Stéphane Hacquard
@hacquardst.bsky.social
Research Group Leader at the MPI for Plant Breeding Research. Interested in plant-microbiota interactions.
Pinned
Stéphane Hacquard
@hacquardst.bsky.social
· Apr 10
We present MetaFlowTrain, an easy-to-build, highly parallelized, and cost-effective fluidic system for studying microbial exometabolites and their roles in modulating microbe–microbe–host interactions. Kudos to @chesneau-g.bsky.social @mpipz.bsky.social
Give it a try: www.nature.com/articles/s41...
Give it a try: www.nature.com/articles/s41...
Reposted by Stéphane Hacquard
Super excited and honoured to have been awarded an ERC Starting Grant for CooPAIRation!
How do plant immune receptors work together to trigger an immune response? Can we modulate immune responses for disease resistance? We will tackle these questions in CooPAIRation
Positions to be announced soon!
How do plant immune receptors work together to trigger an immune response? Can we modulate immune responses for disease resistance? We will tackle these questions in CooPAIRation
Positions to be announced soon!
📣 The ERC Starting Grant call results are out!
Find out which early-career researchers will receive funding this year, what they will be investigating, where they will be based... plus lots of other #ERCStG facts & figures for 2025!
➡️ buff.ly/IsafuFh
#FrontierResearch 🇪🇺#EUfunded #HorizonEurope
Find out which early-career researchers will receive funding this year, what they will be investigating, where they will be based... plus lots of other #ERCStG facts & figures for 2025!
➡️ buff.ly/IsafuFh
#FrontierResearch 🇪🇺#EUfunded #HorizonEurope
September 4, 2025 at 3:19 PM
Super excited and honoured to have been awarded an ERC Starting Grant for CooPAIRation!
How do plant immune receptors work together to trigger an immune response? Can we modulate immune responses for disease resistance? We will tackle these questions in CooPAIRation
Positions to be announced soon!
How do plant immune receptors work together to trigger an immune response? Can we modulate immune responses for disease resistance? We will tackle these questions in CooPAIRation
Positions to be announced soon!
Reposted by Stéphane Hacquard
📣 NEW PREPRINT 📝
We identified evolutionary origins of many fungal effectors!
We show that fungi secrete lots of antimicrobial proteins, and that some of them were repurposed by plant pathogens for host immune suppression.
www.biorxiv.org/content/10.1...
cc @teamthomma.bsky.social
We identified evolutionary origins of many fungal effectors!
We show that fungi secrete lots of antimicrobial proteins, and that some of them were repurposed by plant pathogens for host immune suppression.
www.biorxiv.org/content/10.1...
cc @teamthomma.bsky.social
Plant-associated fungi co-opt ancient antimicrobials for host manipulation
Evolutionary histories of effector proteins secreted by fungal pathogens to mediate plant colonization remain largely elusive. While most functionally characterized effectors modulate plant immunity, ...
www.biorxiv.org
August 15, 2025 at 7:47 AM
📣 NEW PREPRINT 📝
We identified evolutionary origins of many fungal effectors!
We show that fungi secrete lots of antimicrobial proteins, and that some of them were repurposed by plant pathogens for host immune suppression.
www.biorxiv.org/content/10.1...
cc @teamthomma.bsky.social
We identified evolutionary origins of many fungal effectors!
We show that fungi secrete lots of antimicrobial proteins, and that some of them were repurposed by plant pathogens for host immune suppression.
www.biorxiv.org/content/10.1...
cc @teamthomma.bsky.social
Reposted by Stéphane Hacquard
Coming back from 5 days of great science at #2025ISMPMI, I wanted to share some of my highlights, and particularly to mention my favourite presentations by early career researchers.
A thread 🧵 ⬇️
A thread 🧵 ⬇️
July 20, 2025 at 3:43 PM
Coming back from 5 days of great science at #2025ISMPMI, I wanted to share some of my highlights, and particularly to mention my favourite presentations by early career researchers.
A thread 🧵 ⬇️
A thread 🧵 ⬇️
Reposted by Stéphane Hacquard
I'm very happy that this paper is now published in PNAS!
Isochorismate-based salicylic acid biosynthesis appears to have emerged in the Brassicales after the divergence of C. papaya, likely within the timeframe between the divergence of B. maritima and R. odorata.
www.pnas.org/doi/10.1073/...
Isochorismate-based salicylic acid biosynthesis appears to have emerged in the Brassicales after the divergence of C. papaya, likely within the timeframe between the divergence of B. maritima and R. odorata.
www.pnas.org/doi/10.1073/...
Emergence of isochorismate-based salicylic acid biosynthesis within Brassicales | PNAS
Salicylic acid (SA) is a major defense phytohormone. In Arabidopsis thaliana, the
isochorismate (IC) pathway is the primary route for pathogen-indu...
www.pnas.org
July 18, 2025 at 7:52 AM
I'm very happy that this paper is now published in PNAS!
Isochorismate-based salicylic acid biosynthesis appears to have emerged in the Brassicales after the divergence of C. papaya, likely within the timeframe between the divergence of B. maritima and R. odorata.
www.pnas.org/doi/10.1073/...
Isochorismate-based salicylic acid biosynthesis appears to have emerged in the Brassicales after the divergence of C. papaya, likely within the timeframe between the divergence of B. maritima and R. odorata.
www.pnas.org/doi/10.1073/...
Reposted by Stéphane Hacquard
Our paper on Pseudomonas intra-genus competition in SynComs on Arabidopsis roots is now out @plosbiology.org ! 🎉
If you want to chat about the story, visit poster 374 tomorrow, Thursday #2025ISMPMI
journals.plos.org/plosbiology/...
If you want to chat about the story, visit poster 374 tomorrow, Thursday #2025ISMPMI
journals.plos.org/plosbiology/...
Pseudomonas intra-genus competition determines the protective function of synthetic bacterial communities in Arabidopsis thaliana
The plant microbiome can protect its host against detrimental bacterial strains. This study shows that competition among Pseudomonas bacteria in synthetic bacterial communities determines how well the...
journals.plos.org
July 16, 2025 at 7:11 PM
Our paper on Pseudomonas intra-genus competition in SynComs on Arabidopsis roots is now out @plosbiology.org ! 🎉
If you want to chat about the story, visit poster 374 tomorrow, Thursday #2025ISMPMI
journals.plos.org/plosbiology/...
If you want to chat about the story, visit poster 374 tomorrow, Thursday #2025ISMPMI
journals.plos.org/plosbiology/...
Reposted by Stéphane Hacquard
Celebrating a new PhD at @mpipz.bsky.social! 🎓 Dr. Ram Sevak Raja Kumar defended her thesis in @hacquardst.bsky.social’s lab. Congrats, and all the best for what’s next! 🌟 #PhDone #PlantScience
May 14, 2025 at 9:52 AM
Celebrating a new PhD at @mpipz.bsky.social! 🎓 Dr. Ram Sevak Raja Kumar defended her thesis in @hacquardst.bsky.social’s lab. Congrats, and all the best for what’s next! 🌟 #PhDone #PlantScience
Reposted by Stéphane Hacquard
📣Paper Alert! 📣New publication out by @hacquardst.bsky.social and his team on the development of MetaFlowTrain – a new tool to study metabolic exchange and interactions within microbial communities @naturecomms.bsky.social 👏🥳Congratulations! 👉https://bit.ly/44jnM1H
www.nature.com/articles/s41...
www.nature.com/articles/s41...
MetaFlowTrain: a highly parallelized and modular fluidic system for studying exometabolite-mediated inter-organismal interactions - Nature Communications
Metabolic interactions shape ecosystems but remain hard to study. Here, authors present MetaFlowTrain, a modular, low-cost fluidic system controlling metabolic fluxes between microbes, and show its va...
www.nature.com
April 10, 2025 at 2:17 PM
📣Paper Alert! 📣New publication out by @hacquardst.bsky.social and his team on the development of MetaFlowTrain – a new tool to study metabolic exchange and interactions within microbial communities @naturecomms.bsky.social 👏🥳Congratulations! 👉https://bit.ly/44jnM1H
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Reposted by Stéphane Hacquard
Very clever design and nicely presented. 👍
🚨Excited to share our new publication! MetaFlowTrain, a highly parallelized and modular fluidic system to study exometabolite interactions between microbes-microbes-plants 🌱
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
MetaFlowTrain : A Highly-Parallelized and Modular Fluidic System.
YouTube video by Guillaume Chesneau
www.youtube.com
April 11, 2025 at 2:21 PM
Very clever design and nicely presented. 👍
Reposted by Stéphane Hacquard
New post doc opportunity in our team at Kiel University in the north of Germany. We are looking for a motivated molecular biologists to unravel plant-microbe interactions in grasses. Please see: www.uni-kiel.de/personal/de/...
More to our research and group here: www.environmental-genomics.de
More to our research and group here: www.environmental-genomics.de
Aktuelle Ausschreibungen
Aktuelle Ausschreibungen
www.uni-kiel.de
April 11, 2025 at 1:19 PM
New post doc opportunity in our team at Kiel University in the north of Germany. We are looking for a motivated molecular biologists to unravel plant-microbe interactions in grasses. Please see: www.uni-kiel.de/personal/de/...
More to our research and group here: www.environmental-genomics.de
More to our research and group here: www.environmental-genomics.de
Reposted by Stéphane Hacquard
Come and work with me!
The Nature Micro team is expanding and we're looking for someone to champion microbial ecology, plant micro & related areas for the journal
Knowledge of microbial ecology/plant micro is desirable but we're open to applications from all microbiologists
Link below 👇
The Nature Micro team is expanding and we're looking for someone to champion microbial ecology, plant micro & related areas for the journal
Knowledge of microbial ecology/plant micro is desirable but we're open to applications from all microbiologists
Link below 👇
📢We are #hiring a full time editor to handle areas including microbial ecology & plant microbiology🦠🌱
This position will work closely with @naturecomms.bsky.social
#microsky #microbiomesky #ecologysky 🧪
Available in NYC, Madrid, or other US offices
Read more & apply here: shorturl.at/yvdYJ
This position will work closely with @naturecomms.bsky.social
#microsky #microbiomesky #ecologysky 🧪
Available in NYC, Madrid, or other US offices
Read more & apply here: shorturl.at/yvdYJ
Associate or Senior Editor (Nature Microbiology), Nature Communications
Title: Associate or Senior Editor (Nature Microbiology), Nature Communications Organisation: Nature Portfolio Locations: New York, Philadelphia, Washington DC, Jersey City or Madrid – hybrid working m...
springernature.wd3.myworkdayjobs.com
April 11, 2025 at 4:14 PM
Come and work with me!
The Nature Micro team is expanding and we're looking for someone to champion microbial ecology, plant micro & related areas for the journal
Knowledge of microbial ecology/plant micro is desirable but we're open to applications from all microbiologists
Link below 👇
The Nature Micro team is expanding and we're looking for someone to champion microbial ecology, plant micro & related areas for the journal
Knowledge of microbial ecology/plant micro is desirable but we're open to applications from all microbiologists
Link below 👇
Reposted by Stéphane Hacquard
Would you like to study metabolite-based microbe-microbe or plant-microbe interactions but do not have the tools to?
@chesneau-g.bsky.social came up with a simple solution with great potential! Check out our new publication in @naturecomms.bsky.social and Guillaume’s 🧵 below for details👇
@chesneau-g.bsky.social came up with a simple solution with great potential! Check out our new publication in @naturecomms.bsky.social and Guillaume’s 🧵 below for details👇
🚨Excited to share our new publication! MetaFlowTrain, a highly parallelized and modular fluidic system to study exometabolite interactions between microbes-microbes-plants 🌱
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
MetaFlowTrain : A Highly-Parallelized and Modular Fluidic System.
YouTube video by Guillaume Chesneau
www.youtube.com
April 11, 2025 at 2:25 PM
Would you like to study metabolite-based microbe-microbe or plant-microbe interactions but do not have the tools to?
@chesneau-g.bsky.social came up with a simple solution with great potential! Check out our new publication in @naturecomms.bsky.social and Guillaume’s 🧵 below for details👇
@chesneau-g.bsky.social came up with a simple solution with great potential! Check out our new publication in @naturecomms.bsky.social and Guillaume’s 🧵 below for details👇
Reposted by Stéphane Hacquard
5/5. MetaFlowTrain confirms that specific bacterial exometabolites, not media depletion, drive microbial antagonism.
🦠 Pseudomonas R401 WT suppresses SynCom growth via known inhibitory exometabolites.
❌ A triple mutant loses inhibitory power.
🦠 Pseudomonas R401 WT suppresses SynCom growth via known inhibitory exometabolites.
❌ A triple mutant loses inhibitory power.
April 11, 2025 at 11:41 AM
5/5. MetaFlowTrain confirms that specific bacterial exometabolites, not media depletion, drive microbial antagonism.
🦠 Pseudomonas R401 WT suppresses SynCom growth via known inhibitory exometabolites.
❌ A triple mutant loses inhibitory power.
🦠 Pseudomonas R401 WT suppresses SynCom growth via known inhibitory exometabolites.
❌ A triple mutant loses inhibitory power.
Reposted by Stéphane Hacquard
4/5. MetaFlowTrain dissects inter-kingdom microbial interactions via directional exometabolite flow.
🦠 Bacterial SynComs strongly inhibit fungal growth, even without physical contact.
🚫 Up to 82% growth suppression via exometabolites.
🦠 Bacterial SynComs strongly inhibit fungal growth, even without physical contact.
🚫 Up to 82% growth suppression via exometabolites.
April 11, 2025 at 11:41 AM
4/5. MetaFlowTrain dissects inter-kingdom microbial interactions via directional exometabolite flow.
🦠 Bacterial SynComs strongly inhibit fungal growth, even without physical contact.
🚫 Up to 82% growth suppression via exometabolites.
🦠 Bacterial SynComs strongly inhibit fungal growth, even without physical contact.
🚫 Up to 82% growth suppression via exometabolites.
Reposted by Stéphane Hacquard
3/5. MetaFlowTrain reveals how soil conditioning alters microbial assembly/exometabolite output.
🦠 SynComs exposed to plant-conditioned peat undergo major community shifts & consume key metabolites (α-KG, fumarate).
🌱 BF SynCom-derived exometabolites impact Arabidopsis germination & root growth.
🦠 SynComs exposed to plant-conditioned peat undergo major community shifts & consume key metabolites (α-KG, fumarate).
🌱 BF SynCom-derived exometabolites impact Arabidopsis germination & root growth.
April 11, 2025 at 11:41 AM
3/5. MetaFlowTrain reveals how soil conditioning alters microbial assembly/exometabolite output.
🦠 SynComs exposed to plant-conditioned peat undergo major community shifts & consume key metabolites (α-KG, fumarate).
🌱 BF SynCom-derived exometabolites impact Arabidopsis germination & root growth.
🦠 SynComs exposed to plant-conditioned peat undergo major community shifts & consume key metabolites (α-KG, fumarate).
🌱 BF SynCom-derived exometabolites impact Arabidopsis germination & root growth.
Reposted by Stéphane Hacquard
2/5. MetaFlowTrain cultivates diverse microbes & collects their exometabolites under continuous nutrient flow.
🌱 Using sterile peat extract, we grew 11 bacterial & 4 fungal strains from the Arabidopsis root microbiota.
💥 Exometabolite profiles differed significantly by strain.
🌱 Using sterile peat extract, we grew 11 bacterial & 4 fungal strains from the Arabidopsis root microbiota.
💥 Exometabolite profiles differed significantly by strain.
April 11, 2025 at 11:41 AM
2/5. MetaFlowTrain cultivates diverse microbes & collects their exometabolites under continuous nutrient flow.
🌱 Using sterile peat extract, we grew 11 bacterial & 4 fungal strains from the Arabidopsis root microbiota.
💥 Exometabolite profiles differed significantly by strain.
🌱 Using sterile peat extract, we grew 11 bacterial & 4 fungal strains from the Arabidopsis root microbiota.
💥 Exometabolite profiles differed significantly by strain.
Reposted by Stéphane Hacquard
📝 Paper: www.nature.com/articles/s41...
1/5. 🚂 MetaFlowTrain = 4 modular components:
a. Variety of liquid inputs
b. 24-channel pump enabling parallel metabolic trains
c. 3D-printed gnotobiotic microchambers
d. Multi-layered outputs for cell/metabolite analysis
🔗 protocols.io/view/36wgqd68ovk5/v3
1/5. 🚂 MetaFlowTrain = 4 modular components:
a. Variety of liquid inputs
b. 24-channel pump enabling parallel metabolic trains
c. 3D-printed gnotobiotic microchambers
d. Multi-layered outputs for cell/metabolite analysis
🔗 protocols.io/view/36wgqd68ovk5/v3
April 11, 2025 at 11:41 AM
📝 Paper: www.nature.com/articles/s41...
1/5. 🚂 MetaFlowTrain = 4 modular components:
a. Variety of liquid inputs
b. 24-channel pump enabling parallel metabolic trains
c. 3D-printed gnotobiotic microchambers
d. Multi-layered outputs for cell/metabolite analysis
🔗 protocols.io/view/36wgqd68ovk5/v3
1/5. 🚂 MetaFlowTrain = 4 modular components:
a. Variety of liquid inputs
b. 24-channel pump enabling parallel metabolic trains
c. 3D-printed gnotobiotic microchambers
d. Multi-layered outputs for cell/metabolite analysis
🔗 protocols.io/view/36wgqd68ovk5/v3
Reposted by Stéphane Hacquard
🚨Excited to share our new publication! MetaFlowTrain, a highly parallelized and modular fluidic system to study exometabolite interactions between microbes-microbes-plants 🌱
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
MetaFlowTrain : A Highly-Parallelized and Modular Fluidic System.
YouTube video by Guillaume Chesneau
www.youtube.com
April 11, 2025 at 11:41 AM
🚨Excited to share our new publication! MetaFlowTrain, a highly parallelized and modular fluidic system to study exometabolite interactions between microbes-microbes-plants 🌱
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
@hacquardst.bsky.social @herpell.bsky.social S.Wolf S.Perin @mpipz.bsky.social
www.youtube.com/watch?v=gNUf...
🧵Thread 5/5:
We present MetaFlowTrain, an easy-to-build, highly parallelized, and cost-effective fluidic system for studying microbial exometabolites and their roles in modulating microbe–microbe–host interactions. Kudos to @chesneau-g.bsky.social @mpipz.bsky.social
Give it a try: www.nature.com/articles/s41...
Give it a try: www.nature.com/articles/s41...
April 10, 2025 at 9:59 AM
We present MetaFlowTrain, an easy-to-build, highly parallelized, and cost-effective fluidic system for studying microbial exometabolites and their roles in modulating microbe–microbe–host interactions. Kudos to @chesneau-g.bsky.social @mpipz.bsky.social
Give it a try: www.nature.com/articles/s41...
Give it a try: www.nature.com/articles/s41...
Reposted by Stéphane Hacquard
New paper from lab- in
@newphyt.bsky.social
Integrating ecological and evolutionary frameworks for SynCom success.
Led by @manudelbaq.bsky.social with Singh, Liu, Sáez-Sandino, Coleine, Muñoz-Rojas, Bastida, Trivedi
@microsky.bsky.social
nph.onlinelibrary.wiley.com/doi/full/10....
@newphyt.bsky.social
Integrating ecological and evolutionary frameworks for SynCom success.
Led by @manudelbaq.bsky.social with Singh, Liu, Sáez-Sandino, Coleine, Muñoz-Rojas, Bastida, Trivedi
@microsky.bsky.social
nph.onlinelibrary.wiley.com/doi/full/10....
April 6, 2025 at 3:34 AM
New paper from lab- in
@newphyt.bsky.social
Integrating ecological and evolutionary frameworks for SynCom success.
Led by @manudelbaq.bsky.social with Singh, Liu, Sáez-Sandino, Coleine, Muñoz-Rojas, Bastida, Trivedi
@microsky.bsky.social
nph.onlinelibrary.wiley.com/doi/full/10....
@newphyt.bsky.social
Integrating ecological and evolutionary frameworks for SynCom success.
Led by @manudelbaq.bsky.social with Singh, Liu, Sáez-Sandino, Coleine, Muñoz-Rojas, Bastida, Trivedi
@microsky.bsky.social
nph.onlinelibrary.wiley.com/doi/full/10....
Reposted by Stéphane Hacquard
Finally!
Im so excited to present to culmination of many years of work from the fantastic Defeng Shen and some great collaborators. For details, I have made a digested thread below, but if you are more interested feel free to reach out (and read the paper of course).
www.science.org/doi/10.1126/...
Im so excited to present to culmination of many years of work from the fantastic Defeng Shen and some great collaborators. For details, I have made a digested thread below, but if you are more interested feel free to reach out (and read the paper of course).
www.science.org/doi/10.1126/...
Apoplastic barriers are essential for nodule formation and nitrogen fixation in Lotus japonicus
Establishment of the apoplastic root barrier known as the Casparian strip occurs early in root development. In legumes, this area overlaps with nitrogen-fixing nodule formation, which raises the possi...
www.science.org
March 21, 2025 at 5:53 AM
Finally!
Im so excited to present to culmination of many years of work from the fantastic Defeng Shen and some great collaborators. For details, I have made a digested thread below, but if you are more interested feel free to reach out (and read the paper of course).
www.science.org/doi/10.1126/...
Im so excited to present to culmination of many years of work from the fantastic Defeng Shen and some great collaborators. For details, I have made a digested thread below, but if you are more interested feel free to reach out (and read the paper of course).
www.science.org/doi/10.1126/...
Reposted by Stéphane Hacquard
POSTDOC POSITION AVAILABLE, UV-B Perception and Signalling, Geneva, Switzerland. Deadline approaching: 24.02.2025
POSTDOC POSITION AVAILABLE, Geneva, Switzerland - Applications are invited for a postdoc position to study UV-B perception and signalling in plants. Please apply, forward to suitable candidates, and/or repost; many thanks!
Deadline February 24, 2025.
See www.ulm-lab.ch for more information.
Deadline February 24, 2025.
See www.ulm-lab.ch for more information.
February 19, 2025 at 3:00 PM
POSTDOC POSITION AVAILABLE, UV-B Perception and Signalling, Geneva, Switzerland. Deadline approaching: 24.02.2025
Reposted by Stéphane Hacquard
Happy to share this viewpoint, written together with @fabriceroux7.bsky.social and Fabienne Vailleau @lipme-toulouse.bsky.social
nph.onlinelibrary.wiley.com/doi/10.1111/...
1/4
nph.onlinelibrary.wiley.com/doi/10.1111/...
1/4
Building microbial synthetic communities: get inspired by the design of synthetic plant communities
In the last decade, the generation of host-associated microbial culture collections has allowed the fine disentangling of complex relationships between commensal microbes and their hosts, and within-...
nph.onlinelibrary.wiley.com
February 17, 2025 at 4:25 PM
Happy to share this viewpoint, written together with @fabriceroux7.bsky.social and Fabienne Vailleau @lipme-toulouse.bsky.social
nph.onlinelibrary.wiley.com/doi/10.1111/...
1/4
nph.onlinelibrary.wiley.com/doi/10.1111/...
1/4
Reposted by Stéphane Hacquard
I’m super happy to have a great part of my PhD work (under the wonderful supervision of C. Libourel @pierremarcdelaux.bsky.social & @maximebonhomme.bsky.social) now out in @naturegenet.bsky.social !
Here’s a little thread (1/18)
www.nature.com/articles/s41...
Here’s a little thread (1/18)
www.nature.com/articles/s41...
The Marchantia polymorpha pangenome reveals ancient mechanisms of plant adaptation to the environment - Nature Genetics
Pangenome analyses of 133 wild accessions of the model bryophyte Marchantia polymorpha identify adaptive features and provide insights into the mechanisms of plant adaptation to the terrestrial enviro...
www.nature.com
February 17, 2025 at 10:29 AM
I’m super happy to have a great part of my PhD work (under the wonderful supervision of C. Libourel @pierremarcdelaux.bsky.social & @maximebonhomme.bsky.social) now out in @naturegenet.bsky.social !
Here’s a little thread (1/18)
www.nature.com/articles/s41...
Here’s a little thread (1/18)
www.nature.com/articles/s41...
Reposted by Stéphane Hacquard
1/6 Super excited to share with you our work on Marchantia intra-specific diversity and pan-genomics, just out @naturegenet.bsky.social
www.nature.com/articles/s41...
Everything on the discoveries in the thread by @chloe-beaulieu.bsky.social
I want to emphasize 5 additional points:
www.nature.com/articles/s41...
Everything on the discoveries in the thread by @chloe-beaulieu.bsky.social
I want to emphasize 5 additional points:
www.nature.com
February 17, 2025 at 10:13 AM
1/6 Super excited to share with you our work on Marchantia intra-specific diversity and pan-genomics, just out @naturegenet.bsky.social
www.nature.com/articles/s41...
Everything on the discoveries in the thread by @chloe-beaulieu.bsky.social
I want to emphasize 5 additional points:
www.nature.com/articles/s41...
Everything on the discoveries in the thread by @chloe-beaulieu.bsky.social
I want to emphasize 5 additional points:
Reposted by Stéphane Hacquard
Happy to see that our Cell wall integrity #CWI & #ATG8ylation #preprint found a home @natureplants www.nature.com/articles/s41... Congrats Jose, Peng, Alessia & everyone involved. Stay tuned for exciting updates on this story…
ATG8ylation of vacuolar membrane protects plants against cell wall damage - Nature Plants
ATG8ylation of the tonoplast, triggered by cell wall damage, acts as a vital vacuolar quality control mechanism that safeguards vacuolar integrity and ensures cell survival under stress.
www.nature.com
February 7, 2025 at 11:39 AM
Happy to see that our Cell wall integrity #CWI & #ATG8ylation #preprint found a home @natureplants www.nature.com/articles/s41... Congrats Jose, Peng, Alessia & everyone involved. Stay tuned for exciting updates on this story…