Products

Superresolution & Confocal Systems

  • Overview
  • MINFLUX
  • INFINITY
  • FACILITY
  • STEDYCON

Superresolution & Confocal Modules

  • Overview
  • MATRIX Detector
  • TIMEBOW Imaging
  • Adaptive Illumination
  • Adaptive Optics
  • EASY3D
  • RAINBOW Detection
  • STED Lasers
  • Autoalignment
  • Autofocus
  • Excitation Lasers
  • Accessories
  • Custom Solutions

Dyes & Labels

  • Overview
  • abberior STAR
  • abberior LIVE
  • abberior FLUX
  • abberior CAGE
  • abberior Supplies

Shop

  • Dyes by Product Name
  • Dyes by Technique
  • Dyes by Function
  • Microscopy Supplies

Applications

  • Overview
  • Live Cell Imaging
  • Cell Biology
  • Neurobiology
  • Virology
  • Microbiology
  • Zoology
  • Plant Sciences
  • Biophysics
  • Physiology
  • Membrane Biology
  • Material Science
  • All-purpose
  • Tailor-Made

Company

  • People
  • Founders
  • Mission
  • Career
  • Locations

News & Events

  • News
  • Events
  • Webinars
  • Past Events

Expertise

  • Knowledge Base
  • FAQ Videos
  • FAQ
  • Publications
  • White Papers
  • Sample Gallery
  • Microscopy Tutorials
  • Webinar Recordings
  • Protocols
  • Support
  • Contact
  • Shop
  • Search
  • EN
    中文
    Language
@abberior.rocks
MENU Contact
ready to useReady to use MINFLUX 3D
Science beyond Barriers

abberior dyes & labels

Membrane Biology

2014
eLife

Arf1/COPI machinery acts directly on lipid droplets and enables their connection to the ER for protein targeting

Authors:

Wilfling, F., Thiam, A. R., Olarte, M. J., Wang, J., Beck, R., Gould, T. J., ... & Walther, T. C.

Abstract:

Lipid droplets (LDs) are ubiquitous organelles that store neutral lipids, such as triacylglycerol (TG), as reservoirs of metabolic energy and membrane precursors. The Arf1/COPI protein machinery, known for its role in vesicle trafficking, regulates LD morphology, targeting of specific proteins to LDs and lipolysis through unclear mechanisms. Recent evidence shows that Arf1/COPI can bud nano-LDs (∼60 nm diameter) from phospholipid-covered oil/water interfaces in vitro. We show that Arf1/COPI proteins localize to cellular LDs, are sufficient to bud nano-LDs from cellular LDs, and are required for targeting specific TG-synthesis enzymes to LD surfaces. Cells lacking Arf1/COPI function have increased amounts of phospholipids on LDs, resulting in decreased LD surface tension and impairment to form bridges to the ER. Our findings uncover a function for Arf1/COPI proteins at LDs and suggest a model in which Arf1/COPI machinery acts to control ER-LD connections for localization of key enzymes of TG storage and catabolism.

< Back to publications
Full article >
linkedin facebook twitter Instagram

World+49 551 9995 4010USA+1 301 661 0078

© 2023 abberior

Superresolution & Confocal Systems

  • Overview
  • MINFLUX
  • INFINITY
  • FACILITY
  • STEDYCON

Superresolution & Confocal Modules

  • Overview
  • MATRIX Detector
  • TIMEBOW Imaging
  • Adaptive Illumination
  • Adaptive Optics
  • EASY3D
  • RAINBOW Detection
  • STED Lasers
  • Autoalignment
  • Autofocus
  • Excitation Lasers
  • Accessories
  • Custom Solutions

Dyes & Labels

  • Overview
  • abberior STAR
  • abberior LIVE
  • abberior FLUX
  • abberior CAGE
  • abberior Supplies

Shop

  • Dyes by Product Name
  • Dyes by Technique
  • Dyes by Function
  • Microscopy Supplies

Applications

  • Overview
  • Live Cell Imaging
  • Cell Biology
  • Neurobiology
  • Virology
  • Microbiology
  • Zoology
  • Plant Sciences
  • Biophysics
  • Physiology
  • Membrane Biology
  • Material Science
  • All-purpose
  • Tailor-Made

Company

  • People
  • Founders
  • Mission
  • Career
  • Locations

News & Events

  • News
  • Events
  • Webinars
  • Past Events

Expertise

  • Knowledge Base
  • FAQ Videos
  • FAQ
  • Publications
  • White Papers
  • Sample Gallery
  • Microscopy Tutorials
  • Webinar Recordings
  • Protocols
abberior instruments GmbH:
  • Imprint
  • Privacy Policy
  • Terms of Sale
abberior GmbH:
  • Imprint
  • Privacy Policy
  • Terms of Sale
Abberior Instruments America LLC:
  • Privacy Policy
  • Terms of use USA
  • contact
  • manuals
  • service
  • shop

Cookie settings

Please select whether this page may use cookies. Technically necessary cookies are always set. You can also find further information in our data protection statement.

These cookies are required to enable the basic functions of this website, we set a cookie accordingly. This saves your individual consent to the use of technically necessary cookies. Our website only uses technically necessary cookies.


Privacy PolicyImprint