New preprint: In situ Architecture of #Plasmodesmata.
Using #cryoET, #AlphaFold & proteomics, we uncover the native organization of plant intercellular nanopores.
🔗 doi.org/10.1101/2025...
🧪🧵1/n
#teamtomo #PlantScience #Physcomitrium #Arabidopsis #cryoEM
Marcel Dickmanns | 🌿❄️🔬
New paper alert! I’m very excited to share our paper published in @embojournal.org! @pdc-lab.bsky.social @yaleneuro.bsky.social
@anbangdai.bsky.social et al. @pdc-lab.bsky.social report the localization of BLTP2 in different human cell types & reveal binding partners that mediate its tethering to the PM & to PM-connected structures including certain #endosomes & #macropinosomes undergoing fusion rupress.org/jcb/article/...
"The bridge-like lipid transport protein VPS13C/PARK23 mediates ER–lysosome contacts following lysosome damage" out now in Nature Cell Biology
rdcu.be/ehbaL
Our article is now out in its final form in @natcomms.nature.com. Thankful to reviewers for making our preprint better and of course all contributors and funders. Hopefully my first of many stories understanding the complex membrane cell biology of malaria parasites 🙌
www.nature.com/articles/s41...
📢 The Preliminary Programme for the 2nd WiM Online Conference is out 🥳 🎉
The Early Bird Registration closes Feb 14 2025, 23.59 UTC (50 USD). Fee waivers are available for LMICs & you can also buy fee waivers or donate. Register and apply/donate: womeninmalaria.es/wim-conferen... 💙💛 Please share!
Rodriguez Salazar, @caglaeroglu.bsky.social et al. @dukehealth.bsky.social show that Drp1-mediated mitochondrial fission is necessary for peripheral #astrocyte process formation. Loss of Drp1 induces astrocyte reactivity & disrupts cortical astrocyte organization rupress.org/jcb/article/...
The outer membrane of Gram-negative bacteria blocks many antibiotics. Our latest work reveals that L-type pyocins bypass this barrier by inactivating the BAM complex, killing Pseudomonas aeruginosa without entering the cell, providing a new blueprint for beating antibiotic resistance.
The Hanna lab is looking for an enthusiastic Research Technologist to join the team! 😊
You’ll help lead projects focused on organelle health & resilience to establish momentum in the lab. 🔬🥽
Job description and details can be found here: psu.wd1.myworkdayjobs.com/PSU_Staff/jo...
Nature Cell Biology - Wang et al. show the recruitment of the lipid channel protein VPS13C and formation of VPS13C-dependent contacts between endoplasmic reticulum and lysosomes after lysosomal...
rdcu.be
Organelle biogenesis in the rapidly growing malaria parasite requires extensive membrane genesis and remodeling. Here a mechanism to directly supply lipids from the ER to the inner membrane complex (I...
Many antibiotics are ineffective against Gram-negative pathogens such as Pseudomonas aeruginosa because they cannot penetrate the bacterial outer membrane. Here, we show that protein antibiotics calle...
APPLICATION INSTRUCTIONS: CURRENT PENN STATE EMPLOYEE (faculty, staff, technical service, or student), please login to Workday to complete the internal application process. Please do not apply here, a...
Bridge-like lipid transfer protein 3A (BLTP3A) participates in endomembrane repair as an effector of #ATG8 conjugation to single membranes (CASM) - helping repair or minimize #lysosome damage
@mike-hanna.bsky.social et al, @pdc-lab.bsky.social
www.embopress.org/doi/full/10....
One for the Apicomplexa peeps:
ever wonder how does the IMC grow so fast during progeny formation? Where do all the lipids come from? In our latest work on malaria RBC stages we implicate this monster protein (~6000 residues!) and ER contact sites.
Happy+proud to share and keen to hear thoughts!
One for the Apicomplexa peeps:
ever wonder how does the IMC grow so fast during progeny formation? Where do all the lipids come from? In our latest work on malaria RBC stages we implicate this monster protein (~6000 residues!) and ER contact sites.
Happy+proud to share and keen to hear thoughts!
The EMBO Journal
Video
Video
Andrés Guillén Samander
Andrés Guillén Samander
A bridge-like lipid transfer protein is critical for generation of invasive stages in malaria parasites https://www.biorxiv.org/content/10.1101/2025.07.25.666630v1
A bridge-like lipid transfer protein is critical for generation of invasive stages in malaria parasites https://www.biorxiv.org/content/10.1101/2025.07.25.666630v1
