Your search keyword '"Rana VS"' showing total 82 results

1. Role of antihypertensive therapy in mild to moderate pregnancy-induced hypertension: a prospective randomized study comparing labetalol with alpha methyldopa.

Author

Molvi SN, Mir S, Rana VS, Jabeen F, and Malik AR

Published

2012

2. Uretero-uterine fistula : a case report.

Author

Kapoor, VK, primary, Mathur, VV, additional, and Rana, VS, additional

Published

1985

3. Borrelial phosphomannose isomerase as a cell surface localized protein that retains enzymatic activity and promotes host-pathogen interaction.

Author

Dutta S, Rana VS, Backstedt BT, Shakya AK, Kitsou C, Yas OB, Smith AA, Ronzetti MH, Lipman RM, Araujo-Aris S, Yang X, Rai G, Lin Y-P, Herzberg O, and Pal U

Abstract

All organisms produce an intracellular Zn 2+ -dependent enzyme, phosphomannose isomerase (PMI) or mannose-6 phosphate isomerase, that catalyzes the reversible conversion of mannose-6-phosphate and fructose-6-phosphate during sugar metabolism and polysaccharide biosynthesis. Unexpectedly, we discovered an additional PMI function in Borrelia burgdorferi , the pathogen of Lyme disease, where the enzyme is localized on the cell surface and binds to collagen IV-a host extracellular matrix component predominantly found in the skin. The AlphaFold 3-based structural model of B. burgdorferi PMI (BbPMI) retains the active site with tetrahedrally-coordinated Zn 2+ seen in other PMIs of known structure, residing in an elongated crevice. Ligand docking shows that the crevice can accommodate the tip trisaccharide moiety of a glycosylated asparagine residue on the collagen IV 7S domain. Low doses of a well-known PMI benzoisothiazolone inhibitor impair the growth of diverse strains of B. burgdorferi in culture, but not other tested Gram-negative or Gram-positive pathogens. Borrelia cells are even more susceptible to several other structurally related benzoisothiazolone analogs. The passive transfer of anti-BbPMI antibodies in ticks can impact spirochete transmission to mice, while the treatment of collagen IV-containing murine skin with PMI inhibitors impairs spirochete infectivity. Taken together, these results highlight a newly discovered role for BbPMI in mediating host-pathogen interactions during the spirochete infectivity process. In turn, this discovery offers an opportunity for the development of a novel therapeutic strategy to combat Lyme disease by preventing the BbPMI interaction with its host receptor, collagen IV., Importance: All organisms produce an intracellular enzyme, phosphomannose isomerase (PMI), that converts specific sugars during metabolism. Unexpectedly, we discovered an additional PMI function in Borrelia burgdorferi , the Lyme disease pathogen, where the enzyme is localized on the cell surface and binds to collagen IV-a host extracellular molecule mainly found in the skin. Low doses of PMI chemical inhibitors impair the growth of diverse strains of B. burgdorferi in culture, but not other tested bacterial pathogens. The passive transfer of anti-BbPMI antibodies in ticks can impact B. burgdorferi transmission to mice, while the treatment of collagen IV-containing murine skin with PMI inhibitors impairs infectivity. Taken together, these results highlight a newly discovered role for BbPMI in mediating host-pathogen interactions during infection. In turn, this discovery offers an opportunity for the development of a novel therapeutic strategy to combat Lyme disease by preventing BbPMI function and interaction with host collagen IV.

Published

2025

4. A Validated High-Performance Thin-Layer Chromatography Technique for Routine Analysis of Curcumin in Four Different Species of Curcuma Viz. C. amada, C. caesia, C. longa and C. zedoaria.

Author

Gangal A, Duseja M, Sethiya NK, Bisht D, Chaudhary SK, and Rana VS

Subjects

Chromatography, Thin Layer methods, Reproducibility of Results, Limit of Detection, Linear Models, Chromatography, High Pressure Liquid methods, Curcuma chemistry, Curcumin analysis, Curcumin chemistry, Plant Extracts chemistry, Plant Extracts analysis

Abstract

In this study, we investigated a new, simple, sensitive, selective and precise high-performance thin-layer chromatography (HPTLC) fingerprint and quantitative estimation method for the routine analysis of curcumin in Curcuma species viz. Curcuma amada, Curcuma caesia, Curcuma longa and Curcuma zedoaria. Linear ascending development was carried out in a twin-trough glass chamber saturated with toluene:acetic acid (4:1; v/v with 20 minutes of saturation). The plate was dried and analyzed by CAMAG TLC scanner III at white light and 366 nm. The system was found to give compact spots for curcumin (Rf 0.42). The relationship between the concentration of standard solutions and the peak response is linear within the concentration range of 10-70 ng/spot for curcumin. In result, curcumin was not detected in any of C. caesia extracts. The percentage of curcumin was found between 0.042 and 4.908 (%w/w) in different Curcuma species obtained by two different extraction methods viz. Soxhlet and sonication, respectively. Further, extraction via Soxhlet method is most suitable method to get higher curcumin content from rhizomes. The proposed HPTLC method may be use for routine quality testing and quantification of curcumin in Curcuma samples., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2025

5. Emergence of MDR Enterobacter hormaechei RSM5 in Pharma Effluent and its Implications in β-lactam Antibiotic Removal from Effluent.

Author

Srivastava S, Rana VS, and Singh R

Subjects

India, Ampicillin pharmacology, Enterobacter drug effects, Enterobacter metabolism, Enterobacter isolation & purification, Enterobacter genetics, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents metabolism, beta-Lactams pharmacology, beta-Lactams metabolism, Drug Resistance, Multiple, Bacterial, Microbial Sensitivity Tests, beta-Lactamases metabolism, beta-Lactamases genetics

Abstract

Antibiotic resistance poses the biggest threats to global health and development and also to food security. β-lactam antibiotics (BLAs) responsible for the transpeptidation/cross-linking process during cell wall biosynthesis contribute to the maximum resistance. The production of β-lactamase enzyme is a significant contributing factor to the development of antibiotic resistance to β-lactam antibiotics. Unintentional disposal of antibiotics from the manufacturing units of pharma industries to the water bodies enhances the exposure of antibiotics, contributing to resistance. This study describes the presence of > 50 antibiotic-resistant bacterial strains in pharma effluent of Himachal Pradesh, India. Among 54 isolates, 40% showed ampicillin resistance above 100 µg/mL, 13% showed resistance above 5000 µg/mL, and 3 strains showed resistance at 15,000 µg/mL of ampicillin. Enterobacter hormaechei RSM5 showed the highest minimum inhibitory concentration (MIC) and cell viability and was selected for further studies. It produces lactamase (0.24 U/mL) to resist the higher concentration of antibiotics present in the media/effluent and demonstrated resistance against 3 different classes of antibiotics, confirming its status as a multidrug resistance (MDR) strain. The high-performance liquid chromatography (HPLC) analysis of the isolate demonstrated that Enterobacter hormaechei RSM5 can degrade ampicillin within 24 h of incubation in medium/effluent. The emergence of Enterobacter as a pathogen with antibiotic resistance poses a significant health concern that could also be explored for the removal of antibiotics from the effluent at the source. The future of research in this area needs to be open and mindful of new approaches., Competing Interests: Declarations. Conflict of interests: The authors declare no conflict of interest. Ethical Approval: Not applicable. Consent to Participate: Not applicable. Consent to Publication: Not applicable., (© 2025. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2025

6. Borrelia burgdorferi radiosensitivity and Mn antioxidant content: antigenic preservation and pathobiology.

Author

Londoño AF, Sharma A, Sealy J, Rana VS, Foor SD, Matrosova VY, Gaidamakova EK, Volpe RP, Daly MJ, Hoffman BM, Pal U, and Dumler JS

Subjects

Animals, Gamma Rays, Electron Spin Resonance Spectroscopy, Lyme Disease microbiology, Lyme Disease immunology, Antigens, Bacterial immunology, Antigens, Bacterial genetics, Antigens, Bacterial metabolism, Mice, Borrelia burgdorferi immunology, Borrelia burgdorferi genetics, Borrelia burgdorferi radiation effects, Borrelia burgdorferi metabolism, Radiation Tolerance, Manganese metabolism, Antioxidants metabolism

Abstract

The bacterium responsible for Lyme disease, Borrelia burgdorferi , accumulates high levels of manganese without iron and possesses a polyploid genome, characteristics suggesting potential extreme resistance to radiation. Contrary to expectations, we report that wild-type B. burgdorferi B31 cells are radiosensitive, with a gamma-radiation survival limit for 10 6 wild-type cells of <1 kGy. Thus, we explored B. burgdorferi radiosensitivity through electron paramagnetic resonance (EPR) spectroscopy by quantitating the fraction of Mn 2+ present as antioxidant Mn 2+ metabolite complexes (H-Mn). The spirochetes displayed relatively low levels of H-Mn, in stark contrast to the extremely radiation-resistant Deinococcus radiodurans . The H-Mn content as revealed by EPR spectroscopy is sufficiently sensitive to detect small changes in radiosensitivity among B. burgdorferi strains. However, B. burgdorferi cells are significantly more sensitive than predicted by EPR, implicating their linear genome architecture as an additional explanation for radiosensitivity. We then explored the influence of the Mn 2+ -decapeptide-phosphate antioxidant complex MDP, known to shield proteins during irradiation, and showed that treatment with MDP preserves B. burgdorferi's epitopes at 5 kGy irradiation, which crucially prevents cell proliferation. This finding defines some of the pivotal mechanisms that B. burgdorferi evolved to survive oxidative conditions experienced with tick and mammal immune responses. These observations also provide an opportunity for innovative vaccine development strategies employing ionizing radiation to disrupt the B. burgdorferi genome, while maintaining antigenic potency. These fresh insights extend our understanding of the unique biology of B. burgdorferi and open new avenues for considering novel whole-cell Lyme disease vaccines using MDP and irradiation-based inactivation.IMPORTANCEThe study highlights that electron paramagnetic resonance (EPR) spectroscopy is sufficiently sensitive to detect small differences in radiation resistance among Borrelia burgdorferi strains based on their population of Mn 2+ -metabolite complexes (H-Mn). B. burgdorferi appears to have evolved a system not to protect from irradiation, but presumably to protect from oxidative stress when cyclically transmitted from tick to mammalian host and back. These data also suggest a path forward in the development of novel vaccines against spirochete infections, including Lyme disease, through preparation involving the synthetic Mn 2+ -decapeptide-phosphate antioxidant complex MDP to provide B. burgdorferi epitope protection during sterilizing gamma-irradiation that eliminates growth. Given the current lack of effective whole-cell vaccines for Lyme disease, this research identifies a potential strategy for developing alternative radiation-inactivated, yet highly effective vaccines., Competing Interests: The authors declare no conflict of interest.

Published

2025

7. Unleashing the bioactive potential of Capsicum chinense cv Bhut Jolokia: a comparison of microwave- and ultrasound-mediated extraction techniques for lipophilic capsaicin.

Author

Ksh V, Anand V, Rana VS, Mishra J, Kumar M, Upadhyay N, and Kaur C

Subjects

Rice Bran Oil chemistry, Solvents chemistry, Plant Extracts chemistry, Phenylpropionates chemistry, Phenylpropionates isolation & purification, Ultrasonic Waves, Ultrasonics, Capsaicin chemistry, Capsaicin analysis, Capsicum chemistry, Microwaves

Abstract

This study investigated the extraction of capsaicin from Capsicum chinense cv Bhut Jolokia using rice bran oil (RBO) as a 'green solvent' via microwave- and ultrasound-mediated techniques (MME and UME) as an alternative to hazardous organic solvents. Extraction conditions were optimised using MME at 180 and 300 W for 2 and 8 min and UME at 300 and 400 W for 10 and 30 min. The maximum capsaicin yield obtained was 12.47 mg/mL, with a corresponding gamma oryzanol content of 8.46 mg/mL. The peroxide value of the extract (capsaicin-infused RBO) was found to be within permissible limits as per Codex Alimentarius specifications. Results strongly suggest the potential of RBO as a novel solvent for extraction of capsaicin. The capsaicin-enriched oil can be used as a functional food ingredient due to its health-promoting properties.

Published

2025

8. Identification of potent phytochemicals against Magnaporthe oryzae through machine learning aided-virtual screening and molecular dynamics simulation approach.

Author

Murmu S, Aravinthkumar A, Singh MK, Sharma S, Das R, Jha GK, Prakash G, Rana VS, Kaushik P, and Farooqi MS

Subjects

Molecular Docking Simulation, Fungal Proteins chemistry, Fungal Proteins metabolism, Fungal Proteins antagonists & inhibitors, Plant Diseases microbiology, Ascomycota chemistry, Ascomycota metabolism, Ascomycota drug effects, Magnaporthe drug effects, Machine Learning, Phytochemicals chemistry, Phytochemicals pharmacology, Molecular Dynamics Simulation

Abstract

Magnaporthe oryzae stands as a notorious fungal pathogen responsible for causing devastating blast disease in cereals, leading to substantial reductions in grain production. Despite the usage of chemical fungicides to combat the pathogen, their effectiveness remains limited in controlling blast disease. Consequently, there exists a pressing need to discover a novel natural biofungicide for efficient blast disease management. To address this challenge, we combined machine learning-based bioactivity prediction with virtual screening, molecular docking, and molecular dynamics (MD) simulations to explore the molecular interactions between forty-eight plant-derived natural compounds and the effector protein, Avr-PikE, an avirulence protein from Magnaporthe oryzae. Among the evaluated phytochemicals, Calotropin, Lupeol, and Azadirachtin emerged as the top-ranking molecules based on their favourable affinity through molecular docking with the effector. MD simulations for 100 ns were conducted to ascertain the stability and reliability of these compounds. Through classical and steered MD simulations and free energy calculations, it was revealed that these selected compounds exhibit stable and favourable energies, thereby establishing strong binding interactions with Avr-PikE. These screened natural metabolites were also found to meet crucial criteria for fungicide-likeness. To support accessibility and broader applications, we also developed a bioactivity prediction app (http://login1.cabgrid.res.in:5260/), allowing users to predict bioactivity against fungi based on our model. The efficacy of one potent compound, Lupeol, was validated through in vitro experiments, confirming its significant antifungal activity against Magnaporthe oryzae. Such biofungicides hold promise for enhancing disease management strategies and mitigating the impact of blast disease on cereal crops., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2025 Elsevier Ltd. All rights reserved.)

Published

2025

9. Relevance of Indian Traditional Herbal Brews for Gut Microbiota Balance.

Author

Joshi DD, Deb L, Kaul K, Somkuwar BG, Rana VS, and Singh R

Abstract

The considerable changes in lifestyle patterns primarily affect the human gut microbiota and result in obesity, diabetes, dyslipidemia, renal complications, etc. though there are few traditional safeguards such as herbal brews to maintain the ecological stability under intestinal dysbiosis. The present article is designed to collect all the scientific facts in a place to decipher the role of the Indian traditional herbal brews used to balance gut health for centuries. Computerized databases, commercial search engines, research papers, articles, and books were used to search by using different keywords to select the most appropriate published articles from 2000 onward to September 2023. A total of 1907 articles were scrutinized, 46 articles were finally selected from the 254 screened, and targeted information was compiled. Interaction of herbal brews to the gut microflora and resulting metabolites act as prebiotics due to antimicrobial, anti-inflammatory, and antioxidant properties, and modulate the pH of the gut. The effect of brews on gut microbiota has a drastic impact on various gut-related diseases and has gained popularity as an alternative to antibiotics against bacteria, fungi, viruses, parasites, and boosting the immune system and strengthening the intestinal barrier. Berberine, kaempferol, piperine, and quercetin have been found in more than one brew discussed in the present article. Practically, these brews balance the gut microbiota, prevent chronic and degenerative diseases, and reduce organ inflammation, though, there is a knowledge gap on the molecular mechanism to explain their efficacy. Indian traditional herbal brews used to reboot and heal the gut microbiota since centuries-old practice with successful history without toxicity. The systematic consumption of these brews under specific dietary prescriptions has a hope of arrays for a healthy human gut microbiome in the present hasty lifestyle with overall health and well-being., Competing Interests: Conflict of interestThe authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2024.)

Published

2024

10. Aphidicidal activity of nano-emulsions of spearmint oil and carvone against Rhopalosiphum maidis and Sitobion avenae.

Author

Mondal PC, Salim R, Kumar V, Kaushik P, Shakil NA, Pankaj, and Rana VS

Subjects

Animals, Mentha chemistry, Plant Oils pharmacology, Plant Oils chemistry, Oils, Volatile pharmacology, Oils, Volatile chemistry, Cholinesterase Inhibitors pharmacology, Cholinesterase Inhibitors chemistry, Acetylcholinesterase metabolism, Aphids drug effects, Emulsions chemistry, Cyclohexane Monoterpenes pharmacology, Cyclohexane Monoterpenes chemistry, Insecticides pharmacology, Insecticides chemistry

Abstract

Different species of aphids, responsible for severe yield losses of cereal crops including wheat, (Triticum aestivum L.) are managed by insecticides, which are harmful to organisms and the environment under field conditions. Therefore, an environment friendly aphidicidal product of plant origin is required. Mentha spicata oil was found to be rich in carvone (81.88%), but the use of its oil and carvone in crop protection is lacking due to their volatility, poor solubility, and stability. A nanoformulaton not only solves these problems but also improve the efficacy and dose of the bioactive compounds. Thus, nano-emulsions of the oil and carvone prepared were characterized, and evaluated against Rhopalosiphum maidis (corn aphid) and Sitobion avenae (wheat aphid) The average droplet size of nano-emulsions of the oil and carvone was found to be 22.1 and 41.21 nm. Nano-emulsion of carvone exhibited higher aphid mortality (LC 50  = 0.87-1.94 mg/mL) at 24 h and acetylcholinesterase inhibitory activity (IC 50  = 0.07-3.83 mg/mL) compared to the nano-emulsion of the oil (LC 50  = 2.87-2.81 mg/mL; IC 50  = 1.66-5.34 mg/mL). The repellence index (RI) in nano-emulsion of essential oil was found to be higher (84.73 and 81.72%) at the highest concentration (0.05 µL/cm 2 ) than that of carvone (77.59 and 80.98%) for R. maidis and S. avenae. Further, in silico studies also revealed the favourable binding energy (- 6.6 to - 8.5 kcal/mol) of the main compounds in the oil with acetylcholinesterase, facilitated by hydrophobic interactions and hydrogen bonding. This study suggests that the nano-emulsions of the essential oil and carvone can be explored under field conditions to establish efficacy for their utilization as aphidicidal and repellent products against aphids. In the present study, aphidicial and repellent activities of its essential oil and carvone were reported for the first time against R.maidis and S.avenae., (© 2024. The Author(s).)

Published

2024

11. Novel indazolylchromones: synthesis, fungicidal evaluation, molecular docking and aquatic toxicity prediction.

Author

Kundu R, Shakil NA, Narayanan N, Kamil D, Rana VS, Tripathi KP, and Kaushik P

Abstract

Fungal diseases cause substantial loss to agricultural crops, affecting both quantities and quality. Although several methods are used for preventing disease incidence, fungicides remain crucial for higher yields and better quality. But in the past, the efficacy of several fungicides has decreased due to increased cases of fungicide resistant. In our pursuit of new effective fungicides, we synthesised a series of twenty 2-Indazol-1-yl-chromen-4-one derivatives (6a- 6t). The characterization of synthesized compounds was performed by several spectroscopic methods including Infrared, Nuclear Magnetic Resonance ( 1 H and 13 C) and HRMS. Out of 20 synthesised compounds, 19 (6b- 6t) were found to be novel. All synthesised indazolylchromones showed very good antifungal activity against Sclerotium rolfsii and Fusarium oxysporum . Among the tested compounds, 6t and 6f exhibited very good fungicidal activity against S. rolfsii with an ED 50 of 10.10 mg L -1 and 16.18 mg L -1 , respectively. In case of Fusarium oxysporum compound 6f displayed good' activity with an ED 50 value of 27.82 mg L -1 . Molecular docking study was done to predict the binding sites of most active compounds, 6t and 6f with Cytochrome P450 14alpha -sterol demethylase (CYP51) enzyme using molsoft software. The acute toxicity predictions the of synthesized compounds for fish (LC 50 ,96 Hr), daphnid (LC 50 , 48 Hr) and green algae (EC 50 , 96Hr) and the chronic toxicity predictions (ChV) were assessed using Ecological Structure Activity Relationship (ECOSAR) model. As per ECOSAR prediction, all the chemicals are inside AD and not missing predictions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Kundu, Shakil, Narayanan, Kamil, Rana, Tripathi and Kaushik.)

Published

2024

12. Synthesis, antifungal evaluation, two-dimensional quantitative structure-activity relationship and molecular docking studies of isoxazole derivatives as potential fungicides.

Author

Tripathi K, Kaushik P, Yadav DK, Kumar R, Misra SR, Godara R, Bashyal BM, Rana VS, Kumar R, Yadav J, and Shakil NA

Abstract

Background: Sheath blight and bakanae disease, prominent among emerging rice ailments, exert a profound impact on rice productivity, causing severe impediments to crop yield. Excessive use of older fungicides may lead to the development of resistance in the pathogen. Indeed, a pressing and immediate need exists for novel, low-toxicity and highly selective fungicides that can effectively combat resistant fungal strains., Results: A series of 20 isoxazole derivatives were synthesized using alkoxy/halo acetophenones and N,N-dimethylformamidedimethylacetal. These compounds were characterized by various spectroscopic techniques, namely 1 H nuclear magnetic resonance (NMR), 13 C NMR and liquid chromatography-high-resolution mass spectrometry, and were evaluated for their fungicidal activity against Rhizoctonia solani and Fusarium fujikuroi. Compound 5n (5-(2-chlorophenyl) isoxazole) exhibited highest activity (effective dose for 50% inhibition [ED 50 ] = 4.43 μg mL -1 ) against R. solani, while 5p (5-(2,4-dichloro-2-hydroxylphenyl) isoxazole) exhibited highest activity (ED 50  = 6.7 μg mL -1 ) against F. fujikuroi. Two-dimensional quantitative structural-activity relationship (QSAR) analysis, particularly multiple linear regression (MLR) (Model 1), highlighted chi6chain and DistTopo as the key descriptors influencing fungicidal activity. Molecular docking studies revealed the potential of these isoxazole derivatives as novel fungicides targeting sterol 14α-demethylase enzyme, suggesting their importance as crucial intermediates for the development of novel and effective fungicides., Conclusion: All test compounds were effective in inhibiting both fungi, according to the QSAR model, with various descriptors, such as structural, molecular shape analysis, electronic and thermodynamic, playing an important role. Molecular docking studies confirmed that these compounds can potentially replace commercially available fungicides and help control fungal pathogens in rice crops effectively. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

13. Green synthesis, structure-activity relationships, in silico molecular docking, and antifungal activities of novel prenylated chalcones.

Author

Godara R, Kaushik P, Tripathi K, Kumar R, Rana VS, Kumar R, Mandal A, Shanmugam V, Pankaj, and Shakil NA

Abstract

A series of 16 novel prenylated chalcones ( 5A-5P ) was synthesized by microwave-assisted green synthesis using 5-prenyloxy-2-hydroxyacetophenone and different benzaldehydes. Comparisons were also performed between the microwave and conventional methods in terms of the reaction times and yields of all compounds, where the reaction times in the microwave and conventional methods were 1-4 min and 12-48 h, respectively. The synthesized compounds were characterized using different spectroscopic techniques, including IR, 1 H-NMR, 13 C-NMR, and LC-HRMS. The antifungal activities of all compounds were evaluated against Sclerotium rolfsii and Fusarium oxysporum under in vitro conditions and were additionally supported by structure-activity relationship (SAR) and molecular docking studies. Out of the 16 compounds screened, 2'-hydroxy-4-benzyloxy-5'- O -prenylchalcone ( 5P ) showed the highest activity against both S. rolfsii and F. oxysporum , with ED 50 of 25.02 and 31.87 mg/L, respectively. The molecular docking studies of the prenylated chalcones within the active sites of the EF1 α and RPB2 gene sequences and FoCut5a sequence as the respective receptors for S. rolfsii and F. oxysporum revealed the importance of the compounds, where the binding energies of the docked molecules ranged from -38.3538 to -26.6837 kcal/mol for S. rolfsii and -43.400 to -23.839 kcal/mol for F. oxysporum . Additional docking parameters showed that these compounds formed stable complexes with the protein molecules., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Godara, Kaushik, Tripathi, Kumar, Rana, Kumar, Mandal, Shanmugam, Pankaj and Shakil.)

Published

2024

14. Appraisal of extended cane length and fruit thinning strategies on the performance of growth yield and quality of kiwifruit.

Author

Patiyal V, Rana VS, Rana N, Hashem A, Abd Allah EF, and Sharma S

Abstract

The kiwifruit has been identified as an enormous fruit for mid-hill horticulture due to its wider adaptability and diversification. The size and quality of kiwifruit were affected by its market. As a result, appropriate canopy management and orchard techniques are key components in its production. Pruning and hand thinning, especially in kiwifruit, have been observed to improve the size and quality of the fruit. Traditional pruning maintained shorter canes with 6-12 nodes and 4 fruits/shoots. However, this study extended cane length and retained loads of 20 nodes/cane and 6 fruits/shoot. Considering the above, a study was conducted to determine the effects of extended cane length and fruit thinning on kiwifruit growth, yield, and fruiting performance. Five pruning levels have been employed: 8, 10, 12, 14, and 16 nodes/cane; 4, 6, and 8 fruits/fruiting shoot. The result revealed that the pruning of up to 12 nodes/cane coupled with thinning up to 6 fruits/fruiting shoot resulted in maximum cane diameter, leaf area, leaf: fruit ratio, advancement in flower initiation, bud break percentage (86.79 %), real fertility index, fruit yield and a proportion of grade "A" fruits. The highest leaf chlorophyll content (67.50), flowers per floral shoot, and productivity were recorded with pruning up to 16 nodes/cane coupled with thinning up to 6 fruits/fruiting shoot. The physico-chemical parameters such as fruit weight, diameter, volume, TSS, TSS: acid ratio, total sugars, and C: N ratio of the leaf and shoot were also found to be highest with pruning up to 12 nodes/cane coupled with thinning up to 6 fruits/fruiting shoot. This treatment also gave the maximum net return on a per-hectare basis, hence it was found to be the most profitable for the farmers., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

15. Tick hemocytes have a pleiotropic role in microbial infection and arthropod fitness.

Author

Rolandelli A, Laukaitis-Yousey HJ, Bogale HN, Singh N, Samaddar S, O'Neal AJ, Ferraz CR, Butnaru M, Mameli E, Xia B, Mendes MT, Butler LR, Marnin L, Cabrera Paz FE, Valencia LM, Rana VS, Skerry C, Pal U, Mohr SE, Perrimon N, Serre D, and Pedra JHF

Subjects

Animals, Hemocytes, Arthropods, Ixodes microbiology, Borrelia burgdorferi physiology, Anaplasma phagocytophilum, Lyme Disease

Abstract

Uncovering the complexity of systems in non-model organisms is critical for understanding arthropod immunology. Prior efforts have mostly focused on Dipteran insects, which only account for a subset of existing arthropod species in nature. Here we use and develop advanced techniques to describe immune cells (hemocytes) from the clinically relevant tick Ixodes scapularis at a single-cell resolution. We observe molecular alterations in hemocytes upon feeding and infection with either the Lyme disease spirochete Borrelia burgdorferi or the rickettsial agent Anaplasma phagocytophilum. We reveal hemocyte clusters exhibiting defined signatures related to immunity, metabolism, and proliferation. Depletion of phagocytic hemocytes affects hemocytin and astakine levels, two I. scapularis hemocyte markers, impacting blood-feeding, molting behavior, and bacterial acquisition. Mechanistically, astakine alters hemocyte proliferation, whereas hemocytin affects the c-Jun N-terminal kinase (JNK) signaling pathway in I. scapularis. Altogether, we discover a role for tick hemocytes in immunophysiology and provide a valuable resource for comparative biology in arthropods., (© 2024. The Author(s).)

Published

2024

16. Polyubiquitin protein of Aedes aegypti as an interacting partner of dengue virus envelope protein.

Author

Yadav K, Saurav GK, Rana VS, Rawat N, Anjali, Jamwal R, Singh OP, Bandyopadhyay A, and Rajagopal R

Subjects

Humans, Female, Animals, Viral Envelope Proteins, Polyubiquitin, Mosquito Vectors, Dengue Virus genetics, Dengue veterinary, Aedes

Abstract

Dengue virus (DENV) is an arbovirus that comprises four antigenically different serotypes. Aedes aegypti (Diptera: Culicidae) acts as the principal vector for DENV transmission, and vector control is crucial for dengue fever epidemic management. To design effective vector control strategies, a comprehensive understanding of the insect vector and virus interaction is required. Female Ae. aegypti ingests DENV during the acquisition of a blood meal from an infected human. DENV enters the insect midgut, replicates inside it and reaches the salivary gland for transmitting DENV to healthy humans during the subsequent feeding cycles. DENV must interact with the proteins present in the midgut and salivary glands to gain entry and accomplish successful replication and transmission. Ae. aegypti midgut cDNA library was prepared, and yeast two-hybrid screening was performed against the envelope protein domain III (EDIII) protein of DENV-2. The polyubiquitin protein was selected from the various candidate proteins for subsequent analysis. Polyubiquitin gene was amplified, and the protein was purified in a heterologous expression system for in vitro interaction studies. In vitro pull-down assay presented a clear interaction between polyubiquitin protein and EDIII. To further confirm this interaction, a dot blot assay was employed, and polyubiquitin protein was found to interact with DENV particles. Our results enable us to suggest that polyubiquitin plays an important role in DENV infection within mosquitoes., (© 2023 Royal Entomological Society.)

Published

2024

17. Captivating actions of pomological crops waste as biosorbents for environmental remediation: a comprehensive review.

Author

Sharma S, Thakur V, Rana VS, Sharma U, Thakur S, Sharma S, Bhat SA, Kumar R, and Kumar A

Abstract

Water pollutants are an emerging environmental hurdle for crop production and human health risks. In recent decades, the removal of contaminants from water using a cutting-edge approach like biosorbents is a strategy that is both cost-efficient and sustainable. For instance, since biowaste from fruit crops implies the frequent occurrence of average annual waste, it is imperative to formulate strategic initiatives to mitigate this emerging problem while simultaneously recognizing the potential for reutilization and reintroduction of such waste into the industrial sector. Fruit crops such as peels, seeds, skins, branches and stalks can be altered into biosorbents for water treatment. Partially mitigating the adverse impacts of biowaste that estimate to incur costs of billions of dollars around the world would be achieved with this engineering application. This review provides a perspective on the existing literature and brings up-to-date information and findings in the field of pomological crop waste as biosorbents for environmental remediation. In this way, we review the detrimental impact of environmental contaminants on biological organisms and different types of fruit crop waste and their utilization for wastewater treatment, with special emphasis on the formulation of biowaste sorbents (removal efficiency is > 80%) and their application for capturing pollutants such as heavy metals, organic and inorganic dyes and oils. Besides, the newly invented techniques for the characterization of fruit-based biosorbents, the parametric evaluation of biosorbents and their comparison with other available biosorbents are discussed. This review will be helpful for remediating contaminants in wastewater and a panacea for practical engineering solutions., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

18. A systemic approach to identify non-abundant immunogenic proteins in Lyme disease pathogens.

Author

Yaş OB, Coleman AS, Lipman RM, Sharma K, Raghunandanan S, Alanazi F, Rana VS, Kitsou C, Yang X, and Pal U

Subjects

Mice, Animals, Antigens, Bacterial genetics, Bacterial Outer Membrane Proteins genetics, Lipoproteins genetics, Bacterial Vaccines genetics, Antigens, Surface genetics, Mammals, Lyme Disease diagnosis, Borrelia burgdorferi genetics

Abstract

Borrelia burgdorferi , the pathogen of Lyme disease, differentially produces many outer surface proteins (Osp), some of which represent the most abundant membrane proteins, such as OspA, OspB, and OspC. In cultured bacteria, these proteins can account for a substantial fraction of the total cellular or membrane proteins, posing challenges to the identification and analysis of non-abundant proteins, which could serve as novel pathogen detection markers or as vaccine candidates. Herein, we introduced serial mutations to remove these abundant Osps and generated a B. burgdorferi mutant deficient in OspA, OspB, and OspC in an infectious 297-isolate background, designated as Osp ABC - mutant. Compared to parental isolate, the mutant did not reflect growth defects in the cultured medium but showed differential mRNA expression of representative tested genes, in addition to gross changes in cellular and membrane protein profiles. The analysis of differentially detectable protein contents of the Osp ABC - mutant, as compared to the wild type, by two-dimensional gel electrophoresis followed by liquid chromatography-mass spectrometry, identified several spirochete proteins that are dominated by proteins of unknown functions, as well as membrane transporters, chaperons, and metabolic enzymes. We produced recombinant forms of two of these represented proteins, BBA34 and BB0238, and showed that these proteins are detectable during spirochete infection in the tick-borne murine model of Lyme borreliosis and thus serve as potential antigenic markers of the infection.IMPORTANCEThe present manuscript employed a systemic approach to identify non-abundant proteins in cultured Borrelia burgdorferi that are otherwise masked or hidden due to the overwhelming presence of abundant Osps like OspA, OspB, and OspC. As these Osps are either absent or transiently expressed in mammals, we performed a proof-of-concept study in which their removal allowed the analysis of otherwise less abundant antigens in OspABC-deficient mutants and identified several immunogenic proteins, including BBA34 and BB0238. These antigens could serve as novel vaccine candidates and/or genetic markers of Lyme borreliosis, promoting new research in the clinical diagnosis and prevention of Lyme disease., Competing Interests: The authors declare no conflict of interest.

Published

2024

19. A unique borrelial protein facilitates microbial immune evasion.

Author

Foor SD, Brangulis K, Shakya AK, Rana VS, Bista S, Kitsou C, Ronzetti M, Alreja AB, Linden SB, Altieri AS, Baljinnyam B, Akopjana I, Nelson DC, Simeonov A, Herzberg O, Caimano MJ, and Pal U

Subjects

Animals, Humans, Mice, Immune Evasion, Borrelia, Lyme Disease microbiology, Borrelia burgdorferi metabolism, Ticks microbiology, Ixodes microbiology

Abstract

Importance: Lyme disease is a major tick-borne infection caused by a bacterial pathogen called Borrelia burgdorferi , which is transmitted by ticks and affects hundreds of thousands of people every year. These bacterial pathogens are distinct from other genera of microbes because of their distinct features and ability to transmit a multi-system infection to a range of vertebrates, including humans. Progress in understanding the infection biology of Lyme disease, and thus advancements towards its prevention, are hindered by an incomplete understanding of the microbiology of B. burgdorferi , partly due to the occurrence of many unique borrelial proteins that are structurally unrelated to proteins of known functions yet are indispensable for pathogen survival. We herein report the use of diverse technologies to examine the structure and function of a unique B. burgdorferi protein, annotated as BB0238-an essential virulence determinant. We show that the protein is structurally organized into two distinct domains, is involved in multiplex protein-protein interactions, and facilitates tick-to-mouse pathogen transmission by aiding microbial evasion of early host cellular immunity. We believe that our findings will further enrich our understanding of the microbiology of B. burgdorferi, potentially impacting the future development of novel prevention strategies against a widespread tick-transmitted infection., Competing Interests: The authors declare no conflict of interest.

Published

2023

20. Factors contributing to flares of ulcerative colitis in North India- a case-control study.

Author

Rana VS, Mahajan G, Patil AN, Singh AK, Jearth V, Sekar A, Singh H, Saroch A, Dutta U, and Sharma V

Subjects

Humans, Male, Adult, Female, Case-Control Studies, Mesalamine therapeutic use, Anti-Bacterial Agents therapeutic use, Colitis, Ulcerative drug therapy, Inflammatory Bowel Diseases drug therapy, Colitis drug therapy

Abstract

Background: Ulcerative colitis is a relapsing and remitting disease that may be associated with flares. The causes of flares in the Indian setting are not well recognized., Methods: The present prospective case-control study was conducted at a single center in North India. Cases were defined as patients admitted for flare of ulcerative colitis, while controls were patients in remission enrolled from the outpatient department. The basis of the diagnosis of flare was a simple clinical colitis activity index (SCCAI) of ≥ 5 and endoscopic activity, while remission was based on SCCAI < 4 and a normal fecal calprotectin. A questionnaire evaluating recent infections, stress, drug intake (antibiotics, pain medication), adherence to therapy, and use of complementary and alternative therapy (CAM) was administered., Results: We included 84 patients (51 with flare and 33 in remission) with a median age of 38 years, of whom 47 (55.9%) were males. The two groups were similar for baseline parameters, including age (38, 23-50 and 38, 25.5-48.5 years), male gender (52.9% and 60.6%), extent of disease, extraintestinal manifestations (21.6% and 12.1%), use of 5-aminosalicylates (76.5% and 90.9%). The thiopurine use was lower in those having a flare (15.7% and 36.4%). Amongst the predictors of flare, the recent infections (39.2% and 30.3%), recent travel (31.4 and 27.3%), eating outside food (47.1% and 39.4%), consumption of milk products (88.2% and 75.8%), use of pain medication (43.1% and 33.3%) and recent stress (62.7% and 60.6%) were similar between cases and controls. The rates of antibiotic use (29.4% and 6.1%), lack of adherence (50.9% and 15.2%), and intake of CAM (70.6% and 33.3%) were higher in those with flare. Patients attributed a lack of adherence to the cost of therapy, presumed cure (due to lack of symptoms), and fear of adverse effects., Conclusion: Lack of adherence to inflammatory bowel disease therapies and recent CAM and antibiotic intake was higher in patients with flares of UC. The study makes ground for educational intervention(s) promoting knowledge and adherence to IBD therapies., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

21. Tick hemocytes have pleiotropic roles in microbial infection and arthropod fitness.

Author

Rolandelli A, Laukaitis-Yousey HJ, Bogale HN, Singh N, Samaddar S, O'Neal AJ, Ferraz CR, Butnaru M, Mameli E, Xia B, Mendes MT, Butler LR, Marnin L, Cabrera Paz FE, Valencia LM, Rana VS, Skerry C, Pal U, Mohr SE, Perrimon N, Serre D, and Pedra JHF

Abstract

Uncovering the complexity of systems in non-model organisms is critical for understanding arthropod immunology. Prior efforts have mostly focused on Dipteran insects, which only account for a subset of existing arthropod species in nature. Here, we describe immune cells or hemocytes from the clinically relevant tick Ixodes scapularis using bulk and single cell RNA sequencing combined with depletion via clodronate liposomes, RNA interference, Clustered Regularly Interspaced Short Palindromic Repeats activation (CRISPRa) and RNA-fluorescence in situ hybridization (FISH). We observe molecular alterations in hemocytes upon tick infestation of mammals and infection with either the Lyme disease spirochete Borrelia burgdorferi or the rickettsial agent Anaplasma phagocytophilum . We predict distinct hemocyte lineages and reveal clusters exhibiting defined signatures for immunity, metabolism, and proliferation during hematophagy. Furthermore, we perform a mechanistic characterization of two I. scapularis hemocyte markers: hemocytin and astakine . Depletion of phagocytic hemocytes affects hemocytin and astakine levels, which impacts blood feeding and molting behavior of ticks. Hemocytin specifically affects the c-Jun N-terminal kinase (JNK) signaling pathway, whereas astakine alters hemocyte proliferation in I. scapularis . Altogether, we uncover the heterogeneity and pleiotropic roles of hemocytes in ticks and provide a valuable resource for comparative biology in arthropods.

Published

2023

22. Potential use of barks of woody vascular plants in bone mending: A review.

Author

Joshi DD, Deb L, Somkuwar BG, and Rana VS

Abstract

The use of synthetic drugs to overcome bone ailments causes severe side effects, but the application of herbals is helpful in maintaining bone health and accelerating bone mending. Currently, there is no oral allopathic medicine to hasten bone healing, though folk and traditional practices have adopted herbal to fasten the recovery from bone ailments. Earliest recovery is a universally desired phenomenon, especially for elderly people where many more cases of traumatic injuries are common along the compromised body immunity. The computerized database search engines, such as Google Scholar, PubMed, ScienceDirect, Springer Link, etc., and textbooks were used to collect all relevant information about barks for bone mending activity published from 1990 onwards using certain keywords such as bark, folklore/ traditional bone healing practices, and phytopharmacology. The results obtained were compiled to make this review and related information is tabulated herewith. Traditional herbal bone healing exists in every society in the world. The plant barks of a few species (e.g., Ficus religiosa , Prunus cerasoides , Terminalia arjuna , etc.) have outstanding significance for bone healing because of their special chemical composition and novel properties to reduce swelling, pain, soreness, and speedy recovery of functions. Mostly bark extracts are rich in polyphenols, and minerals, represented with antioxidant, immunostimulatory, antibacterial properties, etc. There is a diversity of bark utilization for bone healing from different plant species, globally, of which only a few have been phytopharmacologically deciphered. Validated bark ingredients as medicine or food supplements are more useful due to the least side effects. Entrepreneurs have a scope to use bioactive obtained from plant barks that have not been scientifically screened till now. The research focused on the commercial application of plant barks as green medicine needs fingerprints of bioactive and clinically validated data including the concentration of biomarkers in the blood (IC 50 ) for reducing the healing period. Phytopharmacological screening of barks used in folk medicine and synthesizing the therapeutics at mega quantities in industries is an array of hopes for sustainable utilization of natural resources. The bio-stimulating knowledge of certain herbal ingredients will be helpful in the development of synergistic formulations for rapid bone mending., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 Published by Elsevier B.V. on behalf of King Saud University.)

Published

2023

23. Boosting the Biocontrol Efficacy of Bacillus amyloliquefaciens DSBA-11 through Physical and Chemical Mutagens to Control Bacterial Wilt Disease of Tomato Caused by Ralstonia solanacearum .

Author

Yadav DK, Devappa V, Kashyap AS, Kumar N, Rana VS, Sunita K, and Singh D

Abstract

Bacterial wilt disease of tomato ( Solanum lycopersicum L.), incited by Ralstonia solanacearum (Smith), is a serious agricultural problem in India. In this investigation, chemical mutagenic agents (NTG and HNO 2 treatment) and ultraviolet (UV) irradiation have been used to enhance the antagonistic property of Bacillus amyloliquefaciens DSBA-11 against R. solanacearum UTT-25 towards an effective management of tomato wilt disease. The investigation established the fact that maximum inhibition to R. solanacearum UTT-25 was exerted by the derivative strain MHNO 2 -20 treated with nitrous acid (HNO 2 ) and then by the derivative strain MNTG-21 treated with NTG. The exertion was significantly higher than that of the parent B. amyloliquefaciens DSBA-11. These two potential derivatives viz . MNTG-21, MHNO 2 -20 along with MUV-19, and a wild derivative strain of B. amyloliquefaciens i.e.,DSBA-11 were selected for GC/MS analysis. Through this analysis 18 major compounds were detected. Among the compounds thus detected, the compound 3-isobutyl hexahydropyrrolo (1,2), pyrazine-1,4-dione (4.67%) was at maximum proportion in the variant MHNO 2 -20 at higher retention time (RT) of 43.19 s. Bio-efficacy assessment observed a record of minimum intensity (9.28%) in wilt disease and the highest bio-control (88.75%) in derivative strain MHNO 2 -20-treated plants after 30 days of inoculation. The derivative strain MHNO 2 -20, developed by treating B. amyloliquefaciens with nitrous acid (HNO 2 ), was therefore found to have a higher bio-efficacy to control bacterial wilt disease of tomato under glasshouse conditions than a wild-type strain.

Published

2023

24. Differential effects of rhizobacteria from uninfected and infected tomato on Meloidogyne incognita under protected cultivation.

Author

Gowda MT, Prasanna R, Kundu A, Rana VS, Rao U, and Chawla G

Subjects

Animals, Antinematodal Agents pharmacology, Tylenchoidea microbiology, Solanum lycopersicum, Bacillus megaterium, Bacillus pumilus

Abstract

Intermingled uninfected and root-knot nematode-infected tomato plants are commonly observed under protected cultivation. To understand the role of rhizobacteria underlying the susceptibility to nematode infectivity in these tomato plants, 36 rhizobacteria (18 from each type) with morphologically distinct colony characteristics were isolated from the rhizosphere of uninfected and root-knot nematode-infected tomato plants. The in vitro nematicidal potential of rhizobacteria from the uninfected rhizosphere was significantly higher than that from the infested rhizosphere. The three most effective antagonists were identified as Microbacterium laevaniformans, Staphylococcus kloosii, Priestia aryabhattai from root-knot-nematode-infected tomato rhizosphere and Staphylococcus sciuri, Bacillus pumilus, and Priestia megaterium from the rhizosphere of uninfected tomato. Volatile organic compounds from these rhizobacteria were characterized. Except for S. kloosi, the soil drenching with other rhizobacteria significantly reduced juvenile penetration (>60%) in tomato roots. Furthermore, the application of a single or consortium of these rhizobacteria affected nematode reproduction in tomato. Four consortia of rhizobacteria (S. sciuri + B. pumilus + P. megaterium), (B. pumilus + P. megaterium), (S. sciuri + B. pumilus), and (S. sciuri + P. megaterium) from uninfested rhizosphere and two consortia (M. laevaniformans + P. aryabhattai), (M. laevaniformans + S. kloosii + P. aryabhattai) from infested rhizosphere (IRh) effectively reduced M. incognita reproduction and considerably enhanced plant growth and yield in tomato. The nematicidal efficacy, however, decreased when S. kloosii was applied in the consortium. These distinctive effects illustrate how the plant susceptibility to nematode infectivity is modulated under natural conditions., (© 2023 Wiley-VCH GmbH.)

Published

2023

25. Relevance of Indian traditional tisanes in the management of type 2 diabetes mellitus: A review.

Author

Joshi DD, Deb L, Somkuwar BG, and Rana VS

Abstract

Background: Tisanes are a potential source of phytochemicals to reduce disease risk conditions and are used to protect from non-communicable diseases, globally. A few tisanes have gained more popularity than others depending on their chemical composition based on the geographical origin of the used herb. Several Indian tisanes have been claimed to have traits beneficial to people with or at a high risk of type 2 diabetes mellitus. Under the concept, the literature was reviewed and compiled into a document to highlight the chemical uniqueness of popular Indian traditional tisanes to be more informative and potent as per modern medicine to overcome type 2 diabetes mellitus., Methods: An extensive literature survey was conducted using computerized database search engines, such as Google Scholar, PubMed, ScienceDirect, and EMBASE (Excerpta Medica database) for herbs that have been described for hyperglycemia, and involved reaction mechanism, in-vivo studies as well as clinical efficacies published since 2001 onwards using certain keywords. Compiled survey data used to make this review and all findings on Indian traditional antidiabetic tisanes are tabulated here., Results: Tisanes render oxidative stress, counter the damage by overexposure of free radicals to the body, affect enzymatic activities, enhance insulin secretion, etc. The active molecules of tisanes also act as anti-allergic, antibacterial, anti-inflammatory, antioxidant, antithrombotic, antiviral, antimutagenicity, anti-carcinogenicity, antiaging effects, etc. WHO also has a strategy to capitalize on the use of herbals to keep populations healthy through effective and affordable alternative means with robust quality assurance and strict adherence to the product specification., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2023 Published by Elsevier B.V. on behalf of King Saud University.)

Published

2023

26. Metabolomic profiling and its association with the bio-efficacy of Aspergillus niger strain against Fusarium wilt of guava.

Author

Gangaraj R, Kundu A, Rana VS, Das A, Chawla G, Prakash G, Debbarma R, Nagaraja A, Bainsla NK, Gupta NC, and Kamil D

Abstract

Bio-control agents are the best alternative to chemicals for the successful management of plant diseases. The fungus Aspergillus niger is known to produce diverse metabolites with antifungal activity, attracting researchers to exploit it as a bio-control agent for plant disease control. In the present study, 11 A. niger strains were isolated and screened for their antagonism against the guava wilt pathogen under in vitro and in planta conditions. Strains were identified morphologically and molecularly by sequencing the internal transcribed spacer (ITS), β-tubulin, and calmodulin genes. The strains were evaluated through dual culture, volatile, and non-volatile methods under an in vitro study. AN-11, AN-6, and AN-2 inhibited the test pathogen Fusarium oxysporum f. sp. psidii (FOP) at 67.16%, 64.01%, and 60.48%, respectively. An in planta study was conducted under greenhouse conditions with 6 months old air-layered guava plants (var. Allahabad Safeda) by pre- and post-inoculation of FOP. The AN-11 strain was found to be effective under both pre- and post-inoculation trials. Furthermore, gas chromatography-mass spectrometry (GC-MS) analysis was carried out to characterize the volatile compounds of the most potential strain, A. niger . The hexane soluble fraction showed the appearance of characteristic peaks of hexadecenoic acid methyl ester (4.41%), 10-octadecanoic acid methyl ester (3.79%), dodecane (3.21%), undecane (3.19%), gibepyrone A (0.15%), 3-methylundecane (0.36%), and citroflex A (0.38%). The ethyl acetate fraction of the bio-control fungi revealed the occurrence of major antifungal compounds, such as acetic acid ethyl ester (17.32%), benzopyron-4-ol (12.17%), 1,2,6-hexanetriol (7.16%), 2-propenoic acid ethanediyl ester (2.95%), 1-(3-ethyloxiranyl)-ethenone (0.98%), 6-acetyl-8-methoxy dimethyl chromene (0.96%), 4-hexyl-2,5-dihydro dioxo furan acetic acid (0.19%), and octadecanoic acid (1.11%). Furthermore, bio-control abilities could be due to hyper-parasitism, the production of secondary metabolites, and competition for sites and nutrients. Indeed, the results will enrich the existing knowledge of metabolomic information and support perspectives on the bio-control mechanism of A. niger ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Gangaraj, Kundu, Rana, Das, Chawla, Prakash, Debbarma, Nagaraja, Bainsla, Gupta and Kamil.)

Published

2023

27. Adsorption profile of anionic and cationic dyes through Fe 3 O 4 embedded oxidized Sterculia gum/Gelatin hybrid gel matrix.

Author

Rana VS and Sharma N

Subjects

Coloring Agents chemistry, Gelatin, Adsorption, Karaya Gum, Kinetics, Methylene Blue chemistry, Hydrogen-Ion Concentration, Sterculia, Water Pollutants, Chemical chemistry

Abstract

Hazardous effluents from textile industries being major contributors of water pollution and impose potential adverse effects on environment. In present study, Fe 3 O 4 embedded oxidized Sterculia gum/Gelatin hybrid matrix have been fabricated and evaluated for enrichment of methyl orange (MO) and methylene blue (MB). Newly synthesized matrix was characterized through powdered XRD, FTIR, FESEM, TEM and TGA. Integrated nanoparticles improved dye enrichment and facilitated removal of matrix from the aqueous solution under the influence of magnetic field. Influence of various reaction parameters viz.: contact time, adsorbent dose, initial dye concentration, temperature & pH of the adsorption medium on dye enrichment have been evaluated. Maximum adsorption (90 % and 88 % for MO and MB respectively) has been achieved. Langmuir, Freundlich and Tempkin adsorption isotherms have been evaluated. Experimental results validate well fitted Freundlich isotherm for MO and Temkin isotherm for MB. Adsorption kinetics has been analyzed through Pseudo first order, second order kinetic and intra particle diffusion models. Adsorption of both dyes was best explained via pseudo second order kinetic model. Negative value of Gibb's free energy change (-26.487 KJ mol -1 and - 24.262 KJ mol -1 ) for MB and MO at 303 K was an indication of spontaneity of the reaction., Competing Interests: Declaration of competing interest The authors declare that there is no conflict of interests regarding the publication this article. There is no financial assistance associated with this research work., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

28. Socio-administrative conservation and collection practices of the sacred Thal Kedar forest, Uttarakhand, India.

Author

Joshi DD, Rana VS, and Kharkwal H

Abstract

The long-lasting association of humans with the forest is directly linked to the livelihood of natives without cultures, traditions, and beliefs. A survey conducted for the phytodiversity of the sacred Thal Kedar forest, Uttarakhand, India, reveals it as a center of spiritual approach and controlled by moral values rather than regulatory norms for conservation and sustainable benefits. Detailed investigation via group discussions, key informant interviews, observation of participants, and secondary data collection deciphers that the sacred forest plays a potential role in the food and health of the people, both at the local and regional levels. In the present survey, we found that local people are effectively controlled and guided to use all resources through moral duty, beliefs, and worship rituals, an inherited practice for ecological protection, and honesty to the Deity. Forest tourism based on holy baths, a current social demand, has been emerging as a sustainable job for local youths but requires stringent parallel administrative supervision along the established social norms to avoid any materialistic mind deeds to the sacred forest. The impact of climate change and the shift of various species to higher elevations is a matter of advanced strategy to the policymakers to preserve the floristic diversity of the sacred Thal Kedar forest., Competing Interests: The authors declare no conflict of interest., (© 2023 Published by Elsevier Ltd.)

Published

2023

29. Mucin Protein of Aedes aegypti Interacts with Dengue Virus 2 and Influences Viral Infection.

Author

Yadav K, Rana VS, Anjali, Saurav GK, Rawat N, Kumar A, Sunil S, Singh OP, and Rajagopal R

Abstract

Dengue, caused by dengue virus (DENV), is the most prevalent vector-borne viral disease, posing a serious health concern to 2.5 billion people worldwide. DENV is primarily transmitted among humans by its mosquito vector Aedes aegypti; hence, the identification of a novel dengue virus receptor in mosquitoes is critical for the development of new anti-mosquito measures. In the current study, we have identified peptides which potentially interact with the surface of the virion particles and facilitate virus infection and movement during their life cycle in the mosquito vector. To identify these candidate proteins, we performed phage-display library screening against domain III of the envelope protein (EDIII), which plays an essential role during host cell receptor binding for viral entry. The mucin protein, which shared sequence similarity with the peptide identified in the screening, was cloned, expressed, and purified for in vitro interaction studies. Using in vitro pulldown and virus overlay protein-binding assay (VOPBA), we confirmed the positive interaction of mucin with purified EDIII and whole virion particles. Finally, blocking of mucin protein with anti-mucin antibodies partially reduced DENV titers in infected mosquitos. Moreover, mucin protein was found to be localized in the midgut of Ae. aegypti . IMPORTANCE Identification of interacting protein partners of DENV in the insect vector Aedes aegypti is crucial for designing vector control-based strategies and for understanding the molecular mechanism DENV uses to modulate the host, gain entry, and survive successfully. Similar proteins can be used in generating transmission-blocking vaccines.

Published

2023

30. Bio-Intensive Tactics for the Management of Invasive Fall Armyworm for Organic Maize Production.

Author

Keerthi MC, Suroshe SS, Doddachowdappa S, Shivakumara KT, Mahesha HS, Rana VS, Gupta A, Murukesan A, Casini R, Elansary HO, and Shakil NA

Abstract

Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) is an invasive pest native to the American continent. The present study focused on bio-intensive tactics like intercropping, using natural enemies, botanical insecticides and biopesticides for managing S. frugiperda for the organic production of maize in Indian conditions. A total of eight different parasitoids attacking the different stages of S. frugiperda viz., eggs and larvae were found in the study area. The total parasitism rate due to all the parasitoids ranged from 28.37 to 42.44%. The egg-larval parasitoid, Chelonus formosanus Sonan (Hymenoptera: Braconidae) was the dominant parasitoid (12.55%), followed by Chelonus nr. blackburni (Hymenoptera: Braconidae) (10.98%) and Coccygydium sp. (4.85%). About 36.58 percent of the egg masses collected was parasitized by egg parasitoids, among which Telenomus remus (Nixon) (Hymenoptera: Scelionidae) was the dominant parasitoid. The botanicals insecticides such as citronella and annona extract were most effective, resulting in 100% mortality of FAW larvae (168 h after treatment). The essential oil of garlic (100%) was found highly effective in inhibiting egg hatching, followed by geraniol (90.76%). The maize intercropped with lady's finger (okra) recorded significantly the lowest pest infestation and recorded higher grain yield (6.17 q/ha) than other intercropping systems and control (5.10 q/ha). The overall bioefficacy of commercial biopesticides against the larvae of S. frugiperda was in the following order azadirachtin > Metarhizium anisopliae (Metch.) Sorokin (Hypocreales: Clavicipitaceae) > Beauveria bassiana (Balsamo) Vuillemin (Hypocreales: Clavicipitaceae) at 168 h after treatment.

Published

2023

31. A high-quality Ixodes scapularis genome advances tick science.

Author

De S, Kingan SB, Kitsou C, Portik DM, Foor SD, Frederick JC, Rana VS, Paulat NS, Ray DA, Wang Y, Glenn TC, and Pal U

Subjects

Animals, Genome genetics, Bacteria genetics, Base Sequence, RNA, Ixodes genetics, Ixodes microbiology

Abstract

Ixodes spp. and related ticks transmit prevalent infections, although knowledge of their biology and development of anti-tick measures have been hindered by the lack of a high-quality genome. In the present study, we present the assembly of a 2.23-Gb Ixodes scapularis genome by sequencing two haplotypes within one individual, complemented by chromosome-level scaffolding and full-length RNA isoform sequencing, yielding a fully reannotated genome featuring thousands of new protein-coding genes and various RNA species. Analyses of the repetitive DNA identified transposable elements, whereas the examination of tick-associated bacterial sequences yielded an improved Rickettsia buchneri genome. We demonstrate how the Ixodes genome advances tick science by contributing to new annotations, gene models and epigenetic functions, expansion of gene families, development of in-depth proteome catalogs and deciphering of genetic variations in wild ticks. Overall, we report critical genetic resources and biological insights impacting our understanding of tick biology and future interventions against tick-transmitted infections., (© 2023. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2023

32. Dome1-JAK-STAT signaling between parasite and host integrates vector immunity and development.

Author

Rana VS, Kitsou C, Dutta S, Ronzetti MH, Zhang M, Bernard Q, Smith AA, Tomás-Cortázar J, Yang X, Wu MJ, Kepple O, Li W, Dwyer JE, Matias J, Baljinnyam B, Oliver JD, Rajeevan N, Pedra JHF, Narasimhan S, Wang Y, Munderloh U, Fikrig E, Simeonov A, Anguita J, and Pal U

Subjects

Animals, Interferon-gamma metabolism, Signal Transduction, Ixodes genetics, Ixodes immunology, Janus Kinases genetics, Janus Kinases metabolism, STAT Transcription Factors genetics, STAT Transcription Factors metabolism, Host-Parasite Interactions immunology, Receptors, Cytokine metabolism, Arachnid Vectors immunology

Abstract

Ancestral signaling pathways serve critical roles in metazoan development, physiology, and immunity. We report an evolutionary interspecies communication pathway involving a central Ixodes scapularis tick receptor termed Dome1, which acquired a mammalian cytokine receptor motif exhibiting high affinity for interferon-gamma (IFN-γ). Host-derived IFN-γ facilitates Dome1-mediated activation of the Ixodes JAK-STAT pathway. This accelerates tick blood meal acquisition and development while upregulating antimicrobial components. The Dome1-JAK-STAT pathway, which exists in most Ixodid tick genomes, regulates the regeneration and proliferation of gut cells-including stem cells-and dictates metamorphosis through the Hedgehog and Notch-Delta networks, ultimately affecting Ixodes vectorial competence. We highlight the evolutionary dependence of I. scapularis on mammalian hosts through cross-species signaling mechanisms that dually influence arthropod immunity and development.

Published

2023

33. An overview on therapeutic and medicinal potential of poly-hydroxy flavone viz. Heptamethoxyflavone, Kaempferitrin, Vitexin and Amentoflavone for management of Alzheimer's and Parkinson's diseases: a critical analysis on mechanistic insight.

Author

Varshney M, Kumar B, Rana VS, and Sethiya NK

Subjects

Humans, Parkinson Disease drug therapy, Alzheimer Disease drug therapy, Flavones pharmacology, Flavones therapeutic use, Neurodegenerative Diseases drug therapy

Abstract

Neurodegenerative disorders occur when nerve cells in the brain or peripheral nervous system partial or complete fail in their functions and sometimes even die due to some injuries or aging. Neurodegenerative disorders such as Alzheimer's Disease (AD) and Parkinson's Disease (PD), have been majorly resulted due to degeneration of neurons and neuroinflammation progressively. There are many similarities that correlates both AD and PD on a cellular and sub-cellular level. Therefore, a hope for therapeutic advancement for simultaneous upgradation in both the diseases are directly depending on the discovery of common mechanism at molecular and cellular level. Recent and past evidences from scientific literature supporting the efficacy of plants flavonoids in treatment and protection of both AD and PD. Further, dietary flavones, specially Heptamethoxyflavone, Kaempferitrin, Vitexin and Amentoflavone gains recently much more attention for producing many health beneficiary effects including neuroprotection. Despite of these evidence a detailed updated overview of neuroprotective effects against both AD and PD by Heptamethoxyflavone, Kaempferitrin, Vitexin and Amentoflavone are still missing. In this context several published studies were assessed by using various online electronic search engines/databases to meet the objective from 1981 to 2021 (Approx. 224). Therefore, present review was designed to deliver the detailed description on these flavones including therapeutic benefits in AD, PD and other CNS complications with critical analysis on underlying mechanisms.

Published

2023

34. Immune evasion strategies of major tick-transmitted bacterial pathogens.

Author

Rana VS, Kitsou C, Dumler JS, and Pal U

Subjects

Animals, Humans, Immune Evasion, Ixodes microbiology, Tick-Borne Diseases microbiology, Borrelia burgdorferi, Rickettsia

Abstract

Tick-transmitted bacterial pathogens thrive in enzootic infection cycles, colonizing disparate vertebrate and arthropod tissues, often establishing persistent infections. Therefore, the evolution of robust immune evasion strategies is central to their successful persistence or transmission between hosts. To survive in nature, these pathogens must counteract a broad range of microbicidal host responses that can be localized, tissue-specific, or systemic, including a mix of these responses at the host-vector interface. Herein, we review microbial immune evasion strategies focusing on Lyme disease spirochetes and rickettsial or tularemia agents as models for extracellular and intracellular tick-borne pathogens, respectively. A better understanding of these adaptive strategies could enrich our knowledge of the infection biology of relevant tick-borne diseases, contributing to the development of future preventions., Competing Interests: Declaration of interests The authors declare no conflict of interest., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

35. Effect of Organic Manures on Growth, Yield, Leaf Nutrient Uptake and Soil Properties of Kiwifruit ( Actinidia deliciosa Chev.) cv. Allison.

Author

Sharma S, Rana VS, Rana N, Sharma U, Gudeta K, Alharbi K, Ameen F, and Bhat SA

Abstract

In recent decades, organic kiwifruit farming has come up as a feasible method for high-quality kiwi production without using chemical fertilizers. The primary objective of this research was to investigate how the sole application of organic and the combined application of organic manures affected the growth, yields, and quality of Allison kiwifruit, as well as the soil's physicochemical characteristics. The field trial was conducted on cv. Allison to determine the efficacy of organic manures (OM) on growth, nutrient absorption, production and soil health. The experiment involved eight treatments, viz.: T 1 : 100% Dairy manure (DM); T 2 : 100% Vermicompost (VC); T 3 : 100% chicken manure (CM); T 4 : 50% DM + 50% CM; T 5 : 50% DM + 50% VC; T 6 : 50% CM + 50% VC; T 7 : DM + CM + VC in equal proportions; and T 8 : Recommended nutrients inorganic NPK + 40 kg DM. A randomized complete block design comprising three replicas was used in this investigation. The use of inorganic fertilizers (NPK) in combination with DM enhanced Spad Values Chlorophyll, fruit production, leaf number, leaf area, and stem diameter while also improving the soil's chemical characteristics. The flower initiation was recorded with DM and Vermicompost (50:50). Furthermore, when compared to inorganic fertilizer treatment, OM treatment significantly improved fruit quality by improving fruit chemical composition in terms of soluble solids contents and leaf nutrient status, as well as improving soil's physical properties with DM and Vermicompost (50:50). The study's outcome revealed that OM had a significant impact on flowering time, fruit SSC, leaf nutritional status, and soil physical characteristics. In comparison to organic treatments, recommended fertilizer dosages (NPK + DM) improved plant growth, fruit yield, and soil chemical characteristics., Competing Interests: The authors declare no conflict of interest.

Published

2022

36. Identification of a new phytotoxic compound from culture filtrates of an aggressive Rhizoctonia solani AG 1A isolate inducing sheath blight of rice.

Author

Dauda WP, Rana VS, and Shanmugam V

Subjects

Plant Diseases microbiology, Rhizoctonia, Necrosis, Oryza microbiology

Abstract

Phytotoxins produced by Rhizoctonia solani AG1-1A (Anastomosis Group 1 Subgroup 1A) play a significant role in developing sheath blight disease in rice. A phytotoxin in the partially purified ethyl acetate fraction from the culture filtrate of a highly aggressive R. solani (RIRS-K) isolate, with Indian Type Culture Collection (ITCC) number 7479, infecting rice that could incite necrotic symptoms characteristic of the fungus was identified. The role of the crude toxin in the pathogenicity and virulence of the fungal pathogen on rice was first established by artificial inoculation assay under controlled conditions. The crude ethyl acetate extract obtained from the culture filtrate of RIRS-K was first fractionated by column chromatography. Further purification of the bioactive fraction was carried out by using bioassay-guided fractionation, and a toxic fraction was obtained. The most bioactive fraction was analyzed by GC-MS analysis, and 3-butylpyridine (3-BP) was identified as a major compound in the active fraction by comparing its mass spectrum with NIST library and its standard. The purified bioactive fraction and standard (3-BP) toxicity was further validated and compared at 1000 ppm. The result showed that both the bioactive fraction and the 3-BP have caused necrosis, similar to the one incited by R. solani. This study showed that 3-BP is one of the major compounds responsible for the necrosis development in the rice plant during ShB disease and is a hitherto unexplored toxin of R. solani in rice., (© 2022 Wiley-VCH GmbH.)

Published

2022

37. Controlled Proteolysis of an Essential Virulence Determinant Dictates Infectivity of Lyme Disease Pathogens.

Author

Thakur M, Bista S, Foor SD, Dutta S, Yang X, Ronzetti M, Rana VS, Kitsou C, Linden SB, Altieri AS, Baljinnyam B, Nelson DC, Simeonov A, and Pal U

Subjects

Animals, Asparagine metabolism, Bacterial Proteins metabolism, Leucine metabolism, Mice, Peptide Hydrolases metabolism, Proteolysis, Virulence, Virulence Factors genetics, Virulence Factors metabolism, Borrelia burgdorferi, Lyme Disease metabolism

Abstract

The Borrelia burgdorferi BB0323 protein undergoes a complex yet poorly defined proteolytic maturation event that generates N-terminal and C-terminal proteins with essential functions in cell growth and infection. Here, we report that a borrelial protease, B. burgdorferi high temperature requirement A protease (BbHtrA), cleaves BB0323 between asparagine (N) and leucine (L) at positions 236 and 237, while the replacement of these residues with alanine in the mutant protein prevents its cleavage, despite preserving its normal secondary structure. The N-terminal BB0323 protein binds BbHtrA, but its cleavage site mutant displays deficiency in such interaction. An isogenic borrelial mutant with NL-to-AA substitution in BB0323 (referred to as Bb bb0323NL ) maintains normal growth yet is impaired for infection of mice or transmission from infected ticks. Notably, the BB0323 protein is still processed in Bb bb0323NL , albeit with lower levels of mature N-terminal BB0323 protein and multiple aberrantly processed polypeptides, which could result from nonspecific cleavages at other asparagine and leucine residues in the protein. The lack of infectivity of Bb bb0323NL is likely due to the impaired abundance or stoichiometry of a protein complex involving BB0238, another spirochete protein. Together, these studies highlight that a precise proteolytic event and a particular protein-protein interaction, involving multiple borrelial virulence determinants, are mutually inclusive and interconnected, playing essential roles in the infectivity of Lyme disease pathogens.

Published

2022

38. Current Research Trends and Prospects for Yield and Quality Improvement in Sesame, an Important Oilseed Crop.

Author

Yadav R, Kalia S, Rangan P, Pradheep K, Rao GP, Kaur V, Pandey R, Rai V, Vasimalla CC, Langyan S, Sharma S, Thangavel B, Rana VS, Vishwakarma H, Shah A, Saxena A, Kumar A, Singh K, and Siddique KHM

Abstract

Climate change is shifting agricultural production, which could impact the economic and cultural contexts of the oilseed industry, including sesame. Environmental threats (biotic and abiotic stresses) affect sesame production and thus yield (especially oil content). However, few studies have investigated the genetic enhancement, quality improvement, or the underlying mechanisms of stress tolerance in sesame. This study reveals the challenges faced by farmers/researchers growing sesame crops and the potential genetic and genomic resources for addressing the threats, including: (1) developing sesame varieties that tolerate phyllody, root rot disease, and waterlogging; (2) investigating beneficial agro-morphological traits, such as determinate growth, prostrate habit, and delayed response to seed shattering; (3) using wild relatives of sesame for wide hybridization; and (4) advancing existing strategies to maintain sesame production under changing climatic conditions. Future research programs need to add technologies and develop the best research strategies for economic and sustainable development., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Yadav, Kalia, Rangan, Pradheep, Rao, Kaur, Pandey, Rai, Vasimalla, Langyan, Sharma, Thangavel, Rana, Vishwakarma, Shah, Saxena, Kumar, Singh and Siddique.)

Published

2022

39. Revisiting liquorice ( Glycyrrhiza glabra L.) as anti-inflammatory, antivirals and immunomodulators: Potential pharmacological applications with mechanistic insight.

Author

Bisht D, Rashid M, Arya RKK, Kumar D, Chaudhary SK, Rana VS, and Sethiya NK

Abstract

Background: Glycyrrhiza glabra L. ( G. glabra ) commonly known as liquorice is one of the highly exploited and utilized medicinal plant of the world. Since ancient times liquorice is considered as an auspicious and valuable traditional medicine across the world for treatment of various ailments., Method: Several electronic online scientific databases such as Science Direct, PubMed, Scopus, Scifinder, Google Scholar, online books and reports were assessed for collecting information. All the collected information was classified into different sections to meet the objective of the paper., Results: The electronic database search yielded 3908 articles from different countries. Out of them one ninety-eight articles published between 1956 and 2021 were included, corresponding to all detailed review on G. glabra and research on anti-inflammatories, antivirals and immunomodulatory through pre-clinical and clinical models. From all selective area of studies on G. glabra and its bioactive components it was established (including molecular mechanisms) as a suitable remedy as per the current requirement of pandemic situation arise through respiratory tract infection., Conclusion: Different relevant studies have been thoroughly reviewed to gain an insight on utility of liquorice and its bioactive constituents for anti-inflammatories, antivirals and immunomodulatory effects with special emphasized for prevention and treatment of COVID-19 infection with possible mechanism of action at molecular level. Proposed directions for future research are also outlined to encourage researchers to find out various mechanistic targets and useful value added products of liquorice in future investigations., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors.)

Published

2022

40. Bioefficacy evaluation of ferrocenyl chalcones against Meloidogyne incognita and Sclerotium rolfsii infestation in tomato.

Author

Yadav DK, Kaushik P, Tripathi KP, Rana VS, Yeasin M, Kamil D, Pankaj, Khatri D, and Shakil NA

Subjects

Animals, Basidiomycota, Soil, Chalcones, Solanum lycopersicum, Tylenchoidea

Abstract

The present study reports, bioefficacy evaluation of effective compounds against Meloidogyne incognita and Sclerotium rolfsii in pot cultured tomato. The identified five most effective compounds, i.e. (2 E )-1-(4-Methylphenyl)-3-ferrocenyl-prop-2-en-1-one ( 6g ), (2 E )-1-(4-Methoxyphenyl)-3-ferrocenyl-prop-2-en-1-one ( 6h ), (2 E )-1-(3-Bromophenyl)-3-ferrocenyl-prop-2-en-1-one ( 6j ), (2 E )-1-(2,4-Dichlorophenyl)-3-ferrocenyl-prop-2-en-1-one ( 6k ) and (2 E )-1-(3,5-Dichloro-2-hydroxyphenyl)-3-ferrocenyl-prop-2-en-1-one ( 6p ) along with Carbofuran 3G as positive control were tested at 20, 40 and 80 ppm by soil drenching and root dipping methods. The study revealed that all plant growth parameters were positively influenced by these compounds. The presence of an electron releasing group positively influenced the efficacy, and the activity was highest in compounds 6g and 6h at 80 ppm. Based on in vitro results against S. rolfsii , (2 E )-1-Ferrocenyl-3-(4-bromophenyl)-prop-2-en-1-one ( 3b ), (2 E )-1-Ferrocenyl-3-(2,6-dichlorophenyl)-prop-2-en-1-one ( 3o ) and (2 E )-1-(5-Chloro-2-hydroxyphenyl)-3-ferrocenyl-prop-2-en-1-one ( 6o ) along with Tebuconazole 25.9% EC and Hexaconazole 5% SC as positive control were evaluated. The shoot length was found to be highest (24.50 cm) in plants treated with 3b followed by 3o and 6o at 1000 ppm. The percent disease incidence was significantly decreased as compared to control. The percent disease incidence was found to be minimum in plants treated with 3b at 1000 ppm. However, root dipping was not as effective as soil drenching. Therefore, ferrocenyl chalcone derivatives proved to be of great fungicidal and nematicidal potential opening new opportunities for expanding their effectiveness as new pest control agents.

Published

2022

41. Parthenin-A Sesquiterpene Lactone with Multifaceted Biological Activities: Insights and Prospects.

Author

Kaur A, Kaur S, Jandrotia R, Singh HP, Batish DR, Kohli RK, Rana VS, and Shakil NA

Subjects

Asteraceae metabolism, Sesquiterpenes chemistry, Sesquiterpenes metabolism, Asteraceae chemistry, Sesquiterpenes pharmacology

Abstract

Parthenin, a sesquiterpene lactone of pseudoguaianolide type, is the representative secondary metabolite of the tropical weed Parthenium hysterophorus (Asteraceae). It accounts for a multitude of biological activities, including toxicity, allergenicity, allelopathy, and pharmacological aspects of the plant. Thus far, parthenin and its derivatives have been tested for chemotherapeutic abilities, medicinal properties, and herbicidal/pesticidal activities. However, due to the lack of toxicity-bioactivity relationship studies, the versatile properties of parthenin are relatively less utilised. The possibility of exploiting parthenin in different scientific fields (e.g., chemistry, medicine, and agriculture) makes it a subject of analytical discussion. The present review highlights the multifaceted uses of parthenin, on-going research, constraints in the practical applicability, and the possible workarounds for its successful utilisation. The main aim of this comprehensive discussion is to bring parthenin to the attention of researchers, pharmacologists, natural product chemists, and chemical biologists and to open the door for its multidimensional applications.

Published

2021

42. Synthesis, Biological Evaluation, and QSAR Studies of 3-Iodochromone Derivatives as Potential Fungicides.

Author

Kaushik P, Shakil NA, and Rana VS

Abstract

Despite the emergence of novel biotechnological and biological solutions, agrochemicals continue to play an important role in crop protection. Fungicide resistance is becoming a major problem; numerous cases of fungicide resistance have occurred worldwide in the last decade, resulting in the loss of several fungicides. The discovery of new molecules has therefore assumed critical importance in crop protection. In our quest for biologically active molecules, we herein report the synthesis of a series of twenty-one 3-Iodochromone derivatives (4a-4u), in a two-step process by condensation of 2-hydroxyacetophenone derivatives (2a-2u) with N , N -dimethylformamidedimethylacetal yielding enaminones (3a-3u), followed by cyclization with iodine to corresponding 3-iodochromones. Characterization of these compounds was done by IR, 1 H NMR, 13 C NMR, and LC-HRMS techniques. All synthesized compounds were screened for their fungicidal activity against Sclerotium rolfsii . Among these 6,8-Dichloro-3-iodochromone 4r was found to be most active (ED 50 = 8.43 mg L -1 ). 2D-Quantitative Structural Activity Relationship (2D-QSAR) analysis was also performed by generating three different models viz ., Multiple Linear Regression (MLR, Model 1), Principal Component Regression (PCR, Model 2), and Partial Least Squares (PLS, Model 3). Predictive power and statistical significance of these models were assessed with external and internal validation and leave one-out cross-validation was used for verification. In QSAR study, MLR (Model 1) was found to be best having correlation coefficient (r 2 ) 0.943, cross-validated correlation coefficient (q 2 ) 0.911 and r 2 pred 0.837. It was observed that DeltaEpsilonC, T&#95;2&#95;Cl&#95;6, T&#95;2&#95;F&#95;6, T&#95;T&#95;F&#95;3, and ZCompDipole are the major descriptors which influence the fungicidal activity of 3-Iodochromone derivatives. The physicochemical parameters were estimated by the VLifeMDS 4.6 software. The QSAR study results will be helpful for structure optimization to improve the activity., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Kaushik, Shakil and Rana.)

Published

2021

43. Antibodies against EGF-like domains in Ixodes scapularis BM86 orthologs impact tick feeding and survival of Borrelia burgdorferi.

Author

Koči J, Bista S, Chirania P, Yang X, Kitsou C, Rana VS, Yas OB, Sonenshine DE, and Pal U

Subjects

Animals, Mice, Antibodies immunology, Arthropod Proteins immunology, Borrelia burgdorferi immunology, Feeding Behavior, Ixodes immunology, Lyme Disease immunology

Abstract

Ixodes scapularis ticks transmit multiple pathogens, including Borrelia burgdorferi sensu stricto, and encode many proteins harboring epidermal growth factor (EGF)-like domains. We show that I. scapularis produces multiple orthologs for Bm86, a widely studied tick gut protein considered as a target of an anti-tick vaccine, herein termed as Is86. We show that Is86 antigens feature at least three identifiable regions harboring EGF-like domains (termed as EGF-1, EGF-2, and EGF-3) and are differentially upregulated during B. burgdorferi infection. Although the RNA interference-mediated knockdown of Is86 genes did not show any influences on tick engorgement or B. burgdorferi sensu stricto persistence, the immunization of murine hosts with specific recombinant EGF antigens marginally reduced spirochete loads in the skin, in addition to affecting tick blood meal engorgement and molting. However, given the borderline impact of EGF immunization on tick engorgement and pathogen survival in the vector, it is unlikely that these antigens, at least in their current forms, could be developed as potential vaccines. Further investigations of the biological significance of Is86 (and other tick antigens) would enrich our knowledge of the intricate biology of ticks, including their interactions with resident pathogens, and contribute to the development of anti-tick measures to combat tick-borne illnesses.

Published

2021

44. A novel tick protein supports integrity of gut peritrophic matrix impacting existence of gut microbiome and Lyme disease pathogens.

Author

Yang X, Koči J, Smith AA, Zhuang X, Sharma K, Dutta S, Rana VS, Kitsou C, Yas OB, Mongodin EF, and Pal U

Subjects

Animals, Borrelia burgdorferi pathogenicity, Carrier Proteins metabolism, Chitin metabolism, DNA, Bacterial, Female, Gene Knockdown Techniques, Intestinal Mucosa microbiology, Mice, Mice, Inbred C3H, Protein Binding, RNA Interference, RNA, Ribosomal, 16S, Arthropod Proteins metabolism, Borrelia burgdorferi physiology, Gastrointestinal Microbiome, Host-Pathogen Interactions, Ixodes metabolism, Ixodes microbiology, Lyme Disease microbiology

Abstract

The peritrophic matrix (PM) is an acellular membrane that covers the gut epithelium in arthropods and physically separates it from the lumen. The structure is thought to play an important role in tick biology. The PM is also known to impact the persistence of tick-borne pathogens like Borrelia burgdorferi, although limited information is available about its molecular constituents or their biological significance. Herein, we characterise a novel PM-associated gut protein in Ixodes scapularis ticks, annotated as Peritrophic Membrane Chitin Binding Protein (PM&#95;CBP), for its role in the integrity and function of the matrix. The PM&#95;CBP displays homology to the chitin deacetylase metalloenzyme, shows upregulation during tick feeding, and is localized at the luminal surface of the gut epithelium. The structural integrity of the PM was impaired both by the knock down of PM&#95;CBP expression via RNA interference and by treatment with anti-PM&#95;CBP antibodies, as revealed by its electron microscopic appearance. Additionally, the duration of tick engorgement on mice and the passage of experimentally-inoculated fluorescent dextran molecules across the PM are affected by the knock down of PM&#95;CBP expression. The transfer of anti-PM&#95;CBP antibodies into the tick gut impacted the overall composition of the resident microbiome, and also influenced B. burgdorferi acquisition in ticks and its transmission to mice. Taken together, these data highlight the biological significance of the Ixodes PM and suggest that the targeting of its molecular constituents may contribute to the development of novel interventions against tick-borne infections., (© 2020 John Wiley & Sons Ltd.)

Published

2021

45. Microwave assisted synthesis, characterization and biological activities of ferrocenyl chalcones and their QSAR analysis: Part II.

Author

Yadav DK, Tripathi KP, Kaushik P, Pankaj, Rana VS, Kamil D, Khatri D, and Shakil NA

Subjects

Alternaria drug effects, Animals, Antifungal Agents chemical synthesis, Antifungal Agents chemistry, Antifungal Agents pharmacology, Antinematodal Agents chemical synthesis, Antinematodal Agents chemistry, Antinematodal Agents pharmacology, Basidiomycota drug effects, Chalcones chemical synthesis, Ferrous Compounds chemistry, Quantitative Structure-Activity Relationship, Tylenchoidea drug effects, Chalcones chemistry, Chalcones pharmacology, Microwaves

Abstract

A series of ferrocenyl chalcones using acetylferrocene, with ferrocenyl group at the keto carbonyl group, and different aldehydes were synthesized and their bioefficacy evaluation was done against Sclerotium rolfsii , Alternaria solani and Meloidogyne incognita. In continuation of our quest for potent crop protection products, in the present study, a series of 18 substituted ferrocenyl chalcones were synthesized in which ferrocenyl group was attached to the aldehyde moiety, using ferrocenecarboxyaldehyde and different acetophenones by microwave method (MM) and conventional method (CM) [ cf : MM 1 to 5 min; CM 12-40 h] and characterized by various techniques viz. IR, LC-HRMS, 1 H-NMR and 13 C-NMR. In vitro fungicidal activity showed that compound, (2 E )-1-(5-Chloro-2-hydroxyphenyl)-3-ferrocenyl-prop-2-en-1-one ( 34) (ED 50 = 21.50 mg L -1 ) was found to be most active against S. rolfsii and compound, (2 E )-1-(4-Bromophenyl)-3-ferrocenyl-prop-2-en-1-one ( 21) (ED 50 = 31.14 mg L -1 ) showed highest activity against A. solani. As regards nematicidal activity, compound (2 E )-1-(3-Bromophenyl)-3-ferrocenyl-prop-2-en-1-one ( 29) was more potent with LC 50 values of 11.95, 8.07 and 4.34 mg L -1 at 24, 48 and 72 h, respectively. QSAR study revealed that MLR for S. rolfsii ( r 2 = 0.9834, q 2 = 0.8975) and A. solani ( r 2 = 0.9807, q 2 = 0.8713) and PLS for M. incognita ( r 2 = 0.9023, q 2 = 0.7818) were the best models.

Published

2021

46. Bioefficacy evaluation of chalcone derivatives against Meloidogyne graminicola infecting rice, Oryza sativa L.

Author

Pankaj, Rana VS, Kaushik P, Kumar H, Devaraja KP, Gowda A, and Shakil NA

Subjects

Animals, Plant Diseases, Chalcone, Chalcones, Oryza, Tylenchoidea

Abstract

A series of chalcones ( 1-14 ) were synthesized, characterized (using IR and 1H NMR techniques), and evaluated with an objective to manage rice root-knot nematode (RRKN) ( Meloidogyne graminicola ) both under pluronic gel and field conditions. Out of these fourteen compounds, 1-(4-fluoro-phenyl)-3-phenyl-propenone ( 13 ) and 1,3-diphenyl-propenone ( 14 ) showed promising and dose dependent activity at 10, 20, and 40 mg L -1 . A significant reduction in penetration of second stage juveniles (J 2 s) in rice roots was observed in compounds 13 (9.5-12.0 J 2 s/plant) and 14 (10.5-13.4 J 2 s/plant) compared to control plants (PB1121) (13.5-23.6 J 2 s/plant) in pluronic gel study. The results of field trials indicated that 14 , showed significantly ( P  ≤ 0.05) better plant growth on 28 days after sowing (DAS) compared to 13 . Both 13 and 14 reduced gall formation significantly than carbofuran 3 G @1 kg a.i./ha. However, lower concentrations were less effective in field in reducing the gall formation. Also, a significant reduction in the number of galls was observed when soil was drenched with 14 @ 40 mg L -1 . However, root dipping was not as effective as soil drenching. The study revealed that both the chalcones have the potential for effective management of RRKN in fields, and can be a better alternative to carbofuran.

Published

2021

47. Aedes aegypti lachesin protein binds to the domain III of envelop protein of Dengue virus-2 and inhibits viral replication.

Author

Rana VS, Popli S, Saurav GK, Yadav K, Kumar A, Sunil S, Kumar N, Singh OP, Natarajan K, and Rajagopal R

Subjects

Animals, Dengue virology, Female, Immunoglobulins chemistry, Mosquito Vectors virology, Quaternary Ammonium Compounds chemistry, Salivary Glands metabolism, Salivary Glands virology, Viral Envelope Proteins, Aedes metabolism, Aedes virology, Dengue Virus physiology, Quaternary Ammonium Compounds metabolism, Virus Replication physiology

Abstract

Dengue virus (DENV) comprises of four serotypes (DENV-1 to -4) and is medically one of the most important arboviruses (arthropod-borne virus). DENV infection is a major human health burden and is transmitted between humans by the insect vector, Aedes aegypti. Ae. aegypti ingests DENV while feeding on infected humans, which traverses through its gut, haemolymph and salivary glands of the mosquito before being injected into a healthy human. During this process of transmission, DENV must interact with many proteins of the insect vector, which are important for its successful transmission. Our study focused on the identification and characterisation of interacting protein partners in Ae. aegypti to DENV. Since domain III (DIII) of envelope protein (E) is exposed on the virion surface and is involved in virus entry into various cells, we performed phage display library screening against domain III of the envelope protein (EDIII) of DENV-2. A peptide sequence showing similarity to lachesin protein was found interacting with EDIII. The lachesin protein was cloned, heterologously expressed, purified and used for in vitro interaction studies. Lachesin protein interacted with EDIII and also with DENV. Further, lachesin protein was localised in neuronal cells of different organs of Ae. aegypti by confocal microscopy. Blocking of lachesin protein in Ae. aegypti with anti-lachesin antibody resulted in a significant reduction in DENV replication., (© 2020 John Wiley & Sons Ltd.)

Published

2020

48. Amphiphilic polymer based nanoformulations of mancozeb for management of early blight in tomato.

Author

Majumder S, Kaushik P, Rana VS, Sinha P, and Shakil NA

Subjects

Alternaria drug effects, Alternaria pathogenicity, Fungicides, Industrial chemistry, Plant Diseases microbiology, Plant Leaves microbiology, Polyethylene Glycols chemistry, Polymers chemistry, Fungicides, Industrial pharmacology, Solanum lycopersicum microbiology, Maneb chemistry, Maneb pharmacology, Nanostructures chemistry, Zineb chemistry, Zineb pharmacology

Abstract

Controlled release (CR) nanoformulations of Mancozeb (Manganese-zinc double salt of N, N -bisdithiocarbamic acid), a protective fungicide, have been developed using poly (ethylene glycols) (PEGs) based functionalized amphiphilic copolymers and evaluated for the management of early blight in tomato. During the field experiment, it was observed that number of infected leaflets/plants were less in developed formulation treated plants as compared to commercial products. Number of infected leaflets per plant was 2.40-4.60 and the number of fruits per plant were 6.40-9.00 at 50 mg L -1 , whereas at 100 mg L -1 , the corresponding numbers were 2.10-4.10 and 6.30-9.10 respectively. These formulations can be used to optimize the release of Mancozeb to achieve disease control for the desired period depending upon the matrix of the polymer used. Importantly, sufficient amount of active ingredient remains available for a reasonable period of time after application leading to reduced number of applications of pesticide.

Published

2020

49. Quantum Reactivity: An Indicator of Quantum Correlation.

Author

Aslmarand SM, Miller WA, Rana VS, and Alsing PM

Abstract

Geometry is often a valuable guide to complex problems in physics. In this paper, we introduce a novel geometric quantity called quantum reactivity (QR) to probe quantum correlations in higher-dimensional quantum systems. Much like quantum discord, QR is not a measure of quantum entanglement but can be useful in quantum information processes where a notion of quantum correlation in higher dimensions is needed. Both quantum discord and QR are extendable to an arbitrarily large number of qubits; however, unlike discord, QR satisfies the invariance under unitary operations. Our approach parallels Schumacher's singlet state triangle inequality, which used an information geometry-based entropic distance. We use a generalization of information distance to area, volume, and higher-dimensional volumes and then use these to define a quantity that we call QR, which is the familiar ratio of surface area to volume. We examine a spectrum of multipartite states (Werner, W, GHZ, randomly generated density matrices, etc.) and demonstrate that QR can provide an ordering of these quantum states as to their degree of quantum correlation.

Published

2019

50. Microwave Assisted Synthesis, Characterization and Biological Activities of Ferrocenyl Chalcones and Their QSAR Analysis.

Author

Yadav DK, Kaushik P, Pankaj, Rana VS, Kamil D, Khatri D, and Shakil NA

Abstract

A new microwave method (MM) has been developed for the synthesis of a series of 16 substituted ferrocenyl chalcones using acetylferrocene ( 1 ) with different aldehydes ( 2a-2p ) and comparing it with conventional method (CM). The synthesized compounds were characterized by various spectroscopic techniques viz IR, HR-MS, 1 H NMR, and 13 C NMR. The time required for completion of reaction in MM varied from 1 to 5 min as compared to CM which required 10-40 h. All the synthesized compounds were screened for antifungal activity against Sclerotium rolfsii and Alternaria solani . In vitro fungicidal activity revealed that compound 3o (ED 50 = 23.24 mg L -1 ) was found to be most active against S. rolfsii . But in case of A. solani , compound 3c (ED 50 = 29.9 mg L -1 ) showed highest activity. The nematicidal activity revealed that the compound 3b was more potent with LC 50 values of 10.67, 7.30, and 4.55 ppm at 24, 48, and 72 h, respectively. 2D-Quantitative Structural Activity Relationship (2D-QSAR) analysis of these ferrocenyl chalcones was carried out by developing three different models namely Partial Least Squares (PLS, Model 1), Multiple Linear Regression (MLR, Model 2) and Principal Component Regression (PCR, Model 3). Statistical significance and predictive ability of these models were assessed by internal and external validation and also verified by leave one-out cross-validation. QSAR study revealed that MLR for S. rolfsii ( r 2 = 0.999, q 2 = 0.996), PLS for A. solani ( r 2 = 0.934, q 2 = 0.749) and PCR for M. incognita ( r 2 = 0.878, q 2 = 0.772) were the best model. The physico-chemical parameters were calculated using VLife MDS 4.6 software. QSAR study could be employed for structure optimization to achieve better activity., (Copyright © 2019 Yadav, Kaushik, Pankaj, Rana, Kamil, Khatri and Shakil.)

Published

2019