60 research outputs found
Vesicle-Like Biomechanics Governs Important Aspects of Nuclear Geometry in Fission Yeast
It has long been known that during the closed mitosis of many unicellular eukaryotes, including the fission yeast (Schizosaccharomyces pombe), the nuclear envelope remains intact while the nucleus undergoes a remarkable sequence of shape transformations driven by elongation of an intranuclear mitotic spindle whose ends are capped by spindle pole bodies embedded in the nuclear envelope. However, the mechanical basis of these normal cell cycle transformations, and abnormal nuclear shapes caused by intranuclear elongation of microtubules lacking spindle pole bodies, remain unknown. Although there are models describing the shapes of lipid vesicles deformed by elongation of microtubule bundles, there are no models describing normal or abnormal shape changes in the nucleus. We describe here a novel biophysical model of interphase nuclear geometry in fission yeast that accounts for critical aspects of the mechanics of the fission yeast nucleus, including the biophysical properties of lipid bilayers, forces exerted on the nuclear envelope by elongating microtubules, and access to a lipid reservoir, essential for the large increase in nuclear surface area during the cell cycle. We present experimental confirmation of the novel and non-trivial geometries predicted by our model, which has no free parameters. We also use the model to provide insight into the mechanical basis of previously described defects in nuclear division, including abnormal nuclear shapes and loss of nuclear envelope integrity. The model predicts that (i) despite differences in structure and composition, fission yeast nuclei and vesicles with fluid lipid bilayers have common mechanical properties; (ii) the S. pombe nucleus is not lined with any structure with shear resistance, comparable to the nuclear lamina of higher eukaryotes. We validate the model and its predictions by analyzing wild type cells in which ned1 gene overexpression causes elongation of an intranuclear microtubule bundle that deforms the nucleus of interphase cells
Crowdsourcing: A new tool for policy-making?
Crowdsourcing is rapidly evolving and applied in situations where ideas,
labour, opinion or expertise of large groups of people are used. Crowdsourcing
is now used in various policy-making initiatives; however, this use has usually
focused on open collaboration platforms and specific stages of the policy
process, such as agenda-setting and policy evaluations. Other forms of
crowdsourcing have been neglected in policy-making, with a few exceptions. This
article examines crowdsourcing as a tool for policy-making, and explores the
nuances of the technology and its use and implications for different stages of
the policy process. The article addresses questions surrounding the role of
crowdsourcing and whether it can be considered as a policy tool or as a
technological enabler and investigates the current trends and future directions
of crowdsourcing.
Keywords: Crowdsourcing, Public Policy, Policy Instrument, Policy Tool,
Policy Process, Policy Cycle, Open Collaboration, Virtual Labour Markets,
Tournaments, Competition
The Performativity of Code : Software and Cultures of Circulation
This article analyses a specific piece of computer code, the Linux operating system kernel, as an example of how technical operationality figures in contemporary culture. The analysis works at two levels. First of all, it attempts to account for the increasing visibility and significance of code or software-related events. Second, it seeks to extend familiar concepts of performativity to include cultural processes in which the creation of meaning is not central, and in which processes of circulation play a primary role. The analysis concentrates on the practices and patterns of circulation of Linux through versions, distributions, clones and reconfigurations. It argues that technical ‘culture-objects’ such as Linux take on a social existence within contemporary technological cultures because of the authorizing contexts in which the reading, writing and execution of code occur. The ‘force’ or performance of certain technical objects, their operationality, can be understood more as the stabilized nexus of diverse social practices, rules and personae than as a formal property of the objects themselves
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