#fbxl4 — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #fbxl4, aggregated by home.social.
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In issue 13:
Highlight on #FBXL4 E3 controlling basal mitophagy via NIX/#BNIP3 degradation
#Salicylic acid attenuates #brassinosteroid signaling by removing S-acylation from proteins
#Nucleoporin foci as stress-sensitive condensates
Mechanism of #botulinum #neurotoxin presynaptic targeting
Cover: Natalia Prevarskaya and coworkers
https://www.embopress.org/toc/14602075/2023/42/13 -
In issue 13:
Highlight on #FBXL4 E3 controlling basal mitophagy via NIX/#BNIP3 degradation
#Salicylic acid attenuates #brassinosteroid signaling by removing S-acylation from proteins
#Nucleoporin foci as stress-sensitive condensates
Mechanism of #botulinum #neurotoxin presynaptic targeting
Cover: Natalia Prevarskaya and coworkers
https://www.embopress.org/toc/14602075/2023/42/13 -
In issue 13:
Highlight on #FBXL4 E3 controlling basal mitophagy via NIX/#BNIP3 degradation
#Salicylic acid attenuates #brassinosteroid signaling by removing S-acylation from proteins
#Nucleoporin foci as stress-sensitive condensates
Mechanism of #botulinum #neurotoxin presynaptic targeting
Cover: Natalia Prevarskaya and coworkers
https://www.embopress.org/toc/14602075/2023/42/13 -
In issue 13:
Highlight on #FBXL4 E3 controlling basal mitophagy via NIX/#BNIP3 degradation
#Salicylic acid attenuates #brassinosteroid signaling by removing S-acylation from proteins
#Nucleoporin foci as stress-sensitive condensates
Mechanism of #botulinum #neurotoxin presynaptic targeting
Cover: Natalia Prevarskaya and coworkers
https://www.embopress.org/toc/14602075/2023/42/13 -
In issue 13:
Highlight on #FBXL4 E3 controlling basal mitophagy via NIX/#BNIP3 degradation
#Salicylic acid attenuates #brassinosteroid signaling by removing S-acylation from proteins
#Nucleoporin foci as stress-sensitive condensates
Mechanism of #botulinum #neurotoxin presynaptic targeting
Cover: Natalia Prevarskaya and coworkers
https://www.embopress.org/toc/14602075/2023/42/13 -
How are specific dysfunctional #mitochondria removed under steady-state conditions?
Julia Pagan and coworkers (University of Queensland) show that an #SCF #ubiquitin #ligase based on #FBXL4, mutated in #MTDPS13, limits basal #mitophagy via #ubiquitination of #NIX and #BNIP3 receptors
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What controls basal, #Parkin-independent #mitophagy?
E3 #ubiquitin #ligase screen by Sylvie Urbé, Michael Clague and coworkers identifies #VHL and #FBXL4 as negative regulators of mitophagy receptors #NIX and #BNIP3 via transcriptional and direct post-translational mechanisms, respectively
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How do FBXL4 mutations lead to #encephalomyopathic #mtDNA depletion syndrome 13?
Hui Jiang et al find increased #mitochondrial loss and perinatal lethality in Fbxl4 KO mice due to increased levels of #mitophagy receptors #BNIP3 and NIX targeted by SCF-#FBXL4 #ubiquitin ligase