15,469 research outputs found
A Signaling Model of Quality and Export: with application to dumping
Extending the literature on quality and trade and supported by the empirical evidence obtained from China, this paper demonstrates that in a developing country, a firm’s export to developed countries has a potential signaling effect on domestic consumers’ perception of its product quality. The model analyzes the signaling and imitating strategies of different types of firms in their decisions to export, and characterizes the conditions for the separating, pooling, and hybrid equilibria. Next, the analysis shows that the strategic exporting of low-quality producers under informational asymmetry can result in dumping. Moreover, the model shows that the implementation of antidumping measures of foreign countries can lead to a Pareto improvement for the firms and consumers of the home country under some circumstances.
Galpha 12 and Galpha 13 Are Phosphorylated during Platelet Activation
The ubiquitously expressed G-proteins G12 and G13 whose function is currently not clear have been shown to be activated in platelet membranes through receptors that stimulate platelet aggregation. We used intact human platelets to determine whether alpha subunits of both G-proteins can be phosphorylated under physiological conditions. Activation of human platelets by thrombin and the thromboxane A2 receptor agonist U46619 lead to phosphorylation of Galpha 12 and Galpha 13. Phosphorylation occurred rapidly after addition of thrombin and was not mediated by glycoprotein IIb/IIIa (integrin alpha IIbbeta 3) activation. Phosphorylation of Galpha 12 and Galpha 13 could be mimicked by phorbol 12-myristate 13-acetate, and thrombin-induced phosphorylation was inhibited by the protein kinase C inhibitor calphostin C indicating an involvement of protein kinase C in Galpha 12/13 phosphorylation induced by thrombin in human platelets. The phosphorylation of both G protein alpha subunits was reconstituted in COS-7 cells cotransfected with Galpha 12 or Galpha 13 and different protein kinase C isoforms. Among the protein knase C isoforms tested, protein kinase C beta , delta , and epsilon were most effective in promoting phosphorylation of Galpha 12 and Galpha 13 in a phorbol 12-myristate 13-acetate-dependent manner. These data demonstrate that Galpha 12 and Galpha 13 are phosphorylated under in vivo conditions and that this phosphorylation involves protein kinase C
Porous calcium phosphate ceramics prepared by coating polyurethane foams with calcium phosphate cements
Porous calcium phosphates have important biomedical applications such as bone defect fillers, tissue engineering scaffolds, and drug delivery systems. While a number of methods to produce the porous calcium phosphate ceramics have been reported, this study aimed to develop a new fabrication method. The new method involved the use of polyurethane foams to produce highly porous calcium phosphate cements (CPCs). By firing the porous CPCs at 1200 degrees Celsius, the polyurethane foams were burnt off and the CPCs prepared at room temperature were converted into sintered porous hydroxyapatite-based calcium phosphate ceramics. The sintered porous calcium phosphate ceramics could then be coated with a layer of the CPC at room temperature, resulting in high porosity, high pore interconnectivity, and controlled pores size
Interferon-γ induces immunoproteasomes and the presentation of MHC I-associated peptides on human salivary gland cells.
A prominent histopathological feature of Sjögren's syndrome, an autoimmune disease, is the presence of lymphocytic infiltrates in the salivary and lachrymal glands. Such infiltrates are comprised of activated lymphocytes and macrophages, and known to produce multiple cytokines including interferon-gamma (IFN-γ). In this study, we have demonstrated that IFN-γ strongly induces the expression of immunoproteasome beta subunits (β1i, β2i and β5i) and immunoproteasome activity but conversely inhibits the expression of proteasome beta subunits (β1, β2 and β5) in human salivary gland (HSG) cells. Mass spectrometric analysis has revealed potential MHC I-associated peptides on the HSG cells, including a tryptic peptide derived from salivary amylase, due to IFN-γ stimulation. These results suggest that IFN-γ induces immunoproteasomes in HSG cells, leading to enhanced presentation of MHC I-associated peptides on cell surface. These peptide-presenting salivary gland cells may be recognized and targeted by auto-reactive T lymphocytes. We have also found that lactacystin, a proteasome inhibitor, inhibits the expression of β1 subunit in HSG cells and blocks the IFN-γ-induced expression of β1i and immunoproteasome activity. However, the expression of β2i and β5i in HSG cells is not affected by lactacystin. These results may add new insight into the mechanism regarding how lactacystin blocks the action of proteasomes or immunoproteasomes
Fine-Grained Analysis of Optimization and Generalization for Overparameterized Two-Layer Neural Networks
Recent works have cast some light on the mystery of why deep nets fit any
data and generalize despite being very overparametrized. This paper analyzes
training and generalization for a simple 2-layer ReLU net with random
initialization, and provides the following improvements over recent works:
(i) Using a tighter characterization of training speed than recent papers, an
explanation for why training a neural net with random labels leads to slower
training, as originally observed in [Zhang et al. ICLR'17].
(ii) Generalization bound independent of network size, using a data-dependent
complexity measure. Our measure distinguishes clearly between random labels and
true labels on MNIST and CIFAR, as shown by experiments. Moreover, recent
papers require sample complexity to increase (slowly) with the size, while our
sample complexity is completely independent of the network size.
(iii) Learnability of a broad class of smooth functions by 2-layer ReLU nets
trained via gradient descent.
The key idea is to track dynamics of training and generalization via
properties of a related kernel.Comment: In ICML 201
How people make friends in social networking sites - A microscopic perspective
We study the detailed growth of a social networking site with full temporal
information by examining the creation process of each friendship relation that
can collectively lead to the macroscopic properties of the network. We first
study the reciprocal behavior of users, and find that link requests are quickly
responded to and that the distribution of reciprocation intervals decays in an
exponential form. The degrees of inviters/accepters are slightly negatively
correlative with reciprocation time. In addition, the temporal feature of the
online community shows that the distributions of intervals of user behaviors,
such as sending or accepting link requests, follow a power law with a universal
exponent, and peaks emerge for intervals of an integral day. We finally study
the preferential selection and linking phenomena of the social networking site
and find that, for the former, a linear preference holds for preferential
sending and reception, and for the latter, a linear preference also holds for
preferential acceptance, creation, and attachment. Based on the linearly
preferential linking, we put forward an analyzable network model which can
reproduce the degree distribution of the network. The research framework
presented in the paper could provide a potential insight into how the
micro-motives of users lead to the global structure of online social networks.Comment: 10 pages, 12 figures, 2 table
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