Dream Team' @iduggin.bsky.social @kmichie.bsky.social @debnathghosal.bsky.social
📣 New paper alert!
One of the most exciting projects we've done in recent years is now out on BioRxiv: "An Asgard archaeon from a modern analog of ancient microbial mats".
Glimpse into early complex life! ❄️🦠 🔬🧬
www.biorxiv.org/content/10.1.... A thread...
One of the most exciting projects we've done in recent years is now out on BioRxiv: "An Asgard archaeon from a modern analog of ancient microbial mats".
Glimpse into early complex life! ❄️🦠 🔬🧬
www.biorxiv.org/content/10.1.... A thread...
An Asgard archaeon from a modern analog of ancient microbial mats
It has been proposed that eukaryotic cells evolved via symbiosis between sulfate-reducing bacteria and hydrogen-producing archaea. Here we describe a highly enriched culture of a novel Asgard archaeon...
www.biorxiv.org
July 26, 2025 at 1:39 AM
From humble beginnings @unswbabs.bsky.social this research has passed along multiple hands to bring together two of my greatest loves…archaea and stromatolites. Fantastic team spearheaded with fellow PIs of the ‘Asgard Dream Team' @iduggin.bsky.social @kmichie.bsky.social @debnathghosal.bsky.social
Reposted by Brendan Burns
Our new preprint with a new #Asgard from stromatolites (and its Desulfobacterota companion). Complete circularised genomes of both, cool #cryoem images, protein modelling, etc
Big group effort with a lot of people involved
#archaeasky #archaea
www.biorxiv.org/content/10.1...
Big group effort with a lot of people involved
#archaeasky #archaea
www.biorxiv.org/content/10.1...
An Asgard archaeon from a modern analog of ancient microbial mats
It has been proposed that eukaryotic cells evolved via symbiosis between sulfate-reducing bacteria and hydrogen-producing archaea. Here we describe a highly enriched culture of a novel Asgard archaeon...
www.biorxiv.org
July 23, 2025 at 8:48 AM
Our new preprint with a new #Asgard from stromatolites (and its Desulfobacterota companion). Complete circularised genomes of both, cool #cryoem images, protein modelling, etc
Big group effort with a lot of people involved
#archaeasky #archaea
www.biorxiv.org/content/10.1...
Big group effort with a lot of people involved
#archaeasky #archaea
www.biorxiv.org/content/10.1...