256 research outputs found
Probing the Nanosecond Dynamics of a Designed Three-Stranded Beta-Sheet with a Massively Parallel Molecular Dynamics Simulation
Recently a temperature-jump FTIR study of a designed three-stranded sheet showing a fast relaxation time of ~140 ± 20 ns was published. We performed massively parallel molecular dynamics simulations in explicit solvent to probe the structural events involved in this relaxation. While our simulations produce similar relaxation rates, the structural ensemble is broad. We observe the formation of turn structure, but only very weak interaction in the strand regions, which is consistent with the lack of strong backbone-backbone NOEs in previous structural NMR studies. These results suggest that either DPDP-II folds at time scales longer than 240 ns, or that DPDP-II is not a well-defined three-stranded β-sheet. This work also provides an opportunity to compare the performance of several popular forcefield models against one another
Purchase discounts and travel premiums during holiday periods: Evidence from the airline industry
Discounts during Thanksgiving and Christmas are common in a variety of retail markets. Although classical economic theory predicts that prices should increase when aggregate demand is high, one possibility is that consumers are more price elastic during seasonal demand peaks. In this article, we examine holiday pricing in the airline industry. Exploiting a unique panel of almost 22 million fares, we find that fares purchased on a holiday are 1.8% cheaper, supporting the conjecture that airlines price discriminate when the mix of purchasing passengers makes demand more elastic. These holiday booking discounts are also found to be larger in competitive markets, with the largest discounts reserved for flights within one-week of departure. In contrast to flights purchased on a holiday, we find that traveling on a holiday is more expensive. Consistent with peak-load pricing, we estimate travel premiums ranging from 41.6% to 82.0% on national holidays and from 4.6% to 35.0% on federal holidays
Purchase discounts on federal holidays: Evidence from the airline industry
Discounts during Thanksgiving and Christmas are common in a variety of retail markets. In this article, we examine whether holiday discounts extend to the airline industry. Exploiting a unique panel of almost 22 million fares, we find that fares purchased on a holiday for flights in the sixty-day period following the holiday are 1.8% cheaper, supporting the conjecture that airlines price discriminate when demand is lower than average or when the mix of purchasing passengers makes demand more elastic. These holiday discounts also do not vary with the level of competition, indicating that market structure has no impact on the magnitude of the holiday purchase discount
How does COVID-19 affect intertemporal price dispersion? Evidence from the airline industry
This study provides empirical evidence documenting how COVID-19 affects intertemporal price dispersion in the U.S. domestic airline market. Applying fixed effect techniques to a unique panel of 43 million fares collected before and after the outbreak of the pandemic, we find that airlines discounted fares by an average of 57% in the first five months of the pandemic, and that prices intertemporally increased at a lower rate, particularly in the last week to departure. As a consequence, flight-level price dispersion decreased. These findings are consistent with the theoretical predictions arising from models of stochastic peak-load pricing (i.e., the drastic decline in the demand for business travel during the pandemic decreases the shadow cost of capacity, resulting in lower fares and lower increases in fares) and intertemporal price discrimination (i.e., the decline in the share of business travel resulted in airlines adjusting their intertemporal pricing strategy by decreasing the rate at which fares increased for late-booking passengers)
How does COVID-19 affect intertemporal price dispersion? Evidence from the airline industry
This study provides empirical evidence documenting how COVID-19 affects intertemporal price dispersion in the airline industry. Exploiting a unique panel of 43 million fares collected before and during the pandemic, we find that airlines discounted fares by an average of 57%. The rate of intertemporal price increases also declined, particularly in the last week to departure. We also find that flight-level price dispersion increased during the pandemic. Fare decreases (and the associated increase in price dispersion) are found to be driven primarily by the diffusion of COVID-19 at the destination as opposed to the origin market
Purchase discounts and travel premiums during holiday periods: Evidence from the airline industry
Discounts during Thanksgiving and Christmas are common in a variety of retail markets. Although classical economic theory predicts that prices should increase when aggregate demand is high, one possibility is that consumers are more price elastic during seasonal demand peaks. In this article, we examine holiday pricing in the airline industry. Exploiting a unique panel of almost 22 million fares, we find that fares purchased on a holiday are 1.8% cheaper, supporting the conjecture that airlines price discriminate when the mix of purchasing passengers makes demand more elastic. These holiday booking discounts are also found to be larger in competitive markets, with the largest discounts reserved for flights within one-week of departure. In contrast to flights purchased on a holiday, we find that traveling on a holiday is more expensive. Consistent with peak-load pricing, we estimate travel premiums ranging from 41.6% to 82.0% on national holidays and from 4.6% to 35.0% on federal holidays
Association of Air Pollution with Increased Incidence of Ventricular Tachyarrhythmias Recorded by Implanted Cardioverter Defibrillators
Epidemiologic studies have demonstrated a consistent link between sudden cardiac deaths and particulate air pollution. We used implanted cardioverter defibrillator (ICD) records of ventricular tachyarrhythmias to assess the role of air pollution as a trigger of these potentially life-threatening events. The study cohort consisted of 203 cardiac patients with ICD devices in the Boston metropolitan area who were followed for an average of 3.1 years between 1995 and 2002. Fine particle mass and gaseous air pollution plus temperature and relative humidity were measured on almost all days, and black carbon, sulfate, and particle number on a subset of days. Date, time, and intracardiac electrograms of ICD-detected arrhythmias were downloaded at the patients’ regular follow-up visits (about every 3 months). Ventricular tachyarrhythmias were identified by electrophysiologist review. Risk of ventricular arrhythmias associated with air pollution was estimated with logistic regression, adjusting for season, temperature, relative humidity, day of the week, patient, and a recent prior arrhythmia. We found increased risks of ventricular arrhythmias associated with 2-day mean exposure for all air pollutants considered, although these associations were not statistically significant. We found statistically significant associations between air pollution and ventricular arrhythmias for episodes within 3 days of a previous arrhythmia. The associations of ventricular tachyarrhythmias with fine particle mass, carbon monoxide, nitrogen dioxide, and black carbon suggest a link with motor vehicle pollutants. The associations with sulfate suggest a link with stationary fossil fuel combustion sources
Identification of target-specific bioisosteric fragments from ligand-protein crystallographic data
Bioisosteres are functional groups or atoms that are structurally different but that can form similar intermolecular interactions. Potential bioisosteres were identified here from analysing the X-ray crystallographic structures for sets of different ligands complexed with a fixed protein. The protein was used to align the ligands with each other, and then pairs of ligands compared to identify substructural features with high volume overlap that occurred in approximately the same region of geometric space. The resulting pairs of substructural features can suggest potential bioisosteric replacements for use in lead-optimisation studies. Experiments with 12 sets of ligand-protein complexes from the Protein Data Bank demonstrate the effectiveness of the procedure
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