Suzanne Pfeffer
@pfeffersuzanne
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Suzanne Pfeffer is Professor of Biochemistry at Stanford School of Medicine
Stanford, California
Joined April 2011
RT @theNASciences: Congratulations Suzanne Pfeffer of @StanfordMed, newly inducted #NASmember! #NAS162 #biology #biochemistry
https://t.co/….
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Excited to share our preprint showing convergence of GBA1 and LRRK2 mutations in PD: both block Hedgehog signaling and decrease neuroprotection for dopamine neurons @ScienceofPD @ASAP_Research.
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RT @LSAjournal: LRRK2 mutation decreases Neurturin production and neuroprotection, contributing to Parkinson's disease @pfeffersuzanne @Sta….
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The primary cilium of cholinergic neurons may be a linchpin in the progression of Parkinson’s Disease | PNAS
pnas.org
The primary cilium of cholinergic neurons may be a linchpin in the progression of Parkinson’s Disease
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RT @ScienceofPD: Interesting: New paper from @DrZadKhan @pfeffersuzanne & @stanford colleagues reports that the cell type specificity of LR….
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Rab12 activates LRRK2 kinase in a new way! @eLife @ASAP_Research @StanfordBiochem @mrcppu #Parkinsons @ScienceofPD
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So excited to share: Localization of PPM1H phosphatase tunes Parkinson’s disease-linked LRRK2 kinase-mediated Rab GTPase phosphorylation and ciliogenesis | PNAS @ASAP_Research @MichaelJFoxOrg @ScienceofPD @StanfordBiochem.
pnas.org
PPM1H phosphatase reverses Parkinson’s disease-associated, Leucine Rich Repeat Kinase 2-mediated Rab GTPase phosphorylation. We show here that PPM1...
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RT @miratul_neuro: Amazing to see my colleague Dario Alessi receive this well deserved honour from King Charles for his many scientific dis….
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Strife at eLife: inside a journal’s quest to upend science publishing
nature.com
Nature - Editors threaten to resign over ‘no-reject’ model that others see as the future of research journals.
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So excited to share our discovery that phosphorylated Rab GTPases activate LRRK2 by a feedforward pathway! @eLife @ASAP_Research @MichaelJFoxOrg @StanfordBiochem @mrcppu #Parkinson's disease
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So excited to share our new work explaining LRRK2 kinase membrane activation by a cooperative process @ASAP_Research @mrcppu @LRRK2_central @StanfordBiochem @MichaelJFoxOrg
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RT @miratul_neuro: Thank you @pfeffersuzanne and @abu_remaileh labs for stimulating get-together. Stanford collaboration rocks.
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RT @miratul_neuro: Fantastic brunch and research discussion in San Francisco between @ASAP_Research Team Alessi @mrcppu @pfeffersuzanne an….
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@eLife @ASAP_Research @MichaelJFoxOrg So excited to share our latest work on pathogenic LRRK2 blocking cilia in cholinergic striatal neurons and astrocytes!.
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RT @LRRK2_central: Ji Sun (St. Jude Children’s Research Hospital) - July 29th 2021.Robert O. Watson (Texas A&M University) - August 26th 20….
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We're looking for a postdoc to join our projects on the biochemistry and cell biology of LRRK2-Rab GTPase phosphorylation in ciliogenesis and Parkinson's disease at Stanford University. Please RT!
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RT @miratul_neuro: Fantastic @ASAP_Research Supergroup Meeting of Alessi-De Camilli teams @mrcppu @PDClab. Beautiful data from @PietroDeCam….
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LRRK2-phosphorylated Rab10 sequesters Myosin Va with RILPL2 during ciliogenesis blockade @MichaelJFoxOrg.
life-science-alliance.org
Activating mutations in LRRK2 kinase causes Parkinson’s disease. Pathogenic LRRK2 phosphorylates a subset of Rab GTPases and blocks ciliogenesis. Thus, defining novel phospho-Rab interacting partners...
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