4 research outputs found
A critical role of VMP1 in lipoprotein secretion
Lipoproteins are lipid-protein complexes that are primarily generated and secreted from the intestine, liver, and visceral endoderm and delivered to peripheral tissues. Lipoproteins, which are assembled in the endoplasmic reticulum (ER) membrane, are released into the ER lumen for secretion, but its mechanism remains largely unknown. Here, we show that the release of lipoproteins from the ER membrane requires VMP1, an ER transmembrane protein essential for autophagy and certain types of secretion. Loss of vmp1, but not other autophagy-related genes, in zebrafish causes lipoprotein accumulation in the intestine and liver. Vmp1 deficiency in mice also leads to lipid accumulation in the visceral endoderm and intestine. In VMP1-depleted cells, neutral lipids accumulate within lipid bilayers of the ER membrane, thus affecting lipoprotein secretion. These results suggest that VMP1 is important for the release of lipoproteins from the ER membrane to the ER lumen in addition to its previously known functions
Efficient Electron Injection by Size- and Shape-Controlled Zinc Oxide Nanoparticles in Organic Light-Emitting Devices
Three
different sized zinc oxide (ZnO) nanoparticles were synthesized as
spherical ZnO (S-ZnO), rodlike ZnO (R-ZnO), and intermediate shape
and size ZnO (I-ZnO) by controlling the reaction time. The average
sizes of the ZnO nanoparticles were 4.2 nm Ă— 3.4 nm for S-ZnO,
9.8 nm Ă— 4.5 nm for I-ZnO, and 20.6 nm Ă— 6.2 nm for R-ZnO.
Organic light-emitting devices (OLEDs) with these ZnO nanoparticles
as the electron injection layer (EIL) were fabricated. The device
with I-ZnO showed lower driving voltage and higher power efficiency
than those with S-ZnO and R-ZnO. The superiority of I-ZnO makes it
very effective as an EIL for various types of OLEDs regardless of
the deposition order or method of fabricating the organic layer, the
ZnO layer, and the electrode