Presentation is loading. Please wait.

Presentation is loading. Please wait.

Liquid droplet characteristics of p‐tau441

Published byἸωήλ Κολιάτσος Modified over 5 years ago

Similar presentations

Presentation on theme: "Liquid droplet characteristics of p‐tau441"— Presentation transcript:

1 Liquid droplet characteristics of p‐tau441
Liquid droplet characteristics of p‐tau441 Qualitative distribution of phosphorylation sites in p‐tau441 [pS68/69, pT153, pT175, pT181, pS184, pS199, pS202, pT205, pS210, pT212, pS214, pT217, pT231, pS235, pS262, pS324, pY310, pS316, pS396, pS404, pS422 (Mair et al, 2016)]. The charge at pH 7.4 of domains in unphosphorylated tau441 is indicated as well.Liquid–liquid phase separation (LLPS) of p‐tau441 in presence of molecular crowding (12.5% w/v Ficoll‐400). No phase separation is observed without crowding agent or in the absence of p‐tau441 protein.Liquid droplets formed by p‐tau441 in the presence of 10% (w/v) PEG were negative stained with uranyl‐acetate and visualized by transmission electron microscopy (TEM). p‐tau441 droplets are decorated with gold particles after immunogold labeling using anti‐tau antibody K9JA.Shortly after formation (15 min), p‐tau441 droplets stop to coalesce and often occur as doublets or triplets. With time (60 min), droplets grow in size but remain colloidal. Droplet fusion is shown in Movie EV1.p‐tau441 droplets (in buffer with 10% PEG) exhibit glass surface wetting properties characteristics for liquids.Phase diagram of tau LLPS (p‐tau441 concentration (μM) versus PEG concentration (% w/v).In conditions modeling the intraneuronal environment (∼2 μM tau, 10% PEG, pH 7.5), p‐tau441 droplets can form at very high NaCl concentrations (up to 3 M NaCl) in the buffer. Guanidinium hydrochloride (GdmHCl) prevents p‐tau441 LLPS at 3 M; at this concentration, tau aggregates become visible. The chaotropic salt sodium thiocyanate (NaSCN) can inhibit LLPS with increasing concentration, whereas droplets become larger in the presence of the cosmotropic salt ammonium sulfate ((NH4)2SO4). Urea, which denatures proteins by unfolding secondary structures, prevents p‐tau441 LLPS. n = 3 per condition, determined after 3 h.Brightfield images for p‐tau441 LLPS under different salt conditions graphed in (G).The addition of 10% 1,6‐hexanediol to p‐tau441 droplets substantially reduced the amount of tau droplets formed.Data information: In (F) and (G), the phase diagrams show the average of three measurements. Susanne Wegmann et al. EMBO J. 2018;embj © as stated in the article, figure or figure legend

Download ppt "Liquid droplet characteristics of p‐tau441"

Similar presentations

Downstream Processes BIE/CEE 5930/6930 Spring 2010.

Downstream Processes BIE/CEE 5930/6930 Spring 2010.
Qualitative Analysis of Product

Qualitative Analysis of Product
Qualitative test of protein

Qualitative test of protein
Western Blotting.

Western Blotting.
Physical Science Final Exam Review. What is the difference between a chemical and physical property? Give an example of each. 2.

Physical Science Final Exam Review. What is the difference between a chemical and physical property? Give an example of each. 2.
Secreted ERdj3 inhibits extracellular protein aggregation Immunoblot of conditioned media collected from HEK293T cells transiently transfected with ERdj3WT.

Secreted ERdj3 inhibits extracellular protein aggregation Immunoblot of conditioned media collected from HEK293T cells transiently transfected with ERdj3WT.
Cycloheximide inhibits arsenite‐induced stress granule formation and prevents the decreased number of senescent cells mediated by repeated arsenite treatment.

Cycloheximide inhibits arsenite‐induced stress granule formation and prevents the decreased number of senescent cells mediated by repeated arsenite treatment.
D4476 inhibits the phosphorylation of FOXO1a at Ser322 and Ser325, but not at Thr24 in vitro. D4476 inhibits the phosphorylation of FOXO1a at Ser322 and.

D4476 inhibits the phosphorylation of FOXO1a at Ser322 and Ser325, but not at Thr24 in vitro. D4476 inhibits the phosphorylation of FOXO1a at Ser322 and.
Mba1 cofractionates with mitochondrial ribosomes on sucrose gradients.

Mba1 cofractionates with mitochondrial ribosomes on sucrose gradients.
Mitochondrial ribosomes remain associated with the inner membrane in the absence of the ribosome‐binding domain of Oxa1 and of Mba1. Mitochondrial ribosomes.

Mitochondrial ribosomes remain associated with the inner membrane in the absence of the ribosome‐binding domain of Oxa1 and of Mba1. Mitochondrial ribosomes.
Surface distribution of immunogold‐labelled PS I (A–C) and ATP synthase (D–F) complexes. Surface distribution of immunogold‐labelled PS I (A–C) and ATP.

Surface distribution of immunogold‐labelled PS I (A–C) and ATP synthase (D–F) complexes. Surface distribution of immunogold‐labelled PS I (A–C) and ATP.
Persistence of Both Peripheral and Non-Peripheral Corneodesmosomes in the Upper Stratum Corneum of Winter Xerosis Skin Versus only Peripheral in Normal.

Persistence of Both Peripheral and Non-Peripheral Corneodesmosomes in the Upper Stratum Corneum of Winter Xerosis Skin Versus only Peripheral in Normal.
Yeast Tgl3p expressed in HeLa cells localizes to lipid droplets.

Yeast Tgl3p expressed in HeLa cells localizes to lipid droplets.
SERCA2 is a functional adaptor for the alternative toll‐like receptor 9 (TLR9) signalling in cardiomyocytes Co‐immunoprecipitated TLR9 with SERCA2 antibody.

SERCA2 is a functional adaptor for the alternative toll‐like receptor 9 (TLR9) signalling in cardiomyocytes Co‐immunoprecipitated TLR9 with SERCA2 antibody.
Cooperative formation of a higher‐order complex containing AP1 and HMG‐I(Y). Cooperative formation of a higher‐order complex containing AP1 and HMG‐I(Y).

Cooperative formation of a higher‐order complex containing AP1 and HMG‐I(Y). Cooperative formation of a higher‐order complex containing AP1 and HMG‐I(Y).
Calcium regulates ERK nuclear association, but not its activation.

Calcium regulates ERK nuclear association, but not its activation.
Recombinant factor VIIa restores aggregation of αIIbβ3-deficient platelets via tissue factor–independent fibrin generation by Ton Lisman, Jelle Adelmeijer,

Recombinant factor VIIa restores aggregation of αIIbβ3-deficient platelets via tissue factor–independent fibrin generation by Ton Lisman, Jelle Adelmeijer,
Matrix pH elevations propagate along connected, but not fused, mitochondria. Matrix pH elevations propagate along connected, but not fused, mitochondria.

Matrix pH elevations propagate along connected, but not fused, mitochondria. Matrix pH elevations propagate along connected, but not fused, mitochondria.
TRF2/RAP1complex mediates C‐NHEJ inhibition at telomeric ends through hindrance at the KU loading and DNA–PK activation steps. TRF2/RAP1complex mediates.

TRF2/RAP1complex mediates C‐NHEJ inhibition at telomeric ends through hindrance at the KU loading and DNA–PK activation steps. TRF2/RAP1complex mediates.
Crystal Structure of Glycogen Synthase Kinase 3β

Crystal Structure of Glycogen Synthase Kinase 3β

Similar presentations

Ads by Google