Chemical competition: Research identifies new mechanism regulating embryonic development
Image Caption: The Princeton team used confocal microscopy to visualize the spatial distribution of two proteins that compete for the MAPK enzyme in early fruit fly embryos. In areas where levels of a protein important for the development of the head were high (shown here in red, with brighter color indicating the presence of more protein) there was less enzyme available to act upon a different protein (shown here in green) that is important for the development of the ends of the embryo, including the tail. Images: Shvartsman Lab
Chemical competition: Research identifies new mechanism regulating embryonic development
A Princeton University-led research team has discovered that protein competition over an important enzyme provides a mechanism to integrate different signals that direct early embryonic development. ...
Tue 9 Mar 10 from PhysOrg
Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from ScienceDaily
Featured - Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from Labspaces.net
Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from e! Science News
Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from R&D Mag
Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from Science Blog
Chemical competition: Research identifies new mechanism regulating embryonic development, Tue 9 Mar 10 from Eurekalert
Enzyme Triggers Early Embryonic Development
A Princeton Univ.-led research team has discovered that protein competition over an important enzyme provides a mechanism to integrate different signals that direct early embryonic development.?
Wed 10 Mar 10 from Laboratory Equipment
New Mechanism Regulating Embryonic Development Identified
Image Caption: The Princeton team used confocal microscopy to visualize the spatial distribution of two proteins that compete for the MAPK enzyme in early fruit fly embryos. In areas where levels ...
Tue 9 Mar 10 from RedOrbit
- Pages: 1
Bookmark
