In modern drug discovery, molecular docking analysis is routinely used to understand and predict the interaction between a drug molecule and a target protein from a microbe. Drugs identified in this way may inhibit the entry and replication of pathogens in host cells. The SARS-CoV-2 associated coronavirus disease, COVID-19, has become the most contagious and deadly pandemic disease in the world today. In abeyance of any specific vaccine or therapeutic against SARS-CoV-2, the burgeoning situation urges a need for effective drugs to treat the virus-infected patients. Herbal medicines have been used as natural remedies for treating various infectious diseases since ancient times. The spike (S) protein of SARS-CoV-2 is important for the attachment and pathogenesis of the virus. Therefore, this study focused on the search of useful ligands for S protein among active constituents present in common herbs that could serve as efficient remedies for COVID-19. We analysed the binding efficiency of twelve compounds present in common herbs with the S protein of SARS-CoV-2 through molecular docking analysis and also results are validated with two different docking tools. The binding efficiency of ligands was scored based on their predicted pharmacological interactions coupled with binding energy estimates. In docking analysis, compound “I” (Epigallocatechin gallate (EGCG)) was found to have the highest binding affinity with the viral S protein, followed by compounds, “F” (Curcumin),“D” (Apigenin) and “E” (Chrysophanol). The present study corroborates that compound “I” (EGCG) mostly present in the integrants of green tea, shows the highest potentiality for acting as an inhibitor of SARS-CoV-2. Further, characterization of the amino acid residues comprising the viral binding site and the nature of the hydrogen bonding involved in the ligand-receptor interaction revealed significant findings with herbal compound “I” (EGCG) binding to the S protein at eight amino acid residues. The binding sites are situated near to the amino acids which are required for virus pathogenicity. The findings of the present study need in vivo experiments to prove the utility of “I”, “F”,“D” and “E” compounds and their further use in making herb-based anti-SARS-CoV-2 product in near future. This analysis may help to create a new ethno-drug formulation for preventing or curing the COVID-19.
During investigations into an outbreak of respiratory distress in broilers chicks, a small round virus was isolated following inoculation into chicken embryos. The isolate, designated 612, was identified as an enterovirus-like virus on the basis of its size and morphology, resistance to chloroform and to treatment at pH 3.0, and intracytoplasmic replication in cell culture. The virus produced a partial cytopathic effect following inoculation into chick embryo kidney cell cultures and viral antigens could be detected by immunostaining. The preferred culture method for 612 virus was by inoculation onto the CAM of chick embryos. Cross-immunofluorescence indicated that the virus is not antigenically related to five previously identified chicken enterovirus/enterovirus-like virus serogroups. Following experimental inoculation of 1-day-old male broilers a number of which had maternal antibody to 612, growth retardation ranging from 9.6 to 20.4% was detected. Serological studies demonstrated antibody to 612 virus was widespread in commercial chicken flocks in N. Ireland.
An epidemiological study was done to study leptospirosis in domestic animals. Sera samples collected from various farm animals (cattle- 331, goat-88, horses -9, dogs -10) from various parts of the country were examined by Microscopic agglutination test. A panel of 12 reference strains was used in the study. Out of the 438 samples, 27 samples showed agglutination for Leptospira antigens yielding an overall positivity of 6.16%. Study revealed that 6.34% cattle and 5.68% goat sera were positive for leptospiral antibodies. Javanica, hebdomadis and grippotyphosa were the common serovars against which antibodies could be detected. Only one clinically suspected dog sample was found to be positive for the serovar grippotyphosa. The equine samples screened were negative for leptospiral agglutinins. The seroepidemiology studies revealed decreasing trend of leptospirosis in northern states and Andaman Nicobar Islands in comparison to the previous years.
This study analyzed the determinants of morbidity, mortality, and case fatality rate (CFR) of the ongoing pandemic of severe acute respiratory syndrome coronavirus-2 disease 2019 (COVID-19). Data for 210 countries and territories available in public domains were analyzed in relation to mandatory vaccination with Bacille-Calmette-Guerin (BCG), population density, median age of the country population, health care expenditure per capita, life expectancy at birth, healthy life expectancy, literacy rate, per capita gross domestic production adjusted to purchasing power (PPP), burden of tuberculosis (TB), acquired immunodeficiency disease caused by human immunodeficiency virus (HIV-AIDS), malaria, cardiovascular disease (CVD), neoplasm, diabetes, deaths due to energy-protein (food) deficiency (EPD), and per capita government spending on safe water and sanitation. Mandatory BCG vaccination showed a highly significant (p<0.0001) negative correlation with COVID-19 morbidity (r = -0.62) and mortality (r = -0.58) rates, but no significant correlation with CFR. The median age of the nation showed a significant (p<0.0001) positive correlation with COVID-19 morbidity (r= 0.40) and mortality (r = 0.34) rates, but no significant correlation with CFR. The pandemic resulted in higher morbidity (r= 0.47, p<0.0001) and mortality (r= 0.25, p = 0.01) rates in countries with a higher PPP than in those with a lower PPP. COVID-19 CFR and morbidity and mortality rates showed no significant correlation with population density, the burden of malaria or diabetes, or the level of spending on safe water and sanitation. Only the burden of TB showed a positive correlation with CFR (r = 0.17, p = 0.05). However, COVID-19 morbidity showed a significant (p ≤0.05) negative correlation with the burden of TB, HIV-AIDS, CVD, and EPD. Mortality and morbidity in COVID-19 patients showed a positive correlation with per capita health expenditure, life expectancy, the burden of neoplasia, and PPP.
Ultrasonographic examination, owing to its wide array of functionality, has been proved to play an important role in clinical diagnostics. In a rapid evolving scientific arena where laboratory diagnostics clearly have a major role to avert any sort of maternal health complications due to fetus that may be the abnormal fetal development or mummified fetus, ultrasound has an edge over others. It may be due to its accuracy, precision, simpler techniques, handiness and portable nature. It has a major role in documentation of normal physiology as well as determining the pregnancy associated complications. It can also be employed specifically to demonstrate the physio-pathological changes in reproductive organs by accessing the changes in size, contour etc. In a nutshell, the ultrasound imaging is a potential tool for the theriogenologists and clinicians who encounter a large number of cases to alleviate the condition of the patients.
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