«This approach is very useful
in eukaryotic systems, where no such iterative technique exists today.
Not exact matches
But now EPO apparently favors the UC argument that its discovery covers CRISPR use
in both prokaryotic and
eukaryotic systems.
If — as
in the
eukaryotic ubiquitin - based
system — the access to the protease depends on a specific tag that must be carried by the substrate, then the important decision who and when should be eliminated boils down to the timely and selective attachment of tags.
Such an autocatalytic
system also provides an entirely novel mechanism for the growth of ring - shaped structures, which differs fundamentally from that used for daughter cell segregation
in eukaryotic cell division: In eukaryotes, specific motor proteins which attach to the cell membrane and undergo active contraction are essential for this process, Denk points ou
in eukaryotic cell division:
In eukaryotes, specific motor proteins which attach to the cell membrane and undergo active contraction are essential for this process, Denk points ou
In eukaryotes, specific motor proteins which attach to the cell membrane and undergo active contraction are essential for this process, Denk points out.
«Synthetic biology is a new area that's really exciting to young scientists — to have things begin to work
in this way is a sort of validation of the field,» says Pamela Silver, a professor of
systems biology at Harvard University Medical School and co-author of a study demonstrating one of the first synthetic restructurings of a
eukaryotic cell that is described
in the journal Genes & Development.
We previously showed that the bacterial response regulator PhoB [14], [15] can be adapted to function
in a partial synthetic
eukaryotic signal transduction
system [12].
To enable such a
system in plants, the re-designed receptors need to be targeted extracellularly and we need to address
eukaryotic processes that are not fully understood, such as transmembrane signaling, signal - dependent nuclear translocation, and other signaling complexities.
Scientists at Tokyo Institute of Technology (Tokyo Tech) have found that
eukaryotic and bacterial growth regulation
systems of independent origins are connected to the control of chloroplast rRNA transcription
in a primitive red alga.
Despite its power, RNAi is amazingly simple to perform
in the roundworm C. elegans, an important model
system for
eukaryotic gene function.
My research is framed within the Wellcome Trust consortium on the archaeal origins of
eukaryotic cell organization (http://evocyt.com/), which includes a diverse group of researchers studying the evolution of
eukaryotic machinery from different points of view — e.g. how do specific cellular
systems work
in different lineages, and how did that affect the origin of the
eukaryotic cell plan?
Many potential applications of this technology exist
in production of biomaterials, biofuels, pharmaceuticals, and the engineering of
eukaryotic synthetic biology
systems.»