GROWTH MINDSET IN ENGLISH LANGUAGE LEARNING OF COLLEGE STUDENTS

This study investigated the growth mindset of college students in English language learning and the challenges they encounter in an online setting. Using a researcher-made questionnaire about the growth mindset of college students in English language learning and the challenges they encounter in an online setting, data from the 60 respondents in the study coming from the different colleges or departments of the Notre Dame of Midsayap College were analyzed quantitatively. Findings indicated that students have a high growth mindset and that factors such as motivation, criticism, environment, and effort had played a major role in their English language learning. Major challenges of students in an online setting include finding difficulty in accessing online materials due to poor internet connection, experiencing headaches and body pains due to prolonged exposure to gadgets, and getting bored easily when class time is too lengthy. The least challenges encountered by students in an online setting yet also hampered their learning are lacking gadgets such as a cellphone and laptops, feeling disconnected from the instructor, and excessive workloads. Furthermore, there is no significant difference in a growth mindset in terms of sex and college or department. However, it was found out that College of Nursing (CN) got the highest mean when it comes to their growth mindset. Meanwhile, College of Information Technology, and Engineering (CITE) got the lowest mean. Moreover, there is a significant relationship between the growth mindset of English language learning and the challenges they encountered in an online setting.  Article visualizations

Knigth's Move in the Periodic Table, From Copper to Platinum, Novel Antitumor Mixed Chelate Copper Compounds, Casiopeinas, Evaluated by an in Vitro Human and Murine Cancer Cell Line Panel

We synthesized a novel anticancer agents based on mixed chelate copper (II) complexes, named Casiopeínas® has of general formula [Cu(N-N)(N-O)H2O]NO3 (where, N-N = diimines as 1,10- phenanthroline, 2,2-bipyridine, or substituted and N-O=aminoeidate or [Cu(N-N)(O-O)H2O]NO3 (where NN= diimines as 10-phenanthroline, 2,2-bipyridine or substituted Casiopeínas I, II, IV, V, VI, VII VIII and O-O=acetylacetonate, salicylaldehidate Casiopínas III). We evaluated the in vitro antitumor activity using a human cancer cell panel and some nurine cancer cells. Eleven Casiopeinas are evaluated in order to acquire some structure-activity correlations and some monodentated Casiopeinäs analogues; cisplatinum was used as control drug. The 50% growth inhibition observed is, in all cases reach with concentrations of Casiopeina's 10 or 100 times lower than cisplatinum. In a previous work we reported the induction of apoptosis by Casiopeina II. The results indicate that Casiopeinass are a promising new anticancer drug candidates to be developed further toward clinical trials

Similaridad del nicho ecológico de Pinus montezumae y P. pseudostrobus (Pinaceae) en México: implicaciones para la selección de áreas productoras de semillas y de conservación

Background and Aims: Ecological niche models have been used to understand how species can change or persist in an environmental and geographical space over time. The aims of the study were i) to model the ecological niche of Pinus montezumae and Pinus pseudostrobus in Mexico, ii) to evaluate and compare the similarity and equivalence of niche suitability between the distribution areas of both species, and iii) to propose potential geographic zones for the delimitation of seed-producing and conservation areas for each species.Methods: We used geographical data on distribution of species and climatic, topographic, elevation and soil data as environmental predictors, which were modeled based on the Maximum Entropy algorithm. The parameters of similarity (I) and equivalence (D) were estimated to know the degree of overlap of the niche of the species. For the selection of seed areas, environmental data were used that defined the distribution of each species and dasometrics of the National Forest and Soil Inventory (INFyS).Key results: The models show that the two species have similar areas of high suitability, distributed in the Trans-Mexican Volcanic Belt and the Sierra Madre del Sur. The highest contribution to the models for Pinus pseudostrobus were the variables average annual temperature (41.3%) and total annual rainfall (14.3%), whereas the soil (31.1%) and altitude (29%) were determinants in P. montezumae. The niche overlap analysis indicates that the observed value of equivalence (D=0.430) is less than the similarity value (I=0.610), suggesting that the species have a similar niche but that this is not equivalent, which could be in the process of diversification.Conclusions: The suitability of the ecological niche is similar for the two pine species, but it is not equivalent as they present differential environmental variables. These results have implications for the selection of potential areas for seed production and conservation of each species.Antecedentes y Objetivos: Los modelos de nicho ecológico se han usado para entender de qué manera las especies pueden cambiar o persistir en un espacio ambiental y geográfico a lo largo del tiempo. Los objetivos del presente estudio fueron i) modelar el nicho ecológico de P. montezumae y P. pseudostrobus en México, ii) evaluar y comparar la similaridad y equivalencia de la idoneidad del nicho entre las áreas de distribución de las dos especies, y iii) proponer zonas geográficas potenciales para la delimitación de áreas productoras de semillas y conservación para cada especie.Métodos: Se usaron datos geográficos para predecir la distribución de especies y climáticos topográficos y edáficos como predictores ambientales, fueron modelados con base en el algoritmo de Máxima Entropía. Se estimaron parámetros de similaridad (I) y equivalencia (D) para conocer el grado de traslape del nicho. Para la selección de áreas semilleras se usaron los datos ambientales que definieron la distribución de cada especie y dasométricos del Inventario Nacional Forestal y de Suelos (INFyS).Resultados clave: Los modelos muestran que las dos especies presentan zonas muy similares de alta idoneidad, distribuidas en la Faja Volcánica Transmexicana y en la Sierra Madre del Sur. Las mayores contribuciones al modelo de Pinus pseudostrobus fueron las variables temperatura promedio anual (41.3%) y precipitación total anual (14.3%), mientras que el suelo (31.1%) y la altitud (29%) fueron determinantes para el modelo de P. montezumae. El traslape de nicho presenta un valor observado de equivalencia (D=0.430) menor al de similaridad (I=0.610), sugiriendo que las especies tienen un nicho similar, pero que este no es equivalente en su totalidad, el cual podría estar en proceso de diversificación.Conclusiones: La idoneidad del nicho ecológico es similar para las dos especies de pino, pero no es equivalente al presentar variables ambientales diferenciales. Estos resultados tienen implicaciones para la selección potencial de áreas productoras de semillas y conservación para cada especie

Variable Mutation Rates as an Adaptive Strategy in Replicator Populations

For evolving populations of replicators, there is much evidence that the effect of mutations on fitness depends on the degree of adaptation to the selective pressures at play. In optimized populations, most mutations have deleterious effects, such that low mutation rates are favoured. In contrast to this, in populations thriving in changing environments a larger fraction of mutations have beneficial effects, providing the diversity necessary to adapt to new conditions. What is more, non-adapted populations occasionally benefit from an increase in the mutation rate. Therefore, there is no optimal universal value of the mutation rate and species attempt to adjust it to their momentary adaptive needs. In this work we have used stationary populations of RNA molecules evolving in silico to investigate the relationship between the degree of adaptation of an optimized population and the value of the mutation rate promoting maximal adaptation in a short time to a new selective pressure. Our results show that this value can significantly differ from the optimal value at mutation-selection equilibrium, being strongly influenced by the structure of the population when the adaptive process begins. In the short-term, highly optimized populations containing little variability respond better to environmental changes upon an increase of the mutation rate, whereas populations with a lower degree of optimization but higher variability benefit from reducing the mutation rate to adapt rapidly. These findings show a good agreement with the behaviour exhibited by actual organisms that replicate their genomes under broadly different mutation rates

Sheldon Spectrum and the Plankton Paradox: Two Sides of the Same Coin : A trait-based plankton size-spectrum model

The Sheldon spectrum describes a remarkable regularity in aquatic ecosystems: the biomass density as a function of logarithmic body mass is approximately constant over many orders of magnitude. While size-spectrum models have explained this phenomenon for assemblages of multicellular organisms, this paper introduces a species-resolved size-spectrum model to explain the phenomenon in unicellular plankton. A Sheldon spectrum spanning the cell-size range of unicellular plankton necessarily consists of a large number of coexisting species covering a wide range of characteristic sizes. The coexistence of many phytoplankton species feeding on a small number of resources is known as the Paradox of the Plankton. Our model resolves the paradox by showing that coexistence is facilitated by the allometric scaling of four physiological rates. Two of the allometries have empirical support, the remaining two emerge from predator-prey interactions exactly when the abundances follow a Sheldon spectrum. Our plankton model is a scale-invariant trait-based size-spectrum model: it describes the abundance of phyto- and zooplankton cells as a function of both size and species trait (the maximal size before cell division). It incorporates growth due to resource consumption and predation on smaller cells, death due to predation, and a flexible cell division process. We give analytic solutions at steady state for both the within-species size distributions and the relative abundances across species

Left atrioventricular remodeling in the assessment of the left ventricle diastolic function in patients with heart failure: a review of the currently studied echocardiographic variables

Multiparametric echocardiographic imaging of the failing heart is now increasingly used and useful in decision making in heart failure. The reasons for this, relies on the need of different strategies of handling these patients, as differentiation of systolic or diastolic dysfunction, as well as on the gamma of approaches available, such as percutaneous and surgical revascularization, devices implantations, and valvular regurgitations and stenosis corrections. Congestive heart failure in patients with normal left ventricular diameters or preserved left ventricular ejection fraction had been pointed out recently as present in a proportion so high as 40 to 50 percent of cases of heart failure, mainly due to the epidemics in well developed countries, as is the problem of not well controlled metabolic states (such as obesity and diabetes), but also due to the real word in developing countries, as is the case of hypertension epidemics and its lack of adequate control. As a matter of public utility, the guidelines in the diagnosis and treatment of such patients will have to be cheap, available, easily reproducible, and ideally will furnish answers for the clinician questions not in a binary "black or white" manner, but with graduations, so if possible it has to be quantitative. The present paper aim to focus on the current clinical applications of tissue Doppler and of left atrial function and remodeling, and its pathophysiologic relationship with the left ventricle, as will be cleared in the documented review of echocardiography that follows, considering that the need of universal data on the syndrome of the failing heart does not mean, unfortunately, that all patients and clinicians in developing countries have at their own health facilities the same imaging tools, since they are, as a general rule, expensive

DNA barcoding reveals both known and novel taxa in the Albitarsis Group (Anopheles: Nyssorhynchus) of Neotropical malaria vectors

<p>Abstract</p> <p>Background</p> <p>Mosquitoes belonging to the Albitarsis Group (<it>Anopheles</it>: <it>Nyssorhynchus</it>) are of importance as malaria vectors across the Neotropics. The Group currently comprises six known species, and recent studies have indicated further hidden biodiversity within the Group. DNA barcoding has been proposed as a highly useful tool for species recognition, although its discriminatory utility has not been verified in closely related taxa across a wide geographic distribution.</p> <p>Methods</p> <p>DNA barcodes (658 bp of the mtDNA <it>Cytochrome c Oxidase </it>- <it>COI</it>) were generated for 565 <it>An. albitarsis </it>s.l. collected in Argentina, Brazil, Colombia, Paraguay, Trinidad and Venezuela over the past twenty years, including specimens from type series and type localities. Here we test the utility of currently advocated barcoding methodologies, including the Kimura-two-parameter distance model (K2P) and Neighbor-joining analysis (NJ), for determining species delineation within mosquitoes of the Neotropical Albitarsis Group of malaria vectors (<it>Anopheles</it>: <it>Nyssorhynchus</it>), and compare results with Bayesian analysis.</p> <p>Results</p> <p>Species delineation through barcoding analysis and Bayesian phylogenetic analysis, fully concur. Analysis of 565 sequences (302 unique haplotypes) resolved nine NJ tree clusters, with less than 2% intra-node variation. Mean intra-specific variation (K2P) was 0.009 (range 0.002 - 0.014), whereas mean inter-specific divergence were several-fold higher at 0.041 (0.020 - 0.056), supporting the reported "barcoding gap". These results show full support for separate species status of the six known species in the Albitarsis Group (<it>An. albitarsis </it>s.s., <it>An. albitarsis </it>F, <it>An. deaneorum</it>, <it>An. janconnae</it>, <it>An. marajoara </it>and <it>An. oryzalimnetes</it>), and also support species level status for two previously detected lineages - <it>An. albitarsis </it>G &<it>An. albitarsis </it>I (designated herein). In addition, we highlight the presence of a unique mitochondrial lineage close to <it>An. deaneorum </it>and <it>An. marajoara </it>(<it>An. albitarsis </it>H) from Rondônia and Mato Grosso in southwestern Brazil. Further integrated studies are required to confirm the status of this lineage.</p> <p>Conclusions</p> <p>DNA barcoding provides a reliable means of identifying both known and undiscovered biodiversity within the closely related taxa of the Albitarsis Group. We advocate its usage in future studies to elucidate the vector competence and respective distributions of all eight species in the Albitarsis Group and the novel mitochondrial lineage (<it>An. albitarsis </it>H) recovered in this study.</p

The Role of Recombination for the Coevolutionary Dynamics of HIV and the Immune Response

The evolutionary implications of recombination in HIV remain not fully understood. A plausible effect could be an enhancement of immune escape from cytotoxic T lymphocytes (CTLs). In order to test this hypothesis, we constructed a population dynamic model of immune escape in HIV and examined the viral-immune dynamics with and without recombination. Our model shows that recombination (i) increases the genetic diversity of the viral population, (ii) accelerates the emergence of escape mutations with and without compensatory mutations, and (iii) accelerates the acquisition of immune escape mutations in the early stage of viral infection. We see a particularly strong impact of recombination in systems with broad, non-immunodominant CTL responses. Overall, our study argues for the importance of recombination in HIV in allowing the virus to adapt to changing selective pressures as imposed by the immune system and shows that the effect of recombination depends on the immunodominance pattern of effector T cell responses