Add to ORKGOver the last several decades, the emerging ‘integrated’ view of the cell has triumphed over the ‘one gene/one protein/one function’ paradigm. This is illustrated by the biologically opposite effects of key regulatory proteins in different cell types, in established versus primary cells, and in vitro versus in vivo situations. The persistent theme throughout this dissertation is the integration of a wide range of data sources for the purpose of understanding distinct cellular contexts. We first use circadian expression data from human epidermal stem cells to discover waves of transcripts expressed in tune with known clock genes and show that time-of-day dependent responses to proliferation/differentiation cues is important for skin ...
Abstract Background Translational and post-translational control mechanisms in the cell result in wi...
Essentially all biological processes depend on protein-protein interactions (PPIs). Timing of such i...
Many aspects of physiology and behavior are temporally organized into daily 24 hr rhythms, driven by...
Over the last several decades, the emerging ‘integrated’ view of the cell has triumphed over the ‘o...
The molecular details underlying the time-dependent assembly of protein complexes in cellular networ...
<div><p>The molecular details underlying the time-dependent assembly of protein complexes in cellula...
Background Cells react to changing intra- and extracellular signals by dynamically modulating compl...
<div><p>Human protein complexes play crucial roles in various biological processes as the functional...
Abstract Background Oscillations of different origin, period and amplitude play an important role in...
To characterize molecular changes during cell type transitions, the authors develop a method to simu...
Human protein complexes play crucial roles in various biological processes as the functional module....
The circadian clock is a molecular endogenous timekeeping system and allows organisms to adjust thei...
Essentially all biological processes depend on protein-protein interactions (PPIs). Timing of such i...
Essentially all biological processes depend on protein–protein interactions (PPIs). Timing of such i...
<div><p>Essentially all biological processes depend on protein–protein interactions (PPIs). Timing o...
Abstract Background Translational and post-translational control mechanisms in the cell result in wi...
Essentially all biological processes depend on protein-protein interactions (PPIs). Timing of such i...
Many aspects of physiology and behavior are temporally organized into daily 24 hr rhythms, driven by...
Over the last several decades, the emerging ‘integrated’ view of the cell has triumphed over the ‘o...
The molecular details underlying the time-dependent assembly of protein complexes in cellular networ...
<div><p>The molecular details underlying the time-dependent assembly of protein complexes in cellula...
Background Cells react to changing intra- and extracellular signals by dynamically modulating compl...
<div><p>Human protein complexes play crucial roles in various biological processes as the functional...
Abstract Background Oscillations of different origin, period and amplitude play an important role in...
To characterize molecular changes during cell type transitions, the authors develop a method to simu...
Human protein complexes play crucial roles in various biological processes as the functional module....
The circadian clock is a molecular endogenous timekeeping system and allows organisms to adjust thei...
Essentially all biological processes depend on protein-protein interactions (PPIs). Timing of such i...
Essentially all biological processes depend on protein–protein interactions (PPIs). Timing of such i...
<div><p>Essentially all biological processes depend on protein–protein interactions (PPIs). Timing o...
Abstract Background Translational and post-translational control mechanisms in the cell result in wi...
Essentially all biological processes depend on protein-protein interactions (PPIs). Timing of such i...
Many aspects of physiology and behavior are temporally organized into daily 24 hr rhythms, driven by...