Catalyst-free photoarylation of 2-aryl-2H-indazoles by carbon-iodine bond activation.

A photocatalyst-free visible-light induced arylation of 2-aryl-2H-indazoles with aryl iodides has been developed for the first time to produce 3,2-diaryl-2H-indazoles in good to moderate yields. In this transformation, potassium tert-butoxide acts as an activator of the C-I bond and also as a scavenger of in situ generated HI in the reaction. This method exhibits high functional group tolerance with a wide substrate scope and it has been successfully applied to the synthesis of liver X receptor agonists and also for fluorescent probes. This is the first report on the photoarylation of 2-arylindazoles at the C3-position with aryl iodides under catalyst-free conditions.

Therapeutic Potential of Benzimidazoisoquinoline Derivatives in Alleviating Murine Hepatic Fibrosis.

Short Title: Benzimidazoisoquinoline derivatives as potent antifibrotics Hepatic fibrosis is a pathological condition of liver disease with an increasing number of cases worldwide. Therapeutic strategies are warranted to target the activated hepatic stellate cells (HSCs), the collagen-producing cells, an effective strategy for controlling the disease progression. Benzimidazoisoquinoline derivatives were synthesized as hybrid molecules by the combination of benzimidazoles and isoquinolines to evaluate their anti-fibrotic potential using an in-vitro and in-vivo model of hepatic fibrosis. A small library of benzimidazoisoquinoline derivatives (1-17 and 18-21) was synthesized from 2-aryl benzimidazole and acetylene functionalities through C-H and N-H activation. Compounds (10 and its recently synthesized derivatives 18-21) depicted a significant decrease in PDGF-BB and/or TGFß-induced proliferation (1.7-1.9 -fold), migration (3.5-5.0 -fold), and fibrosis-related gene expressions in HSCs. These compounds could revert the hepatic damage caused by chronic exposure to hepatotoxicants, ethanol, and/or carbon tetrachloride as evident from the histological, biochemical, and molecular analysis. Anti-fibrotic effect of the compounds was supported by the decrease in the malondialdehyde level, collagen deposition, and gene expression levels of fibrosis-related markers such as α-SMA, COL1α1, PDGFRß, and TGFRIIß in the preclinical models of hepatic fibrosis. In conclusion, the synthesized benzimidazoisoquinoline derivatives (compounds 18, 19, 20, and 21) possess anti-fibrotic therapeutic potential against liver fibrosis.

Effectiveness of ORSL® Variants as an Adjuvant along with Standard-of-care Treatment in the Restoration of Oral Fluid, Electrolytes, and Energy in Patients with Fever and/or General Weakness in Indian Patients in an Outpatient Setting.

BACKGROUND: Dehydration due to reduced intake or increased losses including insensible losses in patients with acute nondiarrheal diseases may lead to fluid, electrolytes, and energy (FEE) deficits. The impact of oral FEE supplementation adjuvant to standard of care (SOC) treatment on recovery in patients with acute nondiarrheal diseases is yet to be evaluated. AIM: To determine the effectiveness of ORSL® variants (ORSL® Apple Drink and ORSL® PLUS Orange Drink), fruit juice-based electrolyte drinks as an adjuvant along with SOC in the restoration of oral FEE in patients with acute nondiarrheal disease with fever and/or general weakness who attended an outpatient department (OPD). MATERIALS AND METHODS: This was a prospective, interventional, open-label, multicenter, real-world, study conducted at eight sites across India. Patients with fever and/or general weakness due to an acute nondiarrheal illness were given either ORSL® Apple Drink or ORSL® PLUS Orange Drink as an adjuvant along with SOC treatment per physician's discretion. The primary endpoint of the study was to assess improvement from baseline in energy or hydration levels after ORSL® variants consumption at 6, 24, and 48 hours measured by a new aided recovery scale (ARS). Secondary endpoints were to assess the improvement in energy and hydration levels at 20, 40, and 60 minutes, as well as energy levels and hydration levels at 20, 40, and 60 minutes, 6, 24, and 48 hours after the consumption of ORSL® Apple Drink or ORSL® PLUS Orange Drink. The patient's consumption of ORSL® variants and treatment experience, physician's experience of recommending ORSL® variants, and product safety were evaluated. RESULTS: In total, 612 patients were enrolled with mean age 38.3 years, of whom 62.9% were male. The mean baseline level of energy and hydration was 1.59 (range 1.0-2.0) on ARS. Statistically significant (p < 0.0001) improvements were observed in energy or hydration 6 hours after first consumption of ORSL formulations. Furthermore, improvement was observed from 40 minutes, and in levels of energy, hydration, and both energy and hydration from 60 minutes. Patients and physicians reported a positive experience with ORSL® variants. CONCLUSION: ORSL® Apple Drink and ORSL® PLUS Orange Drink are clinically proven to provide hydration and/or energy to patients with fever and/or general weakness.

Association of Physicians of India Expert Recommendations on Oral Fluid, Electrolytes, and Energy Management during Transition Care and Discharge for Hospitalized Patients with Nondiarrheal Illnesses.

Acute nondiarrheal illnesses (NDIs) involve overt or subclinical dehydration, requiring rehydration and electrolyte repletion. Dehydration is frequently under-recognized and under-managed, both in outpatient departments (OPDs) and inpatient departments (IPDs). Postadmission dehydration is associated with longer hospital stays and higher inhospital mortality rates. Recognizing and understanding dehydration in hospitalized patients is necessary due to the adverse outcomes associated with this condition. In this article, we aimed to develop practical consensus recommendations on the role of oral fluid, electrolyte, and energy (FEE) management in hospitalized patients with FEE deficits in NDI. The modified Delphi consensus methodology was utilized to reach a consensus. A scientific committee comprising eight experts from India formed the panel. Relevant clinical questions within three major domains were formulated for presentation and discussion: (1) burden and factors contributing to dehydration in hospitalized patients; (2) assessment of fluid and electrolyte losses and increased energy requirements in hospitalized patients; and (3) management of FEE deficits in hospitalized patients [at admission, during intravenous (IV) therapy, IV to oral de-escalation, and discharge]. The consensus level was classified into agreement (mean score ≥4), no consensus (mean score <4), and exclusion (mean score <4 after the third round of discussion). The questions that lacked agreement were discussed during the virtual meeting. The experts agreed that the most common factors contributing to dehydration in patients with NDI hospitalized in IPDs include decreased oral fluid intake, increased fluid loss due to the illness, insensible fluid loss, and a lack of awareness among doctors about dehydration, which can result in poor fluid intake. Time constraints, discontinuity of care, lack of awareness of the principles of fluid balance, lack of formal procedures for enforcing hydration schemes, and lack of adequate training are most often barriers to the assessment of hydration status in hospital settings. Experts used hydration biomarkers, such as changes in body weight, serum, or plasma osmolality; fluid intake; and fluid balance charts; along with urine output, frequency, quantity, and color, to determine hydration status in hospital settings. Experts agreed that appropriate FEE supplementation in the form of ready-to-drink (RTD) fluids can restore FEE deficits and shorten the length of hospital stays in hospitalized patients at admission, during de-escalation from IV to oral therapy, and at discharge. RTD electrolyte solutions with known concentrations of electrolytes and energy are good choices to avoid taste fatigue and replenish FEE in hospitalized patients during transition care and at discharge.

Oral Fluid, Electrolytes, and Energy Management in Various Adult and Geriatric Illnesses beyond Diarrhea: An Indian Expert Panel Delphi Consensus Recommendation.

BACKGROUND: Dehydration is a highly prevalent clinical challenge in adults which can go undetected. Although dehydration is commonly associated with an increased risk of hospitalization and mortality, only a few international guidelines provide recommendations regarding oral fluids, electrolytes, and energy (FEE) management in adults/geriatrics with dehydration due to nondiarrheal causes. Currently, there is a lack of comprehensive recommendations on the role of oral FEE in nondiarrheal dehydration in adult and geriatric Indian patients. MATERIALS AND METHODS: A modified Delphi approach was designed using an online questionnaire-based survey followed by a virtual meeting, and another round of online surveys was used to develop this consensus recommendation. In round one, 130 statements, including 21 open-ended questions, were circulated among ten national experts who were asked to either strongly agree, agree, disagree, or strongly disagree with statements and provide responses to open-ended questions. The consensus was predefined at 75% agreement (pooling "strongly agree" and "agree" responses). Presentation of relevant literature was done during a virtual discussion, and some statements (the ones that did not achieve predefined agreement) were actively discussed and deliberately debated to arrive at conclusive statements. Those statements that did not reach consensus were revised and recirculated during round two. RESULTS: Consensus was achieved for 130/130 statements covering various domains such as assessment of dehydration, dehydration in geriatrics, energy requirement, impact of oral FEE on patient outcome, and fluid recommendations in acute and chronic nondiarrheal illness. However, one statement was not added as a recommendation in the final consensus (129/130) as further literature review did not find any supporting data. Oral FEE should be recommended as part of core treatment from day 1 of acute nondiarrheal illness and started at the earliest feasibility in chronic illnesses for improved patient outcomes. Appropriately formulated fluids with known electrolyte and energy content, quality standards, and improved palatability may further impact patient compliance and could be a good option. CONCLUSION: These consensus recommendations provide guidance for oral FEE recommendations in Indian adult/geriatric patients with various nondiarrheal illnesses.

Rh(III)-catalyzed [3 + 2] spiroannulation of 2,3-dihydro-1,4-benzoxazines with 4-hydroxy-2-alkynoates through ortho-C-H bond functionalization.

Rhodium(III)-catalyzed [3 + 2]-spiroannulation of 2-aryl-1,4-benzoxazines with 4-hydroxy-2-alkynoates has been developed for the synthesis of highly rigid spirolactones in good yields with high regioselectivity. The reaction proceeds through a cascade of C-H activation followed by C-H annulation and lactonization. In this approach, two C-C and C-O bonds are formed in a single step. This is the first report on the spiroannulation of 2,3-dihydro-1,4-benzoxazines with 4-hydroxy-2-alkynoates.

Recent advances in metal directed C-H amidation/amination using sulfonyl azides and phosphoryl azides.

Transition metal-catalyzed C-N bond formation reactions have gained popularity as a method for selectively transforming common C-H bonds into N-functionalized molecules. This approach is particularly useful for synthesizing aminated molecules, which require aminating reagents and amidated building blocks. Over the past two decades, significant advancements have been achieved in transition-metal-catalyzed C-H functionalization, with organic azides emerging as promising amino sources and internal oxidants. This review focuses on recent developments in utilizing sulfonyl and phosphoryl azides as building blocks for directed intra- and intermolecular C-H functionalization reactions. Specifically, it discusses methods for synthesizing sulfonamidates and phosphoramidates using sulfonyl and phosphoryl azides, respectively. The article highlights the potential of C-H functionalization reactions with organic azides for efficiently and sustainably synthesizing N-functionalized molecules, providing valuable insights into the latest advancements in this field.

Rhodium(III)-catalyzed oxidative annulation of N-arylbenzamidines with maleimides via dual C-H activation.

An oxidative annulation of N-arylbenzimidamides with maleimides has been developed for the first time using a catalytic amount of the [Cp*RhCl2]2 complex for the synthesis of a diverse range of 1H-benzo[4,5]imidazo[2,1-a]pyrrolo[3,4-c]isoquinoline-1,3(2H)-dione derivatives. This method is versatile and atom-economical for producing polycyclic benzo[4,5]imidazo[2,1-a]pyrrolo[3,4-c] isoquinoline-1,3(2H)-dione scaffolds in a single step.

Nanoparticulate Silica Internalization and Its Effect on the Growth and Yield of Groundnut (Arachis hypogaea L.).

In recent years, foliar applications of nanoparticles are increasingly being employed in agricultural fields as fertilizers to enhance crop yields. However, limited studies are available on the foliar uptake of nanoscale nutrients and their interaction with plants. In this study, we reported the effects of foliar spray with varied concentrations of nanoscale silica (N-SiO2) and bulk tetraethyl orthosilicate (TEOS at 2000 ppm) on the growth and yield of groundnut. Nanosilica was prepared by a sol-gel method and characterized by transmission electron microscopy, dynamic light scattering, and X-ray diffraction. The size and zeta potential of N-SiO2 were found to be 28.7 nm and 32 mV, respectively. The plant height, number of branches, total dry weight, SPAD chlorophyll meter reading, photosynthetic rate, water use efficiency, number of nodules, and ascorbic acid content were increased significantly with the N-SiO2 foliar application at 400 ppm over control. The number of filled pods increased significantly by 38.78 and 58.60% with N-SiO2 at 400 ppm application over TEOS and control, respectively. The pod yield per plant in N-SiO2 at 400 ppm increased by 25.52 and 31.7% higher over TEOS and control, respectively. Antioxidant enzyme activities enhanced significantly in N-SiO2 at 200 and 400 ppm over control, indicating a stimulatory effect on the plant growth. In addition, confocal microscopy revealed that fluorescein isothiocyanate (FITC)-N-SiO2 entered through stomata and then transported to vascular bundles via apoplastic movement. Our study for the first time demonstrated that N-SiO2 can significantly modulate multiple complex traits in groundnut through an eco-friendly and sustainable approach.

Identification of genomic regions governing moisture and heat stress tolerance employing association mapping in rice (Oryza sativa L.).

BACKGROUND: Rice crop is damaged extremely by abiotic stress world-wide. The best approach to enhance drought tolerance in rice varieties is to identify and introgress yield QTLs with major effects. The Association mapping approach helps in the identification of genomic regions governing physiological, yield and yield attributes under moisture and heat stress conditions in diverse collections of crop germplasm, based on historic recombination events and linkage disequilibrium across the genome. METHODS AND RESULTS: The association mapping panel of 110 rice germplasm lines exhibited significant variation for all the traits in both irrigated and moisture stress conditions. The extent of yield reduction ranged to 83% during rabi, 2018-19, 53% in rabi, 2019-20 and 68% in pooled analysis. The genotypes Badami, Badshabhog, Pankaj, Varalu, Vasundhara, Vivekdhan, Krishna and Minghui63 exhibited drought tolerance with least yield penalty under moisture stress conditions. The genotypes Konark, MTU3626, NLR33671, PR118 and Triguna exhibited minimal reduction in heat stress tolerance traits. Association mapping of germplasm using 37808 SNP markers detected a total of 10 major MTA (Marker-trait association) clusters distributed on chromosomes 1, 3, 4 and 11 through mixed linear model (MLM) governing multiple traits from individual data analysis which are consistent across the years and situations. The pooled data generated a total of five MTA clusters located on chromosome 6. In addition, several novel unique MTAs were also identified. Heat stress analysis generated a total of 23 MTAs distributed on chromosomes 1, 5, 6 and 11. Candidate gene analysis detected a total of 53 and 38 genes under individual and pooled data analysis for various yield and yield attributes under control and moisture stress conditions, respectively and a total of 11 candidate genes in heat stress Conditions. CONCLUSION: The major and novel MTAs identified in the present investigation for various drought and heat tolerant traits can be utilized for breeding climate-resilient rice varieties. The candidate genes predicted for key MTAs are of great value to deploy into the rice breeding after functional characterization.

Efficacy and safety of fixed-dose combination of Bilastine-Montelukast in adult patients with allergic rhinitis: a phase III, randomized, multi-center, double-blind, active controlled clinical study.

BACKGROUND: Histamine and cysteinyl leukotrienes (CysLTs) are potent inflammatory mediators in allergic rhinitis (AR). Studies involving other combinations of antihistaminics (Levocetirizine) and highly selective leukotriene receptor antagonist (LTA) (Montelukast) combination have shown additive benefits and are widely prescribed for AR. OBJECTIVE: Evaluate the efficacy and safety of Bilastine 20 mg and Montelukast 10 mg fixed-dose combination (FDC) therapy in patients with AR. METHODS: A randomized, double-blind, comparative, parallel, phase III study was conducted to evaluate efficacy and safety of Bilastine 20 mg and Montelukast 10 mg FDC at 16 tertiary care otolaryngology centres in India. Adult patients with AR for one year with IgE antibody positive and 12-h NSS score >36 in 3 days were randomized to receive either Bilastine 20 mg and Montelukast 10 mg or Montelukast 10 mg & Levocetirizine 5 mg tablets for 4 weeks. The change in total symptom score (nasal symptom scores (NSS) & non-nasal symptom scores (NNSS)) from baseline to week 4 was assessed as primary endpoint. Secondary endpoints included changes in TSS, NSS, NNSS, individual symptom scores (ISS), Rhinoconjunctivitis Quality of Life (RQLQ), discomfort due to rhinitis (VAS), and clinical global impression (CGI) scores. RESULTS: The change in mean TSS from baseline to week 4 in Test group (16.6 units) was comparable to reference group (17 units) (p= 0.8876). The difference in change in mean NSS, NNSS and ISS from baseline to day 7, 14, 28 were comparable. RQLQ improved from baseline to Day 28. Significant improvements were observed in discomfort due to AR measured by VAS and CGI scores from baseline to day 14 and 28. The safety and tolerability of patients were comparable between the groups. All adverse events (AEs) were mild to moderate in severity. No patient discontinued due to AEs. CONCLUSIONS: The FDC of Bilastine 20 mg and Montelukast 10 mg was efficacious and well tolerated in Indian patients with AR.

First report of Cephalerous virescens causing Algal leaf spot of Averrhoa carambola in India.

Averrhoa carambola (Star fruit) is a drought resistant edible fruit belongs to family Oxalidaceae. It is native of Malaysia and further cultivation is extended to China, Southeast Asia, India and Northern South America. Star fruit has juicy texture and used in salads, beverages and traditionally it has been used for ayurvedic medicines in India, Brazil and China (Abduh et al. 2023). In early January 2023, we observed the symptoms of raised, more or less circular, orange to dark brown, velvet textured, scattered algal leaf spots (1-4 mm) on the upper surface of A. carambola leaves at College farm, Agricultural College, Aswaraopet (17.252039 latitude, 81.109573 longitude) (Supplementary Fig 1). The disease was observed in 2 hectare model orchard with incidence of 45% causing leaf defoliation and thereby reducing the yield and quality of fruits. Transverse section cutting of algal spots revealed the algal thalli at subcuticular region and causing necrosis of epidermal cells. Sporangiophores (n=20) raised from algal leaf spot were cylindrical, 4 to 5 celled, 200-450 µm long x 8-20 µm wide, and forming a head cell with suffultory cells and sporangia on the top. Sporangia (n=20) were spherical to elliptical, rusty brown and 17.5-29 µm long × 18-23.6 µm wide and the total number of sporangia produced by each sporangiophores varies from 1 to 6. Setae (n=20) were filamentous with three to six celled, 17.5-50 µm long × 2.5-7.5 µm wide (Supplementary Figure 2). In our collection, mature gametangia were not observed. Morphological characters were studied on 20 diseased leaf samples collected from randomly selected five plants. To isolate pathogen, fresh algal thalli (n=5) were scraped from host tissue, surface sterilized (70% alcohol (30 s), 1% sodium hypochlorite (30 s) and sterile distilled water (3 × 60 s), inoculated to trebouxia liquid media and incubated at 25 ± 2 °C with a 12 hours photoperiod for 72 hours (Vasconcelos et al. 2018). The resultant five algal filaments were subjected to PCR amplification. The primer pair PNS1/NS41 was used in a PCR to amplify a fragment of 18S rRNA (Davis and Kaur 2019). The 18S rRNA gene sequences of the algae were compared using the Basic Local Alignment Search Tool (BLAST; http://www.ncbi.nlm.nih.gov/Blast/Blast.cgi) showed that our partial sequence had 99.5% similarity to C. virescens (KM020142.1). Hence, it was classified as C. virescens and sequences was deposited in NCBI-GenBank with accession numbers (OR053653, OR243777, OR429406, OR429407 and OR243779). For proving pathogenicity, algal filaments obtained from trebouxia liquid media were inoculated to 6 months old healthy A. carambola plant. Pathogenicity test was negative and typical symptoms could not be produced even up to 150 days of inoculation. In previous studies also, due to difficulty with production of zoospores in synthetic media, Koch's postulates of C. virescens as a plant pathogen has not been demonstrated experimentally (Sunpapao et al. 2017; Sanahuja et al. 2018; Kumar et al. 2019). In the second experiment, zoosporangia spore suspension were prepared from small pieces of algal leaf spot tissue processed in a sterile pestle and mortar and filtered through sterile cheesecloth (Sunpapao et al. 2017). A total of five isolates of zoosporangia spore suspension (1 x 102 to 1 x 104/ml of water) was sprayed on healthy, surface sterilized leaves of A. carambola plants (n=5) until runoff with a handheld airpump sprayer and incubated in green house (T: 25 oC, H: 80%). During the experiment leaves were remain attached to plant (5 days old) and plants were 6 months old grown in plastic pots under controlled conditions. Two plants were inoculated with each isolate and three non inoculated control plants were included. Non inoculated controls were sprayed with sterile distilled water. The pathogenicity experiment was repeated. The initial symptoms were produced 60 days after inoculation and complete algal thalli was observed on 90 days after inoculation, control plants were without any symptoms upto 150 days. Reisolated algal thalli from symptomatic plants were morphologically similar to original algal thalli and molecularly identified as C. virescens (accession number OR067193 and OR243810). Red rust caused by C. virescens is a major algal disease in the world and causing severe leaf defoliation in various horticultural crops viz., Mangifera indica (Vasconcelos et al. 2018), Manilkara zapota (Sunpapao et al. 2017), Psidium guajava (Rajbongshi et al. 2022), Ziziphus mauritiana (Shareefa et al. 2022) and Anacardium occidentale (Dooh et al. 2022). The available literature suggest that, this is the first report of algal leaf spot on A. carambola caused by C. virescens in India. This report extends the range of known pathogens associated with A. carambola plant and serves as a basis for development and implementing disease management strategies.

Ensemble deep honey architecture for COVID-19 prediction using CT scan and chest X-ray images.

Recently, the infectious disease COVID-19 remains to have a catastrophic effect on the lives of human beings all over the world. To combat this deadliest disease, it is essential to screen the affected people quickly and least inexpensively. Radiological examination is considered the most feasible step toward attaining this objective; however, chest X-ray (CXR) and computed tomography (CT) are the most easily accessible and inexpensive options. This paper proposes a novel ensemble deep learning-based solution to predict the COVID-19-positive patients using CXR and CT images. The main aim of the proposed model is to provide an effective COVID-19 prediction model with a robust diagnosis and increase the prediction performance. Initially, pre-processing, like image resizing and noise removal, is employed using image scaling and median filtering techniques to enhance the input data for further processing. Various data augmentation styles, such as flipping and rotation, are applied to capable the model to learn the variations during training and attain better results on a small dataset. Finally, a new ensemble deep honey architecture (EDHA) model is introduced to effectively classify the COVID-19-positive and -negative cases. EDHA combines three pre-trained architectures like ShuffleNet, SqueezeNet, and DenseNet-201, to detect the class value. Moreover, a new optimization algorithm, the honey badger algorithm (HBA), is adapted in EDHA to determine the best values for the hyper-parameters of the proposed model. The proposed EDHA is implemented in the Python platform and evaluates the performance in terms of accuracy, sensitivity, specificity, precision, f1-score, AUC, and MCC. The proposed model has utilized the publicly available CXR and CT datasets to test the solution's efficiency. As a result, the simulated outcomes showed that the proposed EDHA had achieved better performance than the existing techniques in terms of Accuracy, Sensitivity, Specificity, Precision, F1-Score, MCC, AUC, and Computation time are 99.1%, 99%, 98.6%, 99.6%, 98.9%, 99.2%, 0.98, and 820 s using the CXR dataset.

Anticancer effect and apoptosis induction by azaflavanone derivative in human prostate cancer cells.

Polyphenols are naturally occurring organic compounds with varying structures represented by four major groups: flavonoids, phenolic acids, lignans and stilbenes. Several studies suggested that these secondary metabolites have health benefits due to its anti-tumorigenic effect. Therefore, substantial effort has been put forward to isolate and characterize these natural compounds and synthesize analogues that may serve as potential anti-cancer therapeutics. This present study is aimed at designing and synthesis of azaflavanone derivative and in understanding its mechanism of action in vitro and in vivo. Molecular docking studies predicted that the compound can potentially bind strongly to the Cyclin E1-Cdk2 complex which is a key mediator of the cell cycle progression indicating a biological interference in aggressive prostate cancer. Further downstream studies to understand its cytotoxicity and mechanism of action showed this azaflavanone derivative markedly inhibits viability of prostate cancer cells (DU145) showing an IC50 value of 0.4 µM compared to other cancer cells. The pharmacological ROS insult using the azaflavanone derivative increases the oxidative damage leading to high expression of apoptotic markers with increasing concentration. On compound treatment, the cells lose the metabolic flexibility accompanied by mitochondrial dysfunction leading to cell cycle arrest and apoptosis. Further, no compound mediated toxicity was observed in xenograft mouse model of prostate cancer at a concentration as high as 5 mg/kg. The tumor burden was reduced to 60% rendering the azaflavanone derivative a potential candidate in cancer therapeutics. Collectively, the compound triggers cell cycle arrest and ROS mediated oxidative stress sensitizing the cancerous cells towards apoptosis.

Multifaceted roles of plant derived small molecule inhibitors on replication cycle of SARS-CoV-2.

INTRODUCTION: Coronavirus disease 2019 (COVID-19) is an illness caused by the new coronavirus severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2). It has affected public health and the economy globally. Currently approved vaccines and other drug candidates could be associated with several drawbacks which urges developing alternative therapeutic approaches. AIM: To provide a comprehensive review of anti-SARS-CoV-2 activities of plants and their bioactive compounds. METHODS: Information was gathered from diverse bibliographic platforms such as PubMed, Google Scholar, and ClinicalTrials.gov registry. RESULTS: The present review highlights the potential roles of crude extracts of plants as well as plant-derived small molecules in inhibiting SARS-CoV-2 infection by targeting viral or host factors essential for viral entry, polyprotein processing, replication, assembly and release. Their anti-inflammatory and antioxidant properties as well as plant-based therapies that are under development in the clinical trial phases-1 to 3 are also covered. CONCLUSION: This knowledge could further help understanding SARS-CoV-2 infection and anti-viral mechanisms of plant-based therapeutics.

Synthetic Applications of Prins Cyclization in Natural Product Syntheses.

The natural products having tetrahydropyran unit with multiple chiral centers serve as magnificent building blocks for various active pharmaceutical ingredients (APIs). 'Prins cyclization is one of the wonderful strategies to construct tetrahydropyran unit stereoselectively in asymmetric synthesis. In this account, we discuss our research efforts toward the synthesis of various natural products from the past two decades (2005-2020) by using Prins cyclization as a key step. Further, the synthetic utility of this reaction was investigated and well demonstrated on various molecules successfully.

Design, synthesis, and biological evaluation of phenyl thiazole-based AR-V7 degraders.

Multiple Splice variants of AR have been reported in the past few years. These splice variants are upregulated in most cases of CRPC resulting in poor prognosis. Most of these variants lack the ligand binding domain (LBD) but still bind to DNA resulting in constitutive activation of downstream targets. The AR-V7 splice variant has been characterized extensively and current clinical trials in CRPC are exploring the use of AR-V7 as a biomarker. New therapeutic molecules that selectively target AR-V7 are also being explored. However, there is a dearth of information available on the selectivity, phenotypic responses in AR-V7 dependent cell lines and pharmacokinetic properties of such molecules. Using our proprietary computational algorithms and rational SAR optimization, we have developed a potent and selective AR-V7 degrader from a known AR DNA binding domain (DBD) binder. This molecule effectively degraded AR-V7 in a CRPC cell line and demonstrated good oral bioavailability in mouse PK studies. This tool compound can be used to evaluate the pharmacological effects of AR-V7 degraders. Further exploration of SAR can be pursued to develop more optimized lead compounds.

1D NiO-3D Fe2O3mixed dimensional heterostructure for fast response flexible broadband photodetector.

Conventional heterojunction photodetectors rely on planar junction architecture which suffer from low interfacial contact area, inferior light absorption characteristics and complex fabrication schemes. Heterojunctions based on mixed dimensional nanostructures such as 0D-1D, 1D-2D, 1D-3D etc have recently garnered exceptional research interest owing to their atomically sharp interfaces, tunable junction properties such as enhanced light absorption cross-section. In this work, a flexible broadband UV-vis photodetector employing mixed dimensional heterostructure of 1D NiO nanofibers and 3D Fe2O3nanoparticles is fabricated. NiO nanofibers were synthesized via economical and scalable electro-spinning technique and made composite with Fe2O3nanoclusters for hetero-structure fabrication. The optical absorption spectra of NiO nanofibers and Fe2O3nanoparticles exhibit peak absorption in UV and visible spectra, respectively. The as-fabricated photodetector displays quick response times of 0.09 s and 0.18 s and responsivities of 5.7 mA W-1(0.03 mW cm-2) and 5.2 mA W-1(0.01 mW cm-2) for UV and visible spectra, respectively. The fabricated NiO-Fe2O3device also exhibits excellent detectivity in the order of 1012jones. The superior performance of the device is ascribed to the type-II heterojunction between NiO-Fe2O3nanostructures, which results in the localized built-in potential at their interface, that aids in the effective carrier separation and transportation. Further, the flexible photodetector displays excellent robustness when bent over ∼1000 cycles thereby proving its potential towards developing reliable, diverse functional opto-electronic devices.

Knowledge extraction of sonophotocatalytic treatment for acid blue 113 dye removal by artificial neural networks.

Removing decolorizing acid blue 113 (AB113) dye from textile wastewater is challenging due to its high stability and resistance to removal. In this study, we used an artificial neural network (ANN) model to estimate the effect of five different variables on AB113 dye removal in the sonophotocatalytic process. The five variables considered were reaction time (5-25 min), pH (3-11), ZnO dosage (0.2-1.0 g/L), ultrasonic power (100-300 W/L), and persulphate dosage (0.2-3 mmol/L). The most effective model had a 5-7-1 architecture, with an average deviation of 0.44 and R2 of 0.99. A sensitivity analysis was used to analyze the impact of different process variables on removal efficiency and to identify the most effective variable settings for maximum dye removal. Then, an imaginary sonophotocatalytic system was created to measure the quantitative impact of other process parameters on AB113 dye removal. The optimum process parameters for maximum AB 113 removal were identified as 6.2 pH, 25 min reaction time, 300 W/L ultrasonic power, 1.0 g/L ZnO dosage, and 2.54 mmol/L persulfate dosage. The model created was able to identify trends in dye removal and can contribute to future experiments.

Nucleotide biosynthetic enzyme GMP synthase is a TRIM21-controlled relay of p53 stabilization.

Nucleotide biosynthesis is fundamental to normal cell proliferation as well as to oncogenesis. Tumor suppressor p53, which prevents aberrant cell proliferation, is destabilized through ubiquitylation by MDM2. Ubiquitin-specific protease 7 (USP7) plays a dualistic role in p53 regulation and has been proposed to deubiquitylate either p53 or MDM2. Here, we show that guanosine 5'-monophosphate synthase (GMPS) is required for USP7-mediated stabilization of p53. Normally, most GMPS is sequestered in the cytoplasm, separated from nuclear USP7 and p53. In response to genotoxic stress or nucleotide deprivation, GMPS becomes nuclear and facilitates p53 stabilization by promoting its transfer from MDM2 to a GMPS-USP7 deubiquitylation complex. Intriguingly, cytoplasmic sequestration of GMPS requires ubiquitylation by TRIM21, a ubiquitin ligase associated with autoimmune disease. These results implicate a classic nucleotide biosynthetic enzyme and a ubiquitin ligase, better known for its role in autoimmune disease, in p53 control.