INCONSISTENCIES IN PUBLIC UTILITY DEPRECIATION: DEDUCTION OF DEPRECIATION FOR RATE BASE PURPOSES

When considering depreciation for rate base purposes the courts and the commissions speak of accrued depreciation, existing depreciation, actual depreciation, complete depreciation, realized depreciation, incomplete depreciation, and observed depreciation. Accrued, existing and actual depreciation all have the same meaning

INCONSISTENCIES IN PUBLIC UTILITY DEPRECIATION

Depreciation is a matter of valuation and of the determination of the cost of rendering public service. It is only incidentally related to replacements, and accounting for depreciation will not necessarily provide for replacements. Since depreciation does have to do primarily with valuation and determination of the cost of rendering service, and since capital devoted to public utility use is subject to regulation, it would seem that consistency in principles is not only desirable but attainable. It is the purpose of this article to examine the cases decided by the courts and by the regulatory commissions of the various jurisdictions to determine the manner in which this consistency may be achieved

SENSE: Combining Mashup and HSM technology by semantic means to improve usability and performance

The amount of data stored and consumed on a daily basis as well as the complexity of the data structure have grown rapidly in past years [1]. Especially business companies try to reduce the rising expenses from storage infrastructure as well as from re-implementation of user interfaces to adapt to evolving tasks. (...

Gene expression analyses in maize inbreds and hybrids with varying levels of heterosis

<p>Abstract</p> <p>Background</p> <p>Heterosis is the superior performance of F₁hybrid progeny relative to the parental phenotypes. Maize exhibits heterosis for a wide range of traits, however the magnitude of heterosis is highly variable depending on the choice of parents and the trait(s) measured. We have used expression profiling to determine whether the level, or types, of non-additive gene expression vary in maize hybrids with different levels of genetic diversity or heterosis.</p> <p>Results</p> <p>We observed that the distributions of better parent heterosis among a series of 25 maize hybrids generally do not exhibit significant correlations between different traits. Expression profiling analyses for six of these hybrids, chosen to represent diversity in genotypes and heterosis responses, revealed a correlation between genetic diversity and transcriptional variation. The majority of differentially expressed genes in each of the six different hybrids exhibited additive expression patterns, and ~25% exhibited statistically significant non-additive expression profiles. Among the non-additive profiles, ~80% exhibited hybrid expression levels between the parental levels, ~20% exhibited hybrid expression levels at the parental levels and ~1% exhibited hybrid levels outside the parental range.</p> <p>Conclusion</p> <p>We have found that maize inbred genetic diversity is correlated with transcriptional variation. However, sampling of seedling tissues indicated that the frequencies of additive and non-additive expression patterns are very similar across a range of hybrid lines. These findings suggest that heterosis is probably not a consequence of higher levels of additive or non-additive expression, but may be related to transcriptional variation between parents. The lack of correlation between better parent heterosis levels for different traits suggests that transcriptional diversity at specific sets of genes may influence heterosis for different traits.</p

Utilizing Weightlifting for Cycling Performance

Abstract available in the 9th Annual Coaches and Sport Science College

Gating interactions steer loop conformational changes in the active site of the L1 metallo-β-lactamase

β-Lactam antibiotics are the most important and widely used antibacterial agents across the world. However, the widespread dissemination of β-lactamases among pathogenic bacteria limits the efficacy of β-lactam antibiotics. This has created a major public health crisis. The use of β-lactamase inhibitors has proven useful in restoring the activity of β-lactam antibiotics, yet, effective clinically approved inhibitors against class B metallo-β-lactamases are not available. L1, a class B3 enzyme expressed by Stenotrophomonas maltophilia, is a significant contributor to the β-lactam resistance displayed by this opportunistic pathogen. Structurally, L1 is a tetramer with two elongated loops, α3-β7 and β12-α5, present around the active site of each monomer. Residues in these two loops influence substrate/inhibitor binding. To study how the conformational changes of the elongated loops affect the active site in each monomer, enhanced sampling molecular dynamics simulations were performed, Markov State Models were built, and convolutional variational autoencoder-based deep learning was applied. The key identified residues (D150a, H151, P225, Y227, and R236) were mutated and the activity of the generated L1 variants was evaluated in cell-based experiments. The results demonstrate that there are extremely significant gating interactions between α3-β7 and β12-α5 loops. Taken together, the gating interactions with the conformational changes of the key residues play an important role in the structural remodeling of the active site. These observations offer insights into the potential for novel drug development exploiting these gating interactions

Neutron interferometer crystallographic imperfections and gravitationally induced quantum interference measurements

© 2017 American Physical Society, https://dx.doi.org/10.1103/physreva.95.013840Dynamical diffraction leads to an interesting, unavoidable set of interference effects for neutron interferometers. This experiment studies the interference signal from two and three successive Bragg diffractions in the Laue geometry. We find that intrinsic Bragg-planemisalignment in monolithic, "perfect" silicon neutron interferometers is relevant between successive diffracting crystals, as well as within the Borrmann fan for typical interferometer geometries. We show that the dynamical phase correction employed in the Colella, Overhauser, and Werner gravitationally induced quantum interference experiments is attenuated by slight, intrinsic misalignments between diffracting crystals, potentially explaining the long-standing 1% discrepancy between theory and experiment. This systematic may also impact precision measurements of the silicon structure factor, affecting previous and future measurements of the Debye-Waller factor and neutron-electron scattering length as well as potential fifth-force searches. For the interferometers used in this experiment, Bragg planes of different diffracting crystals were found to be misaligned by 10 to 40 nrad.U.S. Department of Energy: DE-FG02-97ER41042National Science Foundation: PHY-1307426, PHY-1205342Canada Excellence Research Chairs, Government of Canada: 215284Natural Sciences and Engineering Research Council of Canada: RGPIN-41857