Jakob Rentsch

Jakob Rentsch
Freie Universität Berlin | FUB · Division of Neurobiology and Behavior

Dr. rer. nat.

About

19
Publications
3,386
Reads
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165
Citations
Introduction
Postdoc at HiesingerLab (lab.flygen.org) at FU Berlin. I am using microscopy to study brain development in fruit flies. Previously, PhD student of Helge Ewers. In my thesis, I used super-resolution microscopy to study the nanoscopic organization of compartments in the plasma membrane and the cytosol of neurons.
Additional affiliations
October 2018 - April 2020
Freie Universität Berlin
Position
  • PhD Student
January 2018 - July 2018
Freie Universität Berlin
Position
  • Master's Student
February 2015 - August 2015
Charité Universitätsmedizin Berlin
Position
  • Bachelor Thesis
Education
October 2015 - July 2018
Freie Universität Berlin
Field of study
  • Biochemistry
October 2012 - September 2015
Freie Universität Berlin
Field of study
  • Biochemistry

Publications

Publications (19)
Article
Full-text available
The plasma membrane is the interface through which cells interact with their environment. Membrane proteins are embedded in the lipid bilayer of the plasma membrane and their function in this context is often linked to their specific location and dynamics within the membrane. However, few methods are available to manipulate membrane protein locatio...
Article
Full-text available
Recent advances in imaging technology have highlighted that scaffold proteins and receptors are arranged in subsynaptic nanodomains. The synaptic membrane-associated guanylate kinase (MAGUK) scaffold protein membrane protein palmitoylated 2 (MPP2) is a component of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor–associated prot...
Article
Full-text available
Expansion microscopy (ExM) is a recently developed technique that allows for the resolution of structures below the diffraction limit by physically enlarging a hydrogel‐embedded facsimile of the biological sample. The target structure is labeled and this label must be retained in a relative position true to the original, smaller state before expans...
Article
Full-text available
Neuronal transmission relies on the regulated secretion of neurotransmitters, which are packed in synaptic vesicles (SVs). Hundreds of SVs accumulate at synaptic boutons. Despite being held together, SVs are highly mobile, so that they can be recruited to the plasma membrane for their rapid release during neuronal activity. However, how such confin...
Article
Full-text available
The compartmentalization of the plasma membrane (PM) is a fundamental feature of cells. The diffusivity of membrane proteins is significantly lower in biological than in artificial membranes. This is likely due to actin filaments, but assays to prove a direct dependence remain elusive. We recently showed that periodic actin rings in the neuronal ax...
Preprint
Full-text available
Neuronal communication relies on precisely maintained synaptic vesicle (SV) clusters, which assemble via liquid-liquid phase separation (LLPS). This process requires synapsins, the major synaptic phosphoproteins, which are known to bind actin. The reorganization of SVs, synapsins and actin is a hallmark of synaptic activity, but their interplay is...
Preprint
Full-text available
The compartmentalization of the plasma membrane is a fundamental feature of cells. The diffusivity of membrane proteins is significantly lower in cells than in artificial membranes. This seems due to sub-membranous actin filaments, but assays to prove a direct dependence remain elusive. We recently showed that a periodic array of sub-membrane actin...
Article
Expansion microscopy (ExM) is a recently developed technique that allows for the resolution of structures below the diffraction limit by physically enlarging a hydrogel‐embedded facsimile of the biological sample. The target structure is labeled and this label must be retained in a relative position true to the original, smaller state before expans...
Article
Full-text available
The combination of image analysis and superresolution microscopy methods allows for unprecedented insight into the organization of macromolecular assemblies in cells. Advances in deep learning-based object recognition enable the automated processing of large amounts of data, resulting in high accuracy through averaging. However, while the analysis...
Preprint
Full-text available
The combination of image analysis and fluorescence superresolution microscopy methods allows for unprecedented insight into the organization of macromolecular assemblies in cells. Advances in deep learning-based object recognition enables the automated processing of large amounts of data, resulting in high accuracy through averaging. However, while...
Article
Full-text available
Ligand binding of membrane proteins triggers many important cellular signaling events by the lateral aggregation of ligand-bound and other membrane proteins in the plane of the plasma membrane. This local clustering can lead to the co-enrichment of molecules that create an intracellular signal or bring sufficient amounts of activity together to shi...
Article
Full-text available
Actin and non-muscle myosins have long been known to play important roles in growth cone steering and neurite outgrowth. More recently, novel functions for non-muscle myosin have been described in axons and dendritic spines. Consequently, possible roles of actomyosin contraction in organizing and maintaining structural properties of dendritic spine...
Chapter
The recently developed expansion microscopy method (ExM) allows for the resolution of structures below the diffraction limit of light not by sophisticated instrumentation, but rather by physically expanding the molecular structure of cells. This happens by crosslinking the protein in the sample to a hydrogel that is polymerized in situ and subseque...
Preprint
Full-text available
Recent advances in imaging technology have highlighted that scaffold proteins and receptors are arranged in sub-synaptic nanodomains. The synaptic MAGUK scaffold protein MPP2 is a component of AMPA receptor-associated protein complexes and also binds to the synaptic cell adhesion molecule SynCAM1. Using super-resolution imaging, we now show that MP...
Preprint
Full-text available
The plasma membrane is the interface through which cells interact with their environment. Membrane proteins are embedded in the lipid bilayer of the plasma membrane and their function in this context is often linked to their specific location and dynamics within the membrane. However, few methods are available for nanoscale manipulation of membrane...
Conference Paper
Full-text available
The plasma membrane is the interface through which cells interact with their environment. Membrane proteins are embedded in the lipid bilayer of the plasma membrane and their function in this context is often linked to their specific location and dynamics within the membrane. However, few methods are available for nanoscale manipulation of membrane...
Article
Full-text available
Background/Aims The therapeutic options for metastatic neuroendocrine tumors (NETs) are limited. As PI3K signaling is often activated in NETs, we have assessed the effects of selective PI3Kp110α inhibition by the novel agent BYL719 on cell viability, colony formation, apoptosis, cell cycle, signaling pathways, differentiation and secretion in pancr...

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