36 research outputs found
The Many Virtues of Second Nature : Habitus in Latin Medieval Philosophy
This chapter consists of a systematic introduction to the nature and function of habitus in Latin medieval philosophy. Over the course of this introduction, several topics are treated: the theoretical necessity to posit habitus; their nature; their causal contribution to the production of internal and external acts; how and why habitus can grow and decay; what makes their unity when they can have multiple objects and work in clusters. Finally we examine two specific questions: why intellectual habitus represent a special case that triggered considerable debate; how human beings can be said to be free if their actions are determined by moral habitus
A Coarse-Grained Biophysical Model of E. coli and Its Application to Perturbation of the rRNA Operon Copy Number
We propose a biophysical model of Escherichia coli that predicts growth rate
and an effective cellular composition from an effective, coarse-grained
representation of its genome. We assume that E. coli is in a state of balanced
exponential steadystate growth, growing in a temporally and spatially constant
environment, rich in resources. We apply this model to a series of past
measurements, where the growth rate and rRNA-to-protein ratio have been
measured for seven E. coli strains with an rRNA operon copy number ranging from
one to seven (the wild-type copy number). These experiments show that growth
rate markedly decreases for strains with fewer than six copies. Using the
model, we were able to reproduce these measurements. We show that the model
that best fits these data suggests that the volume fraction of macromolecules
inside E. coli is not fixed when the rRNA operon copy number is varied.
Moreover, the model predicts that increasing the copy number beyond seven
results in a cytoplasm densely packed with ribosomes and proteins. Assuming
that under such overcrowded conditions prolonged diffusion times tend to weaken
binding affinities, the model predicts that growth rate will not increase
substantially beyond the wild-type growth rate, as indicated by other
experiments. Our model therefore suggests that changing the rRNA operon copy
number of wild-type E. coli cells growing in a constant rich environment does
not substantially increase their growth rate. Other observations regarding
strains with an altered rRNA operon copy number, such as nucleoid compaction
and the rRNA operon feedback response, appear to be qualitatively consistent
with this model. In addition, we discuss possible design principles suggested
by the model and propose further experiments to test its validity
Kinetics of the Liquid-phase Esterification of Acrylic-acid With Butanol Catalyzed By Cation-exchange Resin
Esterification of butyl alcohol with acrylic acid catalysed by Amberlyst-15 cation exchange resin was carried out in a batch reactor in the liquid phase in the temperature range 333 to 364 K and 1 atm. The reaction rate increased with an increase in catalyst concentration and decreased with an increase in water concentration. The rate data were correlated with a kinetic model based on inhibition by water. The apparent activation energy was found to be 59.5 kJ mol-1 for the formation of butyl acrylate