Olivia
Online
Wilfried Rossoll
@RossollLab
translational Neuroproteomics Lab | We study protein (dis)aggregation in ALS/FTD, AD, and other neurodegenerative proteinopathies. (Views are my own.)
Jacksonville,FL
Joined March 2019
659 Following
1.1K Followers
787 Posts
Pinned Tweet
We’re hiring! Two postdoc positions are open in the Translational Neuroproteomics lab at Mayo Clinic Florida, focusing on tau and TDP-43 proteinopathies and neurodegeneration.
https://t.co/VMHHFmD0bI
Apply here:
1) https://t.co/vfoLJ7I0om
2) https://t.co/D1PW1bZSiA
Please share!
It is truly a great honor to be selected as a 2025 Kissick Family Foundation Frontotemporal Dementia (FTD) grantee. I extend my heartfelt gratitude to the Kissick Family Foundation in partnership with @MIPhilanthropy for their support.
https://t.co/xG2OPsmG33
In partnership with @aging_mind, @alzassociation, and @CurePSP we recently hosted the 2025 #TauopathyChallengeWorkshop and are excited to announce the grantees who will receive a total of $2.5 million in funding to advance their neurodegenerative research: https://t.co/nSFWYNE0jP
It’s truly an honor to be selected as a 2025 #TauopathyChallengeWorkshop grantee. I extend my heartfelt gratitude to the @RCFNeuro, @aging_mind, @alzassociation, and @CurePSP for recognizing the potential impact of our work how TDP-43 co-pathology affects tauopathies.
Who to follow
Rothstein Lab
@Rothstein_Lab
Dr. Jeffrey Rothstein is a professor of neurology and neuroscience @HopkinsMedicine and is the founding director of @packardcenter. (trainee run)
ShorterLab
@ShorterLab
Countering deleterious phase transitions in ALS/FTD, PD, AD, and related disorders @Penn @PennMedicine @bb_upenn @BMBGGUPENN @PGGUPenn @PennNGG @CAMBUpenn
Gan Lab
@LiGanLab
We've moved to Bluesky! Please follow us there! https://t.co/pbbp33G3QU
Our study provides a first comprehensive overview of pTau-associated proteomes across tauopathies and uncovered several important findings. It is also a starting point for further ProPPr projects, where we can put to good use everything that we have learned during this journey.
https://t.co/gYUWBuQC1B
Out now! Probe‑dependent Proximity Profiling (ProPPr) of Phospho‑Tau‑Associated Proteomes across Tauopathies by @DMorderer and @NeuroWren. Great collaboration with @DrNeuroChic and Dr. Dennis Dickson! @MayoClinicNeuro @MolNeuro @cziscience @NIHAging
Our analysis demonstrated that infiltration of APs with FTL-positive microglia is a characteristic feature of CBD pathology. The observed complex co-localization patterns underscore the importance of using fluorescence microscopy to follow up on proximity proteomics findings.
Excited to share our latest work! We asked if and how TDP-43 regulates RNA transport in neurons and if this is misregulated in ALS. We found that it works to keep RNAs *out* of neurites, and that loss of TDP-43 activity results in specific RNAs aberrantly accumulating there.
Introducing mipDVP (multiplexed imaging-powered Deep Visual Proteomics)! Using 22-marker imaging to profile proteomes across hot/cold tumors, revealing immune microenvironments, macrophage barriers to T cells, & hypoxic adaptations. Out in @MolecularCell
https://t.co/bdlx8M23Y0
If Nature and Science journals both agree on this, surely there is at least a 60% chance it is true. https://t.co/3RB9oCUmUG
Looks like PPS Silent Surfactant, Progenta anionic acid labile surfactant (AALS) I, AALS II, cationic acid labile surfactant (CALS) I, and CALS II are not commercially available anymore.
Can someone please point us to a source for mass spectrometry compatible surfactants less pricey than Invitrosol, ProteaseMax, and RapiGest SF? DDM did not work that well in our hands for FFPE tissue extraction and proteomics.
Can someone please point us to a source for mass spectrometry compatible surfactants less pricey than Invitrosol, ProteaseMax, and RapiGest SF? DDM did not work that well in our hands for FFPE tissue extraction and proteomics.
Excited to share our latest work! We developed a new method for studying RNA localization via proximity labeling: OINC-seq! In contrast to other proximity methods, labels deposited on RNAs are read directly by sequencing without a need for biotinylation. https://t.co/SPvrMuw4ld
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