Our strong expertise allows us study lipid - protein interaction based
phenomena at different scales, from the organ and cellular systems down to minimal synthetic systems in which we can control the proteins as well as the lipid, for instance to monitor the allosteric effects of specific lipids on fundamental receptors such as the EGF receptor (Coskun et al (2011) PNAS) and the insulin receptor.
Not exact matches
Nicoll:
At a cellular level, at least, these two different phenomena take place hand - in - hand, but on a somewhat different time scal
At a cellular level,
at least, these two different phenomena take place hand - in - hand, but on a somewhat different time scal
at least, these two
different phenomena take place hand - in - hand, but on a somewhat
different time
scale.
I take a very simple and basic view on scientific issues, such as: if there are «local»
phenomena in the ocean such as El Nino why shouldnt there be local
phenomena in the atmosphere even though the time
scale for «locality» may be
at a
different pace.
Even though the prediction problem itself is seamless, the best practical approach to it may be described as unified: models aimed
at different time
scales and
phenomena may have large commonality but place emphasis on
different aspects of the system.
Depending on the
phenomenon considered, these variations can happen
at different time and spatial
scales.
Many
phenomena in nature show similarities
at several
different scales or over a range of
scales, but never
at all
scales and never with absolute precision.