A Sialylated Voltage-Dependent Ca2+ Channel Binds Hemagglutinin and Mediates Influenza A Virus Entry into Mammalian Cells

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Habitat occupancy of sloth bear Melursus ursinus in Chitwan National Park,Nepal

Mammals have experienced a massive decline in their populations and geographic ranges worldwide. The sloth bear, Melursus ursinus (Shaw, 1791), is one of many species facing conservation threats. Despite being endangered in Nepal, decades of inattention to the situation have hindered their conservation and management. We assessed the distribution and patterns of habitat use by sloth bears in Chitwan National Park (CNP), Nepal. We conducted sign surveys from March to June, 2020, in 4 × 4 km grids (n = 45). We collected detection/non‐detection data along a 4‐km trail that was divided into 20 continuous segments of 200 m each. We obtained environmental, ecological, and anthropogenic covariates to understand determinants of sloth bear habitat occupancy. The data were analyzed using the single‐species single‐season occupancy method, with a spatially correlated detection. Using repeated observations, these models accounted for the imperfect detectability of the species to provide robust estimates of habitat occupancy. The model‐averaged occupancy estimate for the sloth bear was 69% and the detection probability was 0.25. The probability of habitat occupancy by sloth bears increased with the presence of termites and fruits and in rugged, dry, open, undisturbed habitats. Our results indicate that the sloth bear is elusive, functionally unique, and widespread in CNP. Future conservation interventions and action plans aimed at sloth bear management must adequately consider their habitat requirements.     

Antioxidant activity of polar lichens from King George Island (Antarctica)

Antioxidant agents prevent reactive oxygen species, which can cause degenerative diseases. Natural antioxidants are preferred over many synthetic antioxidants, which can be toxic, for therapeutic applications. Five lichen species were collected from King George Island, Antarctica. Antioxidant activities as assessed by DPPH (1,1-diphenyl-2-picrylhydrazyl) free radical and ABTS^•+ [2,2’-azinobis-(3-ethylbenzothiazoline-6-sulfonate)] radical scavenging capacities were determined and compared with those of commercial standards BHA (butylated hydroxyanisole) and trolox [(±)-6-hydroxy-2,5,7,8-tetramethylchromane-2-carboxylic acid]. The results indicated that two lichens exhibited comparatively high antioxidant activities with the remaining three exhibiting less activity. The antioxidant activity was concentration-dependent. When compared, the antioxidant activity of crude extracts from polar lichens to previously published data for tropical and temperate lichen species, we concluded that lichens of Antarctic origin may be the potent sources of strong antioxidant agents. Such species should be explored as novel sources of effective antioxidant metabolites.     

Inhibition of the catalytic subunit of phosphorylase kinase by its alpha/beta subunits

The subunits of phosphorylase kinase are separated and isolated in high yield by gel filtration chromatography in pH 3.3 phosphate buffer containing 8 M urea. Three protein peaks are obtained: the alpha and beta subunits coelute in the first, whereas the gamma and delta subunits are separate peaks. Upon dilution of the denaturant, catalytic activity reappears, associated only with the gamma subunit. As has been previously observed (Kee, S.M., and Graves, D.J. (1986) J. Biol. Chem. 261, 4732-4737), addition of calmodulin dramatically stimulates the reactivation of gamma. Inclusion of increasing amounts of the alpha/beta subunit mixture in the renaturation progressively decreases the activity of the renatured gamma or gamma-calmodulin. This inhibition by alpha/beta is likely due to specific interactions with the gamma subunit because the inhibition is less at pH 8.2 than at pH 6.8 and less when equivalent amounts of phosphorylated alpha/beta subunits are used (both alkaline pH and phosphorylation are known to stimulate the activity of the holoenzyme). These results suggest that the role of either the alpha or beta subunits, or perhaps both, in the nonactivated (alpha 2 beta 2 gamma 2 delta 2)2 complex of phosphorylase kinase is to suppress the activity of the gamma subunit and that activation of the enzyme, by phosphorylation for instance, is due to deinhibition caused by release of this quaternary constraint by alpha and/or beta upon gamma.     

Linking responses of native and invasive plants to hurricane disturbances: implications for coastal plant community structure

Hurricane disturbances produce significant changes in forest microclimates, creating opportunities for seedling regeneration of native and invasive plant species alike. However, there is limited information on how changes in microclimates and pre-existing forest conditions affect native and invasive plants responses to hurricane disturbances. In this manipulative study, we examined the responses of three common shrub/small stature tree species, two of which are native to the coastal region of the southeastern USA (Baccharis halimifolia and Morella cerifera) and one that is invasive (Triadica sebifera), to two key components of hurricane disturbance (canopy damage and saline storm surge). In a greenhouse, we grew seedlings of these species under a range of shade levels that mimicked pre-and post-hurricane canopy conditions for wet pine forest and mixed hardwood forest, two forest communities common in coastal areas of the southeastern USA. Seedlings were subjected to saline storm surges equivalent to full strength sea water for 3 days. Seedling responses (mortality and growth) to the treatments were monitored for 16 months. All species benefitted from higher canopy openness. Storm surge effects were short-lived and seedlings readily recovered under high light conditions. The storm surge had stronger negative effects on survival and growth of all species when coupled with high shade, suggesting storm surge has greater negative impacts on seedlings where hurricane winds cause minimal or no canopy damage. The invasive T. sebifera was by far more shade tolerant than the natives. Survival of T. sebifera seedlings under highly shaded conditions may provide it a competitive edge over native species during community reassembly following tropical storms. Differential responses of native and invasive species to hurricane disturbances will have profound consequences on community structure across coastal forest stands, and may be regulated by legacies of prior disturbances, community structure, extent of canopy damage, and species’ tolerance to specific microclimates.

     

A Nonquiescent “Idling” Population State in Drug-Treated,BRAF-Mutated Melanoma

Targeted therapy is an effective standard of care in BRAF-mutated malignant melanoma. However, the duration of tumor remission varies unpredictably among patients, and relapse is almost inevitable. Here, we examine the responses of several BRAF-mutated melanoma cell lines (including isogenic subclones) to BRAF inhibitors. We observe complex response dynamics across cell lines, with short-term responses (<100 h) varying from cell line to cell line. In the long term, however, we observe equilibration of all drug-treated populations into a nonquiescent state characterized by a balanced rate of death and division, which we term the “idling” state, and to our knowledge, this state has not been previously reported. Using mathematical modeling, we propose that the observed population-level dynamics are the result of cells transitioning between basins of attraction within a drug-modified phenotypic landscape. Each basin is associated with a drug-induced proliferation rate, a recently introduced metric of an antiproliferative drug effect. The idling population state represents a new dynamic equilibrium in which cells are distributed across the landscape such that the population achieves zero net growth. By fitting our model to experimental drug-response data, we infer the phenotypic landscapes of all considered melanoma cell lines and provide a unifying view of how BRAF-mutated melanomas respond to BRAF inhibition. We hypothesize that the residual disease observed in patients after targeted therapy is composed of a significant number of idling cells. Thus, defining molecular determinants of the phenotypic landscape that idling populations occupy may lead to “targeted landscaping” therapies based on rational modification of the landscape to favor basins with greater drug susceptibility.     

Distribution pattern of the threatened Himalayan serow (Capricornis thar) in western midhills of Nepal: An insight for conservation along an altitudinal gradient

Almost nothing is known about the distribution and status of the Himalayan serow, an IUCN category “near threatened” ungulate, formerly widely distributed from subtropical to subalpine regions, in the Nepalese Himalaya. Heavy hunting, together with habitat loss and fragmentation are believed to have caused local extinctions in many sites within its geographical range. Distribution pattern of this dense forest dwelling threatened ungulate thus indicates conservation status of the whole unique ecosystems of this region. The objective of this study was therefore to assess distribution and status of serow in the Nepalese midhills. We conducted surveys, based on sightings and indirect presence signs, in western Nepal, between the subtropical Bardia National Park in the south and mountainous Shey Phoksundo National Park in the north, during 2008–2010. We recorded serow in the Bardia National Park. Further to the north, we recorded it only in highly rugged and inaccessible areas in the high altitudes, which suggests their possible extinction in the midhill region. The serow presence was strongly positively correlated with hunting intensity and forest intactness index. The populations of serow, scattered in the region, are small and therefore likely to be sensitive to demographic stochasticity. This all may consequently lead to future extinction of serow in the entire region. This information can be used to aid further research and decision-making processes for conservation planning along altitudinal gradient of Nepal's Himalaya.