In situ observation of hall magnetohydrodynamic cascade in space plasma

We present estimates of the turbulent energy-cascade rate derived from a Hall-magnetohydrodynamic (MHD) third-order law. We compute the contribution from the Hall term and the MHD term to the energy flux. Magnetospheric Multiscale (MMS) data accumulated in the magnetosheath and the solar wind are compared with previously established simulation results. Consistent with the simulations, we find that at large (MHD) scales, the MMS observations exhibit a clear inertial range dominated by the MHD flux. In the subion range, the cascade continues at a diminished level via the Hall term, and the change becomes more pronounced as the plasma beta increases. Additionally, the MHD contribution to interscale energy transfer remains important at smaller scales than previously thought. Possible reasons are offered for this unanticipated result

Effects of metal-contaminated soils on the accumulation of heavy metals in gotu kola (Centella asiatica) and the potential health risks: a study in Peninsular Malaysia

Centella asiatica is a commonly used medicinal plant in Malaysia. As heavy metal accumulation in medicinal plants which are highly consumed by human is a serious issue, thus the assessment of heavy metals in C. asiatica is important for the safety of consumers. In this study, the heavy metal accumulation in C. asiatica and the potential health risks were investigated. Samples of C. asiatica and surface soils were collected from nine different sites around Peninsular Malaysia. The concentration of six heavy metals namely Cd, Cu, Ni, Fe, Pb and Zn were determined by air-acetylene flame atomic absorption spectrophotometer (AAS). The degree of anthropogenic influence was assessed by calculating the enrichment factor (EF) and index of geoaccumulation (Igeo). The heavy metal uptake into the plant was estimated through the calculation of translocation factor (TF), bioconcentration factor (BCF) and correlation study. Estimated daily intakes (EDI) and target hazard quotients (THQ) were used to determine the potential health risk of consuming C. asiatica. The results showed that the overall surface soil was polluted by Cd, Cu and Pb, while the uptake of Zn and Ni by the plants was high. The value of EDI and THQ showed that the potential of Pb toxicity in C. asiatica was high as well. As heavy metal accumulation was confirmed in C. asiatica, daily consumption of the plant derived from polluted sites in Malaysia was not recommended

New Insights into the Nature of Turbulence in the Earth's Magnetosheath Using Magnetospheric MultiScale Mission Data

The Earth's magnetosheath, which is characterized by highly turbulent fluctuations, is usually divided into two regions of different properties as a function of the angle between the interplanetary magnetic field and the shock normal. In this study, we make use of high-time resolution instruments on board the Magnetospheric MultiScale spacecraft to determine and compare the properties of subsolar magnetosheath turbulence in both regions, i.e., downstream of the quasi-parallel and quasi-perpendicular bow shocks. In particular, we take advantage of the unprecedented temporal resolution of the Fast Plasma Investigation instrument to show the density fluctuations down to sub-ion scales for the first time. We show that the nature of turbulence is highly compressible down to electron scales, particularly in the quasi-parallel magnetosheath. In this region, the magnetic turbulence also shows an inertial (Kolmogorov-like) range, indicating that the fluctuations are not formed locally, in contrast with the quasi-perpendicular magnetosheath. We also show that the electromagnetic turbulence is dominated by electric fluctuations at sub-ion scales (f > 1 Hz) and that magnetic and electric spectra steepen at the largest-electron scale. The latter indicates a change in the nature of turbulence at electron scales. Finally, we show that the electric fluctuations around the electron gyrofrequency are mostly parallel in the quasi-perpendicular magnetosheath, where intense whistlers are observed. This result suggests that energy dissipation, plasma heating, and acceleration might be driven by intense electrostatic parallel structures/waves, which can be linked to whistler waves

Evidence for electron Landau damping in space plasma turbulence

How turbulent energy is dissipated in weakly collisional space and astrophysical plasmas is a major open question. Here, we present the application of a field-particle correlation technique to directly measure the transfer of energy between the turbulent electromagnetic field and electrons in the Earth's magnetosheath, the region of solar wind downstream of the Earth's bow shock. The measurement of the secular energy transfer from the parallel electric field as a function of electron velocity shows a signature consistent with Landau damping. This signature is coherent over time, close to the predicted resonant velocity, similar to that seen in kinetic Alfven turbulence simulations, and disappears under phase randomisation. This suggests that electron Landau damping could play a significant role in turbulent plasma heating, and that the technique is a valuable tool for determining the particle energisation processes operating in space and astrophysical plasmas.STFC Ernest Rutherford Fellowship [ST/N003748/2]; NASA HSR grant [NNX16AM23G]; NSF CAREER Award [AGS-1054061]; NASA HGI grant [80NSSC18K0643]; NASA MMS GI grant [80NSSC18K1371]Open access journalThis item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]

A Residue Specific Insight into the Arkadia E3 Ubiquitin Ligase Activity and Conformational Plasticity

Arkadia (Rnf111) is an E3 ubiquitin ligase that plays a central role in the amplification of transforming growth factor beta (TGF-β) signaling responses by targeting for degradation the negative regulators of the pathway, Smad6 and Smad7, and the nuclear co-repressors Ski and Skil (SnoN). Arkadia's function in vivo depends on the really interesting new gene (RING)–H2 interaction with the E2 enzyme UbcH5b in order to ligate ubiquitin chains on its substrates. A conserved tryptophan (W972) in the C-terminal α-helix is widely accepted as essential for E2 recruitment and interaction and thus also for E3 enzymatic activity. The present NMR-driven study provides an atomic-level investigation of the structural and dynamical properties of two W972 Arkadia RING mutants, attempting to illuminate for the first time the differences between a functional and a nonfunctional mutant W972A and W972R, respectively. A TGF-β-responsive promoter driving luciferase was used to assay for Arkadia function in vivo. These experiments showed that the Arkadia W972A mutant has the same activity as wild-type (WT) Arkadia in enhancing TGF-β signaling responses, while W972R does not. Only minor structural differences exist between the W972A RING domain and WT-RING. In contrast, the W972R mutant hardly interacts with E2. The loss of function correlates with structural changes in the C-terminal α-helix and an increase in the distance between the Zn(II) ions. Our data show that the position occupied by W972 within WT Arkadia is critical for the function of RING and that it depends on the nature of the residue at this position

Selectivity of commonly used pharmacological inhibitors for cystathionine ?? synthase (CBS) and cystathionine ?? lyase (CSE).

Abstract BACKGROUND AND PURPOSE: Hydrogen sulfide (H???S) is a signalling molecule that belongs to the gasotransmitter family. Two major sources for endogenous enzymatic production of H???S are cystathionine ?? synthase (CBS) and cystathionine ?? lyase (CSE). In the present study, we examined the selectivity of commonly used pharmacological inhibitors of H???S biosynthesis towards CSE and CBS. EXPERIMENTAL APPROACH: To address this question, human CSE or CBS enzymes were expressed and purified from Escherichia coli as fusion proteins with GSH-S-transferase. After purification, the activity of the recombinant enzymes was tested using the methylene blue method. KEY RESULTS: ??-Cyanoalanine (BCA) was more potent in inhibiting CSE than propargylglycine (PAG) (IC?????? 14 ± 0.2 ??M vs. 40 ± 8 ??M respectively). Similar to PAG, L-aminoethoxyvinylglycine (AVG) only inhibited CSE, but did so at much lower concentrations. On the other hand, aminooxyacetic acid (AOAA), a frequently used CBS inhibitor, was more potent in inhibiting CSE compared with BCA and PAG (IC?????? 1.1 ± 0.1?????M); the IC?????? for AOAA for inhibiting CBS was 8.5 ± 0.7 ??M. In line with our biochemical observations, relaxation to L-cysteine was blocked by AOAA in aortic rings that lacked CBS expression. Trifluoroalanine and hydroxylamine, two compounds that have also been used to block H???S biosynthesis, blocked the activity of CBS and CSE. Trifluoroalanine had a fourfold lower IC?????? for CBS versus CSE, while hydroxylamine was 60-fold more selective against CSE. CONCLUSIONS AND IMPLICATIONS: In conclusion, although PAG, AVG and BCA exhibit selectivity in inhibiting CSE versus CBS, no selective pharmacological CBS inhibitor is currently available