Linda J. Broadbelt

TL;DR: An updated genome‐scale reconstruction of the metabolic network in Escherichia coli K‐12 MG1655 with increased scope and computational capability is presented, expected to broaden the spectrum of both basic biology and applied systems biology studies of E. coli metabolism.

TL;DR: The glassy-state structural relaxation of polymers near surfaces and interfaces by monitoring fluorescence in multilayer films is analyzed, finding that the distribution in relaxation rates extends more than 100 nanometers into the film interior, a distance greater than that over which surfaces and interface affect the glass transition temperature.

TL;DR: It is shown that model nanocomposites provide a simple way to gain insight into the effect of interparticle spacing on Tg and to predict the approximate ageing response of real nanocomPOSites.

TL;DR: A significant number of reactions appear to be the first steps in the linear portion of numerous biosynthesis pathways and might be candidates for cell regulation, and it is found that the NAD/NADH and NADP/NadPH ratios maintained in the cell are close to the minimum feasible ratio and maximum feasible ratio, respectively.

TL;DR: The microwave sample shows a selectivity of approximately 30 for CO2 over CH4, which is among the highest selectivities reported for this separation, and the applicability of IAST to this system was demonstrated by performing GCMC simulations for both single-component and mixture adsorption.