3,092 research outputs found
Good policies for bad governments: behavioral political economy
Politicians and policymakers are prone to the same biases as private citizens. Even if politicians are rational, little suggests that they have altruistic interests. Such concerns lead us to be wary of proposals that rely on benign governments to implement interventionist policies that "protect us from ourselves." The authors recommend paternalism that recognizes both the promise and threat of activist government. They support interventions that channel behavior without taking away consumers' ability to choose for themselves. Such "benign paternalism" can lead to very dramatic behavioral changes. But benign paternalism does not give government true authority to control our lives and does not give private agents an incentive to reject such authority through black markets and other corrosive violations of the rule of law. The authors discuss five examples of policy interventions that will generate significant welfare gains without reducing consumer liberties. They believe that all policy proposals should be viewed with healthy skepticism. No doctor would prescribe a drug that only worked in theory. Likewise, economic policies should be tested with small-scale field experiments before they are adopted.Macroeconomics ; Economics ; Economic policy
Cigarette Taxes and the Social Market
Previous researchers have argued that the social market for cigarettes insulates its participants from policies designed to curb youth smoking. Using state Youth Risk Behavior Survey data, we examine whether recent changes in state cigarette taxes affected how young smokers obtained their cigarettes. Our estimates suggest that tax increases reduce youth smoking participation primarily through their effect on third-party purchase, although there is evidence that they are negatively related to borrowing among younger teenagers and negatively related to direct purchase among older teenagers.youth smoking, cigarette taxes
Chiral Transition of SU(4) Gauge Theory with Fermions in Multiple Representations
We report preliminary results on the finite temperature behavior of SU(4)
gauge theory with dynamical quarks in both the fundamental and two-index
antisymmetric representations. This system is a candidate to present scale
separation behavior, where fermions in different representations condense at
different temperature or coupling scales. Our simulations, however, reveal a
single finite-temperature phase transition at which both representations
deconfine and exhibit chiral restoration. It appears to be strongly first
order. We compare our results to previous single-representation simulations. We
also describe a Pisarski-Wilczek stability analysis, which suggests that the
transition should be first order.Comment: 8 pages, 5 figures. Presented at at Lattice 2017, the 35th
International Symposium on Lattice Field Theory, Granada, Spain, 18-24 June
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The glucocorticoid-Angptl4-ceramide axis induces insulin resistance through PP2A and PKCζ.
Chronic glucocorticoid exposure is associated with the development of insulin resistance. We showed that glucocorticoid-induced insulin resistance was attenuated upon ablation of Angptl4, a glucocorticoid target gene encoding the secreted protein angiopoietin-like 4, which mediates glucocorticoid-induced lipolysis in white adipose tissue. Through metabolomic profiling, we revealed that glucocorticoid treatment increased hepatic ceramide concentrations by inducing enzymes in the ceramide synthetic pathway in an Angptl4-dependent manner. Angptl4 was also required for glucocorticoids to stimulate the activities of the downstream effectors of ceramide, protein phosphatase 2A (PP2A) and protein kinase Cζ (PKCζ). We further showed that knockdown of PP2A or inhibition of PKCζ or ceramide synthesis prevented glucocorticoid-induced glucose intolerance in wild-type mice. Moreover, the inhibition of PKCζ or ceramide synthesis did not further improve glucose tolerance in Angptl4-/- mice, suggesting that these molecules were major downstream effectors of Angptl4. Overall, our study demonstrates the key role of Angptl4 in glucocorticoid-augmented hepatic ceramide production that induces whole-body insulin resistance
Winter-to-summer precipitation phasing in southwestern North America : a multicentury perspective from paleoclimatic model-data comparisons
Author Posting. © American Geophysical Union, 2015. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research: Atmospheres 120 (2015): 8052–8064, doi:10.1002/2015JD023085.The phasing of winter-to-summer precipitation anomalies in the North American monsoon (NAM) region 2 (113.25°W–107.75°W, 30°N–35.25°N—NAM2) of southwestern North America is analyzed in fully coupled simulations of the Last Millennium and compared to tree ring reconstructed winter and summer precipitation variability. The models simulate periods with in-phase seasonal precipitation anomalies, but the strength of this relationship is variable on multidecadal time scales, behavior that is also exhibited by the reconstructions. The models, however, are unable to simulate periods with consistently out-of-phase winter-to-summer precipitation anomalies as observed in the latter part of the instrumental interval. The periods with predominantly in-phase winter-to-summer precipitation anomalies in the models are significant against randomness, and while this result is suggestive of a potential for dual-season drought on interannual and longer time scales, models do not consistently exhibit the persistent dual-season drought seen in the dendroclimatic reconstructions. These collective findings indicate that model-derived drought risk assessments may underestimate the potential for dual-season drought in 21st century projections of hydroclimate in the American Southwest and parts of Mexico.NOAA. Grant Number: NA11OAR4310166, NSF. Grant Number: AGS-12432042016-02-1
SmD3 regulates intronic noncoding RNA biogenesis
Accumulation of excess lipid in nonadipose tissues is associated with oxidative stress and organ dysfunction and plays an important role in diabetic complications. To elucidate molecular events critical for lipotoxicity, we used retroviral promoter trap mutagenesis to generate mutant Chinese hamster ovary cell lines resistant to lipotoxic and oxidative stress. A previous report of a mutant from this screen demonstrated that under lipotoxic conditions, small nucleolar RNAs (snoRNAs) in the rpL13a gene accumulate in the cytosol and serve as critical mediators of lipotoxic cell death. We now report a novel, independent mutant in which a single provirus disrupted one allele of the gene encoding the spliceosomal protein SmD3, creating a model of haploinsufficiency. We show that snoRNA expression and the abundance of snoRNA-containing intron lariats are decreased in SmD3 mutant cells, even though haploinsufficiency of SmD3 supports pre-mRNA splicing. The mechanism through which SmD3 regulates the expression of intronic snoRNAs likely involves effects of SmD3 on the levels of small nuclear RNAs (snRNAs) U4 and U5. Our data implicate SmD3 as a critical determinant in the processing of intronic noncoding RNAs in general and as an upstream mediator of metabolic stress response pathways through the regulation of snoRNA expression
On the Impact of Fixed Point Hardware for Optical Fiber Nonlinearity Compensation Algorithms
Nonlinearity mitigation using digital signal processing has been shown to
increase the achievable data rates of optical fiber transmission links. One
especially effective technique is digital back propagation (DBP), an algorithm
capable of simultaneously compensating for linear and nonlinear channel
distortions. The most significant barrier to implementing this technique,
however, is its high computational complexity. In recent years, there have been
several proposed alternatives to DBP with reduced computational complexity,
although such techniques have not demonstrated performance benefits
commensurate with the complexity of implementation. In order to fully
characterize the computational requirements of DBP, there is a need to model
the algorithm behavior when constrained to the logic used in a digital coherent
receiver. Such a model allows for the analysis of any signal recovery algorithm
in terms of true hardware complexity which, crucially, includes the bit-depth
of the multiplication operation. With a limited bit depth, there is
quantization noise, introduced with each arithmetic operation, and it can no
longer be assumed that the conventional DBP algorithm will outperform its low
complexity alternatives. In this work, DBP and a single nonlinear step DBP
implementation, the \textit{Enhanced Split Step Fourier} method (ESSFM), were
compared with linear equalization using a generic software model of fixed point
hardware. The requirements of bit depth and fast Fourier transform (FFT) size
are discussed to examine the optimal operating regimes for these two schemes of
digital nonlinearity compensation. For a 1000 km transmission system, it was
found that (assuming an optimized FFT size), in terms of SNR, the ESSFM
algorithm outperformed the conventional DBP for all hardware resolutions up to
13 bits.Comment: 8 pages, 8 figures, journal submissio
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