England [UK], February 1 (ANI): Scientists have successfully engineered the most complicated human cell lines ever, indicating that our genomes are more tolerant to significant structural alterations ...

Scientists have successfully engineered the most complicated human cell lines ever, indicating that our genomes are more tolerant to significant structural alterations than previously assumed.

Significance was tested in comparison to HTF or Ctrl (vehicle-treated animals) using Student’s t-test. The testosterone-androgen receptor pathway inhibits the cell proliferation of seminal vesicle ...

The strongest observations are related to the sensitivity of seminal vesicle epithelial cells to testosterone. The revisions include addition of methodological detail, modified language to reflect the ...

Overall, this research presents the most engineered human cell lines to date. For the first time, researchers are able to create structural variants in human genomes, at large scales in a single ...

That, in essence, is what bioengineer Lukasz Bugaj and his team at the University of Pennsylvania have achieved—except the arena is the human body, and the people you are directing are engineered ...

Analysis of extracellular vesicles (EVs), important constituents of the intercellular communication pathway ... This abstract summarizes work by our group to subtype EVs and measure cargo proteins ...

Specifically, we show that tumor cells subjected to oxidative stress by carbonyl cyanide-3-chlorophenylhdrazone (CCCP) eliminate damaged mitochondria segments by bypassing the lysosome to export them ...

Neurons are cells in the body that are responsible for transmitting electrical signals through the nervous system. Different types of neurons affect the ability to move, which begins as an impulse, or ...

It feels like the Splinter Cell remake has been on its way for a while now, which isn't helped by the fact it's been over three years since we heard anything official about the game. From what we ...

In order to prepare more effective engineered extracellular vesicles, we biologically modified M2 microglia. Angiopep-2 (Ang2) is an oligopeptide that can target the blood–brain barrier. Through ...