about
A simple, versatile method for GFP-based super-resolution microscopy via nanobodiesSpatial regulators for bacterial cell division self-organize into surface waves in vitroAcetylated tubulin is essential for touch sensation in miceA paired RNAi and RabGAP overexpression screen identifies Rab11 as a regulator of β-amyloid production.Molecular architecture of native fibronectin fibrils.Supercritical angle fluorescence correlation spectroscopy.Accurate determination of membrane dynamics with line-scan FCS.DNA damage regulates the mobility of Brca2 within the nucleoplasm of living cells.Efficient inhibition of the Alzheimer's disease beta-secretase by membrane targeting.Visualizing the functional architecture of the endocytic machinery.Scanning fluorescence correlation spectroscopy on biomembranes.Efficient homogeneous illumination and optical sectioning for quantitative single-molecule localization microscopy.Plasma membranes are poised for activation of raft phase coalescence at physiological temperature.Superresolution imaging of amyloid fibrils with binding-activated probesFluorescence correlation spectroscopy in membrane structure elucidation.Detergent-activated BAX protein is a monomer.The yeast kinetochore - structural insights from optical microscopy.Bax assembly into rings and arcs in apoptotic mitochondria is linked to membrane pores.Total internal reflection fluorescence correlation spectroscopy: effects of lateral diffusion and surface-generated fluorescenceNanoscale invaginations of the nuclear envelope: Shedding new light on wormholes with elusive function.Tracking single serotonin transporter molecules at the endoplasmic reticulum and plasma membraneCxcl12 evolution--subfunctionalization of a ligand through altered interaction with the chemokine receptor.Aurora-B kinase pathway controls the lateral to end-on conversion of kinetochore-microtubule attachments in human cells.Specific protein labeling with caged fluorophores for dual-color imaging and super-resolution microscopy in living cells.Effects of ceramide on liquid-ordered domains investigated by simultaneous AFM and FCSStudying slow membrane dynamics with continuous wave scanning fluorescence correlation spectroscopy.Membrane promotes tBID interaction with BCL(XL).3D superresolution microscopy by supercritical angle detection.New concepts for fluorescence correlation spectroscopy on membranes.Novel Labeling Schemes for Single-Molecule Nanoscopy.Scanning FCS for the characterization of protein dynamics in live cells.Binding-activated localization microscopy of DNA structures.Fgf8 morphogen gradient forms by a source-sink mechanism with freely diffusing molecules.Mobility of Min-proteins in Escherichia coli measured by fluorescence correlation spectroscopy.The bacterial SMC complex displays two distinct modes of interaction with the chromosome.Automated suppression of sample-related artifacts in Fluorescence Correlation Spectroscopy.Dual-Color and 3D Super-Resolution Microscopy of Multi-protein Assemblies.Absolute Arrangement of Subunits in Cytoskeletal Septin Filaments in Cells Measured by Fluorescence Microscopy.Modular scanning FCS quantifies receptor-ligand interactions in living multicellular organisms.ChromoTrace: Computational reconstruction of 3D chromosome configurations for super-resolution microscopy.
P50
Q28265564-57E6EA6E-B154-4696-86B6-E0640BA8F0CDQ28279529-8BE9A6FC-05B2-4BA9-B4EA-3516CC6E56C7Q28817324-6704152A-C0C8-418C-B646-5F903F441D3CQ30577278-6BE2F5C5-94D6-4612-9406-8AE9DFBE1342Q30654510-7A1726D5-2EAE-4F59-A542-BC3BAC411A9DQ33298017-3CE2FC65-8E36-45FC-9F70-2EA4E153F530Q33414025-90DA51F7-AA31-4BBE-B47C-49A653E9E416Q34410989-E2CD1CDF-FA59-4175-AAC7-12CE43B1861EQ34774178-72A080A7-2658-40F0-B307-53B0DC5D4019Q35170434-5B171C4E-4692-43C3-BF30-6ECDED7C2047Q35352237-CFB1E7F0-6410-4AAC-8741-BE6C12A9E98FQ36209482-A039DC6C-0F6B-40E0-995F-A3A5CB573F32Q36786913-C533089D-9A4B-4F73-80EB-17A313B4DB88Q37025846-15CC2D99-49CE-4F48-BCA8-367BA8577F99Q37272797-1F110C19-ED43-4034-8D80-EC77993E4B21Q37433219-CCF5330E-2500-46F5-ADD7-F957BC2E0CB6Q38206938-01F274B7-5F0F-45C6-A0D6-D841905577D1Q38494808-11B3986C-F8A1-4590-886A-278629753A6BQ39123445-27906411-2E74-4A1E-8003-3097B42D588EQ39420958-66E6EAD6-5FB9-4FAB-9BD6-953B47E66DA8Q39484432-922DDD82-3B6F-44D8-861B-F6CDE4CE974AQ39520647-04D26BF9-5FD8-4C2A-B06F-79A0C4DA06B8Q41158864-A3E42CE3-EFE2-4CFF-898E-99584A7CDB13Q42316228-071A9F22-7429-4966-9E70-2BAC8B774E06Q42425338-F13362A1-BC47-4083-B3E0-E36BBBD49AE6Q42720462-F9B1C515-9150-4612-BF8C-DE7A56295722Q45815145-2AE018F7-8EC0-4FBC-81D4-2D02756B89D4Q45831147-5DD8E896-2EF3-4CD2-AEC7-9BB1F0A43CD5Q46544664-9F2AEADB-EE1A-4887-82A2-AB2E9361A996Q47131925-4D7CB53D-0E72-4721-B0D5-1EE05ABB3F14Q48199670-E68B9AE2-8699-4D1A-80F8-CA067A2948E9Q50514497-2FDB711A-CE67-4848-8A67-EFA73AEE7D9CQ50583573-BCCF5509-9042-4F0F-9427-3F26BFA77AEAQ50702778-36D4B98D-E27B-4BAB-8460-1078E72A40C6Q51001733-7A54BE02-7981-47AA-9C88-95B7FA9B8C06Q51684340-D1E740F8-571E-4F17-9FC9-AFE677155C9BQ52335342-49053E97-08E8-47A8-A382-429E11E79286Q53519924-2EC7EBB0-C2E2-4000-B004-F3AEE9819C01Q54729059-6535032C-D6CE-4B04-9019-0302C3CB46FBQ55206418-75684D8D-1C00-433C-9348-53FF808C8CED
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jonas Ries
@ast
Jonas Ries
@en
Jonas Ries
@es
Jonas Ries
@nl
Jonas Ries
@sl
type
label
Jonas Ries
@ast
Jonas Ries
@en
Jonas Ries
@es
Jonas Ries
@nl
Jonas Ries
@sl
prefLabel
Jonas Ries
@ast
Jonas Ries
@en
Jonas Ries
@es
Jonas Ries
@nl
Jonas Ries
@sl
P1053
P-3027-2014
P106
P21
P31
P3829
P496
0000-0002-6640-9250