3,369 research outputs found

    Human population structure, genome autozygosity and human health

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    A major transition in human population structure is currently under way, moving from a historical metapopulation, comprising small and mainly rural endogamous communities, to large and increasingly panmictic urban populations. This process is predicted to increase outbreeding, and preliminary data from genomic surveys have helped to quantify the potential magnitude of the effects. Population genetic trends of this nature should result in a reduced burden of recessive disorders, and have a favourable impact on complex diseases influenced by partially recessive genetic variants of smaller effect. The overall outcome is expected to be beneficial for a range of traits associated with human health and disease that show dominance variance

    Genomics of common diseases:approaching the tipping point

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    A report on the Wellcome Trust Scientific Conference 'The Genomics of Common Diseases 2011', held at the Wellcome Trust Conference Centre, Hinxton, Cambridge, UK, 30 August to 2 September 2011

    Absolute Intensities of the Discrete and Continuous Absorption Bands of Oxygen Gas at 1.26 and 1.065 ” and the Radiative Lifetime of the 1Δg State of Oxygen

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    Laboratory measurements have been made of the absolute intensities of the discrete-line absorption band at 1.26 ”, and of the continuous bands at 1.26 and 1.065 ” in oxygen gas at pressures up to 4.3 atm. It has been shown that discrete and continuous absorptions are quite independent features, the one being a measure of the intrinsic transition probability in isolated molecules, the other of its enhancement in collision complexes. In the former the lines show significant pressure broadening, but the integral molecular absorption coefficients are constant; in the latter they are proportional to pressure and continuous absorption dominates in the 1.26-” region at about Âœ atm oxygen pressure.The radiative half-life of isolated 1Δg oxygen molecules is estimated to be 45 min, and the effect of gas pressure on the rate of decay has been predicted

    Strategy for Mapping Quantitative Trait Loci (QTL) by Using Human Metapopulations

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    Aim: To present a novel strategy for mapping quantitative trait loci (QTL), using human metapopulations. The strategy is based on the expectation that in geographic clusters of small and distinct human isolates, a combination of founder effect and genetic drift can dramatically increase population frequency of rare QTL variants with large effect. In such cases, the distribution of QT measurements in an “affected” isolate is expected to deviate from that observed in neighboring isolates. Methods: We tested this hypothesis in 9 villages from a larger Croatian isolate resource, where 7 Mendelian disorders have been previously reported. The values of 10 physiological and biochemical QTs were measured in a random sample of 1001 individuals (100 inhabitants of each of 9 villages and 101 immigrant controls). Results: Significant over- or under- representation of individuals from specific villages in extreme ends of standardized QT measurement distribution was found 10 times more frequently than expected by chance. The large majority of such clusters of individuals with extreme QT values (34/36, 94.4%) originated from the 6 villages with the most pronounced geographic isolation and endogamy. Conclusion: Early epidemiological assessment supports the feasibility of the proposed strategy. Clusters of individuals with extreme QT values responsible for over-representation of single villages can usually be linked to a larger pedigree and may be useful for further QTL mapping, using linkage analysis

    Modeling and experimental results for condensing supercritical CO2 power cycles.

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    This Sandia supported research project evaluated the potential improvement that 'condensing' supercritical carbon dioxide (S-CO{sub 2}) power cycles can have on the efficiency of Light Water Reactors (LWR). The analytical portion of research project identified that a S-CO{sub 2} 'condensing' re-compression power cycle with multiple stages of reheat can increase LWR power conversion efficiency from 33-34% to 37-39%. The experimental portion of the project used Sandia's S-CO{sub 2} research loop to show that the as designed radial compressor could 'pump' liquid CO{sub 2} and that the gas-cooler's could 'condense' CO{sub 2} even though both of these S-CO{sub 2} components were designed to operate on vapor phase S-CO{sub 2} near the critical point. There is potentially very high value to this research as it opens the possibility of increasing LWR power cycle efficiency, above the 33-34% range, while lowering the capital cost of the power plant because of the small size of the S-CO{sub 2} power system. In addition it provides a way to incrementally build advanced LWRs that are optimally designed to couple to S-CO{sub 2} power conversion systems to increase the power cycle efficiency to near 40%

    Reduction of a metapopulation genetic model to an effective one island model

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    We explore a model of metapopulation genetics which is based on a more ecologically motivated approach than is frequently used in population genetics. The size of the population is regulated by competition between individuals, rather than by artificially imposing a fixed population size. The increased complexity of the model is managed by employing techniques often used in the physical sciences, namely exploiting time-scale separation to eliminate fast variables and then constructing an effective model from the slow modes. Remarkably, an initial model with 2D\mathcal{D} variables, where D\mathcal{D} is the number of islands in the metapopulation, can be reduced to a model with a single variable. We analyze this effective model and show that the predictions for the probability of fixation of the alleles and the mean time to fixation agree well with those found from numerical simulations of the original model.Comment: 16 pages, 4 figures. Supplementary material: 22 pages, 3 figure

    Phenotypic marker for early disease detection in dominant late-onset retinal degeneration

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    PURPOSE. To define early disease expression in autosomal dominant late-onset retinal degeneration (L-ORD), a retinopathy that becomes symptomatic after age 50 and is characterized histopathologically by sub-RPE deposits. METHODS. Three families with L-ORD were included; two families had postmortem eye donors with retina-wide sub-RPE deposits. Six patients with severe visual loss (ages 62-93) were examined clinically, and 17 available individuals (ages 35-60) at a 50:50 risk to inherit L-ORD were also studied with dark adaptometry. A short-term trial of vitamin A at 50,000 IU/day was conducted in three members. Three-year follow-up examinations were performed in a subset of members. RESULTS. Family 1 had 12 available members at risk. On initial examination, only one member had fundus abnormalities: yellow-white punctate lesions in the midperipheral fundus. Darkadaptation kinetics were abnormal in 6 of 12. The youngest age with an abnormality was 35. Family 2 had two available members at risk, both of whom had punctate fundus lesions and abnormal dark adaptation. Family 3 had three available members at risk. One had fundus lesions and abnormal dark adaptation, whereas the others had normal fundi and normal adaptometry. Vitamin A accelerated adaptation kinetics but not to normal rates. Three-year follow-up examinations demonstrated further slowing of adaptation kinetics, whereas rod and cone thresholds remained unchanged. CONCLUSIONS. Dark-adaptation abnormalities can precede symptoms and funduscopic signs of L-ORD by at least a decade. Short-term, high-dose vitamin A accelerates the kinetics of dark adaptation to a limited degree. The results contribute clues about early pathophysiology of this retinal degeneration and provide additional power for genetic mapping of the L-ORD locus. (Invest Ophthalmol Vis Sci

    Variations in Duschinsky rotations in m-fluorotoluene and m-chlorotoluene during excitation and ionization

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    We investigate Duschinsky rotation/mixing between three vibrations for both m-fluorotoluene (mFT) and m-chlorotoluene (mClT), during electronic excitation and ionization. In the case of mFT, we investigate both the S1 → S0 electronic transition and the D0+ ← S1 ionization, by two-dimensional laser-induced fluorescence (2D-LIF) and zero-electron-kinetic energy (ZEKE) spectroscopy, respectively; for mClT, only the D0+ ← S1 ionization was investigated, by ZEKE spectroscopy. The Duschinsky mixings are different in the two molecules, owing to shifts in vibrational wavenumber and variations in the form of the fundamental vibrations between the different electronic states. There is a very unusual behavior for two of the mFT vibrations, where apparently different conclusions for the identity of two S1 vibrations arise from the 2D-LIF and ZEKE spectra. We compare the experimental observations to the calculated Duschinsky matrices, finding that these successfully pick up the key geometric changes associated with each electronic transition and so are successful in qualitatively explaining the vibrational activity in the spectra. Experimental values for a number of vibrations across the S0, S1, and D0+ states are reported and found to compare well to those calculated. Assignments are made for the observed vibration-torsion (“vibtor”) bands, and the effect of vibrational motion on the torsional potential is briefly discussed
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