138,282 research outputs found

    A comment on "Intergenerational equity: sup, inf, lim sup, and lim inf"

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    We reexamine the analysis of Chambers (Social Choice and Welfare, 2009), that produces a characterization of a family of social welfare functions in the context of intergenerational equity: namely, those that coincide with either the sup, inf, lim sup, or lim inf rule. Reinforcement, ordinal covariance, and monotonicity jointly identify such class of rules. We show that the addition of a suitable axiom to this three properties permits to characterize each particular rule. A discussion of the respective distinctive properties is provided.Social welfare function; Intergenerational equity; Lim sup ; Lim inf

    Multiple functions of LIM domain-binding CLIM/NLI/Ldb cofactors during zebrafish development

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    The crucial involvement of CLIM/NLI/Ldb cofactors for the exertion of the biological activity of LIM homeodomain transcription factors (LIM-HD) has been demonstrated. In this paper we show that CLIM cofactors are widely expressed during zebrafish development with high protein levels in specific neuronal cell types where LIM-HD proteins of the Isl class are synthesized. The overexpression of a dominant-negative CLIM molecule (DN-CLIM) that contains the LIM interaction domain (LID) during early developmental stages of zebrafish embryos results in an impairment of eye and midbrain-hindbrain boundary (MHB) development and disturbances in the formation of the anterior midline. On a cellular level we show that the outgrowth of peripheral but not central axons from Rohon Beard (RB) and trigeminal sensory neurons is inhibited by DN-CLIM overexpression. We demonstrate a further critical role of CLIM cofactors for axonal outgrowth of motor neurons. Additionally, DN-CLIM overexpression causes an increase of Isl-protein expression levels in specific neuronal cell types, likely due to a protection of the DN-CLIM/LIM-HD complex from proteasomal degradation. Our results demonstrate multiple roles of the CLIM cofactor family for the development of entire organs, axonal outgrowth of specific neurons and protein expression levels

    Four and a half LIM protein 1C (FHL1C)

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    Four-and-a-half LIM domain protein 1 isoform A (FHL1A) is predominantly expressed in skeletal and cardiac muscle. Mutations in the FHL1 gene are causative for several types of hereditary myopathies including X-linked myopathy with postural muscle atrophy (XMPMA). We here studied myoblasts from XMPMA patients. We found that functional FHL1A protein is completely absent in patient myoblasts. In parallel, expression of FHL1C is either unaffected or increased. Furthermore, a decreased proliferation rate of XMPMA myoblasts compared to controls was observed but an increased number of XMPMA myoblasts was found in the G(0)/G(1) phase. Furthermore, low expression of K(v1.5), a voltage-gated potassium channel known to alter myoblast proliferation during the G(1) phase and to control repolarization of action potential, was detected. In order to substantiate a possible relation between K(v1.5) and FHL1C, a pull-down assay was performed. A physical and direct interaction of both proteins was observed in vitro. In addition, confocal microscopy revealed substantial colocalization of FHL1C and K(v1.5) within atrial cells, supporting a possible interaction between both proteins in vivo. Two-electrode voltage clamp experiments demonstrated that coexpression of K(v1.5) with FHL1C in Xenopus laevis oocytes markedly reduced K(+) currents when compared to oocytes expressing K(v1.5) only. We here present the first evidence on a biological relevance of FHL1C

    The influence of high-intensity exercise training on the W(lim)-T(lim) relationship

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    When exercise to exhaustion is performed using at least two different intensities, work to fatigue (W(lim)) can be expressed as a linear function of time to fatigue (T(lim)). Whereas the slope of this function is related to endurance ability, the y-intercept is associated with the potential to perform high intensity interval exercise. The purpose of the present investigation was to determine the influence of 8-wk intermittent high-intensity exercise training on the y-intercept derived from the W(lim)-T(lim) relationship. Eight healthy, untrained male students (19.1 +/- 0.6 yr) completed five 60-s bouts of maximal exercise on the cycle ergometer, three times a week, for 8 wk. Seven controls avoided regular activity for the same period. Prior to and immediately following the training period, the W(lim)-T(lim) relationship, VO2max, and total work completed in five 60-s exercise bouts on the cycle ergometer were determined. Correlational analysis established relationships between the y-intercept and total work accomplished in the interval test pre- (r = 0.90; P < 0.01; N = 15) and post-training (r = 0.92; P < 0.0 1; N = 15), confirming that the y-intercept is related to the ability to perform exercise of this nature. Moreover, the ''anaerobic'' energy yield, calculated from total work and oxygen consumed during the interval exercise, was also related to the y-intercept (r = 0.78; P < 0.01). Interval training significantly increased both the y-intercept (P = 0.0015) and total work accomplished in the interval test (P = 0.001), while the slope of the W(lim)-T(lim) relationship (critical power) remained unchanged. Changes in the y-intercept were correlated to changes in total work accomplished (r = 0.85; P < 0.01). Furthermore, peak post-exercise plasma lactate concentration resulting from the interval task increased from 12.2 +/- 1.6 to 16.3 +/- 0.9 mmol.-1 (P = 0.003), while oxygen consumed during this exercise demand was not significantly changed with training (P = 0. 166). The present study has demonstrated that not only does the y-intercept of the W(lim)-T(lim) relationship provide a measure of the ability to undertake repeated bouts of maximal, high intensity exercise, but that this particular characteristic is also responsive to exhaustive interval training

    Raw data summary for: Zebrafish parental progeny investment in response to cycling thermal stress and hypoxia: deposition of heat shock proteins but not cortisol

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    This dataset includes the raw summary data found in the tables and figures in Lim and Bernier (2022a) including body condition, fecundity, embryo viability, temperature, dissolved oxygen levels, glucocorticoid levels, gene expression, and protein expression data

    Raw data summary for: Intergenerational plasticity to cycling high temperature and hypoxia affects offspring stress responsiveness and tolerance in zebrafish

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    This dataset includes the raw summary data found in the tables and figures in Lim and Bernier (2023a) including temperature, dissolved oxygen levels, larval reduced movement temperature, egg size, yolk size, larval body length, survival, hatch timing, cortisol levels, gene expression, protein expression, critical thermal maxima, and time to loss of equilibrium

    Gymnastics psychology

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    Heinen T, Vinken PM, Velentzas K. Gymnastics psychology. In: Caine DJ, Russel K, Lim L, eds. Gymnastics. Handbook of Sports Medicine and Science. Chichester [u.a.]: Wiley Blackwell; 2013: 98-107

    Lim, I. T.

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