Your search keyword '"Anirban Roy"' showing total 716 results

1. Information theoretic measures for Lifshitz system

Author

Souvik Paul, Anirban Roy Chowdhury, Ashis Saha, and Sunandan Gangopadhyay

Subjects

AdS-CFT Correspondence, Gauge-Gravity Correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract In this work, we have studied various mixed state information theoretic quantities for an excited state of Lifshitz spacetime in 3 + 1-dimensions. This geometry is the gravity dual to a class of 2 + 1-dimensional quantum field theories having Lifshitz symmetry. We have holographically calculated mutual information, entanglement wedge cross section, entanglement negativity and mutual complexity for strip like subsystems at the boundary. For this we have used the results of holographic entanglement entropy and complexity present in the literature. We first calculate all of these mentioned quantities for the pure state of Lifshitz spacetime. Then we have moved on to calculate all these quantities for excited state of the Lifshitz spacetime. The gravity dual of excited state of Lifshitz systems in field theory can be obtained by applying constant perturbations along the boundary direction. Further, we would like to mention that for the simplicity of calculation we are only considering results up to the first order in perturbation. The change in the obtained holographic information theoretic quantities are then related to entanglement entropy, entanglement pressure, entanglement chemical potential and charge using the stress tensor complex. These relations are analogous to the first law of entanglement thermodynamics given earlier in the literature. All the calculations are carried out for both values of dynamical scaling exponent (z) present in the Lifshitz field theory.

Published

2024

2. In vivo safety assessment of a polyherbal formulation (Stress WIN) proposed for clinical hypertension management

Author

Somesh Agarwal, Anirban Roy, Vinod Tiwari, Poonam Pal, A. Kartika, Rajesh Sharma, Amaresh Kumar Singh, and Sanjeev Kumar

Subjects

Hypertension, Polyherbal formulation, Ashwagandha, Jatamansi, Pushkarmoola, Science (General), Q1-390

Abstract

Abstract Herbal treatments are nowadays considered dietary supplements and nutraceuticals for health maintenance and alternative/complementary therapy. A large range of herbal medications worldwide can easily be accessible in the local market. The polyherbal formulation (Stress WIN) containing Ashwagandha (Withania somnifera L. Dunal), Pushkarmoola (Inula racemosa Hook. F.), and Jatamansi (Nardostachys jatamansi (D. Don) DC.) root has been used empirically in the management of hypertension. However, toxicity data for the StressWIN is not available yet. The present study aims to evaluate the StressWIN’s safety profile by 28 days of repeated dose oral toxicity in Wistar rats. Rats received different doses (500 mg/kg/day, 1000 mg/kg/day, and 2000 mg/kg/day) of StressWIN, for 28 days. The study was conducted in compliance with the OECD guideline 423. No significant differences were observed in hematological and biochemical parameters as compared to the control group (p > 0.05). Histopathological studies revealed no significant alterations in the macroscopic and microscopic architecture of the liver, kidney, heart, and spleen of the StressWIN treated groups in comparison to the control group (p > 0.05). Findings from the present study suggest that StressWIN supplementation has not shown any side effects in terms of sub-acute toxicity in both male and female rats. These findings indicated no observed adverse effect level (NOAEL) of StressWIN was higher than 2000 mg/kg/day.

Published

2024

3. Use of a decision support tool and quick start onboarding tool in individuals with type 1 diabetes using advanced automated insulin delivery: a single-arm multi-phase intervention study

Author

Shekhar Sehgal, Martin De Bock, Benyamin Grosman, Jonathan Williman, Natalie Kurtz, Vanessa Guzman, Andrea Benedetti, Anirban Roy, Kamuran Turksoy, Magaly Juarez, Shirley Jones, Carla Frewen, Antony Watson, Barry Taylor, and Benjamin J. Wheeler

Subjects

Closed loop devices, Decision support tools, Glycemia, Type 1 diabetes, Continuous glucose monitoring, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Abstract Background Multiple clinician adjustable parameters impact upon glycemia in people with type 1 diabetes (T1D) using Medtronic Mini Med 780G (MM780G) AHCL. These include glucose targets, carbohydrate ratios (CR), and active insulin time (AIT). Algorithm-based decision support advising upon potential settings adjustments may enhance clinical decision-making. Methods Single-arm, two-phase exploratory study developing decision support to commence and sustain AHCL. Participants commenced investigational MM780G, then 8 weeks Phase 1-initial optimization tool evaluation, involving algorithm-based decision support with weekly AIT and CR recommendations. Clinicians approved or rejected CR and AIT recommendations based on perceived safety per protocol. Co-design resulted in a refined algorithm evaluated in a further identically configured Phase 2. Phase 2 participants also transitioned to commercial MM780G following “Quick Start” (algorithm-derived tool determining initial AHCL settings using daily insulin dose and weight). We assessed efficacy, safety, and acceptability of decision support using glycemic metrics, and the proportion of accepted CR and AIT settings per phase. Results Fifty three participants commenced Phase 1 (mean age 24.4; Hba1c 61.5mmol/7.7%). The proportion of CR and AIT accepted by clinicians increased between Phases 1 and 2 respectively: CR 89.2% vs. 98.6%, p

Published

2024

4. Study of Postacute Sequelae of COVID-19 Using Digital Wearables: Protocol for a Prospective Longitudinal Observational Study

Author

Sherine El-Toukhy, Phillip Hegeman, Gabrielle Zuckerman, Anirban Roy Das, Nia Moses, James Troendle, and Tiffany M Powell-Wiley

Subjects

Medicine, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

BackgroundPostacute sequelae of COVID-19 (PASC) remain understudied in nonhospitalized patients. Digital wearables allow for a continuous collection of physiological parameters such as respiratory rate and oxygen saturation that have been predictive of disease trajectories in hospitalized patients. ObjectiveThis protocol outlines the design and procedures of a prospective, longitudinal, observational study of PASC that aims to identify wearables-collected physiological parameters that are associated with PASC in patients with a positive diagnosis. MethodsThis is a single-arm, prospective, observational study of a cohort of 550 patients, aged 18 to 65 years, male or female, who own a smartphone or a tablet that meets predetermined Bluetooth version and operating system requirements, speak English, and provide documentation of a positive COVID-19 test issued by a health care professional within 5 days before enrollment. The primary end point is long COVID-19, defined as ≥1 symptom at 3 weeks beyond the first symptom onset or positive diagnosis, whichever comes first. The secondary end point is chronic COVID-19, defined as ≥1 symptom at 12 weeks beyond the first symptom onset or positive diagnosis. Participants must be willing and able to consent to participate in the study and adhere to study procedures for 6 months. ResultsThe first patient was enrolled in October 2021. The estimated year for publishing the study results is 2025. ConclusionsThis is a fully decentralized study investigating PASC using wearable devices to collect physiological parameters and patient-reported outcomes. The study will shed light on the duration and symptom manifestation of PASC in nonhospitalized patient subgroups and is an exemplar of the use of wearables as population-level monitoring health tools for communicable diseases. Trial RegistrationClinicalTrials.gov NCT04927442; https://clinicaltrials.gov/study/NCT04927442 International Registered Report Identifier (IRRID)DERR1-10.2196/57382

Published

2024

5. Triumphs of genomic-assisted breeding in crop improvement

Author

Vikas Mangal, Lokesh Kumar Verma, Sandeep Kumar Singh, Kanak Saxena, Anirban Roy, Anandi Karn, Rohit Rohit, Shruti Kashyap, Ashish Bhatt, and Salej Sood

Subjects

Genomic assisted breeding, Pan-genome, Allelic variants, Marker assisted selection, Climate-smart crops, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Conventional breeding approaches have played a significant role in meeting the food demand remarkably well until now. However, the increasing population, yield plateaus in certain crops, and limited recombination necessitate using genomic resources for genomics-assisted crop improvement programs. As a result of advancements in the next-generation sequence technology, GABs have developed dramatically to characterize allelic variants and facilitate their rapid and efficient incorporation in crop improvement programs. Genomics-assisted breeding (GAB) has played an important role in harnessing the potential of modern genomic tools, exploiting allelic variation from genetic resources and developing cultivars over the past decade. The availability of pangenomes for major crops has been a significant development, albeit with varying degrees of completeness. Even though adopting these technologies is essentially determined on economic grounds and cost-effective assays, which create a wealth of information that can be successfully used to exploit the latent potential of crops. GAB has been instrumental in harnessing the potential of modern genomic resources and exploiting allelic variation for genetic enhancement and cultivar development. GAB strategies will be indispensable for designing future crops and are expected to play a crucial role in breeding climate-smart crop cultivars with higher nutritional value.

Published

2024

6. Biological and Molecular Characterization of a New Isolate of Tomato Mottle Mosaic Virus Causing Severe Shoestring and Fruit Deformities in Tomato Plants in India

Author

Prantik Mazumder, Firoz Mondal, Mehulee Sarkar, Anik Majumdar, Kajal Kumar Biswas, Susheel Kumar Sharma, Milan Kumar Lal, Rahul Kumar Tiwari, Ravinder Kumar, and Anirban Roy

Subjects

shoestring, fruit deformities, tomato mottle mosaic virus (ToMMV), tobamovirus, host range, seed transmission, Botany, QK1-989

Abstract

Tomato (Solanum lycopersicum L.), the second most important vegetable crop globally, faces a significant threat from various viral diseases. A newly emerging disease, characterised by distinctive shoestring symptoms on leaves and the development of unripe, small, and hard fruit, poses a serious challenge to tomato cultivation in India. An initial survey in an experimental field revealed more than 50% of the plants displayed symptoms of the shoestring disease, resulting in substantial reductions in fruit yield and quality. Transmission electron microscopy (TEM) and molecular analyses identified an isolate of the tomato mottle mosaic virus (ToMMV) in the affected plants. When the partially purified virus was mechanically inoculated into tomato cv. Pusa Ruby plants, it reproduced the characteristic shoestring symptoms, confirming its causal relationship with the disease. Notably, the present shoestring isolate of ToMMV (ToMMV-Tss) was found to induce similar shoestring symptoms in most of the major commercial tomato varieties when inoculated under controlled experimental conditions in the glasshouse, indicating its aggressive nature. Host range studies demonstrated that the ToMMV-Tss can infect several solanaceous species, while cucurbitaceous hosts remained unaffected. Moreover, the virus was found to be seed-transmissible, with a small percentage of seedlings from infected plants displaying symptoms. These findings underscore the significant impact of ToMMV on tomato production in India and emphasise the need for reliable diagnostic tools and effective management strategies to curb the spread and mitigate the impact of this virus on commercial tomato cultivation.

Published

2024

7. Two new polyporoid species of Fomitopsidaceae (Polyporales, Basidiomycota) from India

Author

Rituparna Saha, Arun Kumar Dutta, Anirban Roy, and Krishnendu Acharya

Subjects

Fomitopsidaceae, India, ITS nrDNA, Polyporales, taxonomy, Zoology, QL1-991, Botany, QK1-989

Abstract

Two new species of Fomitopsidaceae, Pseudofomitopsis fusca R.Saha, A.K.Dutta & K.Acharya sp. nov. and Fomitopsis benghalensis R.Saha, A.K.Dutta & K.Acharya sp. nov., are described from West Bengal, India, based on morphological and molecular phylogenetic analyses (nuclear ITS sequence). Pseudofomitopsis fusca sp. nov. possesses perennial, triquetrous to ungulate, sessile basidiocarps with a shiny, glabrous, azonate, dark brown upper surface, a yellowish grey pore surface with angular pores (3–5 per mm), a dimitic type of hyphal system with clamped generative hyphae, fusoid cystidioles; ellipsoid, cotton blue positive, and basidiospores 3–5 × 1.5–3.5 µm. Fomitopsis benghalensis sp. nov. is characterized by its annual, resupinate basidiocarp with pilose, bluish white to orange-grey, warty, woody upper surface, bluish-white pore surface, circular to angular pores (5–7 per mm), a trimitic type of hyphal system with clamped generative hyphae, fusoid cystidioles, and cylindrical to elongate basidiospores (5.5–8 × 2.5–3.5 µm). The new taxa are compared to closely related taxa. Photomicrographs of the basidiocarps, along with detailed morphological descriptions and a molecular sequence-based phylogenetic tree, are provided.

Published

2024

8. Unveiling the Immunostimulatory Potential of Rhus Toxicodendron in Immunocompromised Balb/C Mice Induced with Cyclophosphamide

Author

Vara Prasad Saka, Narasimha Kumar G. V., Bharat Kumar Reddy Sanapalli, Abanti Goswami, Anirban Roy, Anurag Agrawal, Pankaj Gupta, Digvijay Verma, and Subhash Kaushik

Subjects

immunostimulant therapy, alternative medicine, homeopathic treatment, phagocytic activity, cytokines, Medicine

Abstract

This study investigated how Rhus toxicodendron (RT) (6C, 30C, and 200C) can boost the immune system of BALB/c mice that were given cyclophosphamide (CPM), which is an anticancer drug that weakens the immune system. RT, known for its historical use in traditional homeopathic remedies, has demonstrated immunomodulatory and anti-inflammatory effects in various experimental models. To test the immune-boosting effects of RT, CPM (80 mg/kg) was given intraperitoneally to mice on days 4, 8, and 12 of the study but not to the normal control group. CPM-induced immunosuppression led to significant decreases in red blood cell (RBC), white blood cell (WBC), and hemoglobin (Hb) levels, and reduced spleen and thymus indices. Phagocytic activity, cytokine concentrations, and spleen architecture were also adversely affected. RT treatment, particularly at 200C, significantly ameliorated these effects, improving RBC, WBC, and Hb levels. Furthermore, RT partially prevented CPM-induced atrophy of immune organs. Treatment positively influenced cytokine production at both the protein and mRNA levels, restoring immune balance. Histopathological results confirmed that RT stimulated the immune system. The cells were more stable, and the white pulp in the spleen was arranged in a regular pattern. These findings suggest that RT may serve as an adjunctive immunostimulant therapy for conditions characterized by immunosuppression. However, further investigations in other immunocompromised states must validate these results before considering human clinical trials.

Published

2024

9. Identification of quantitative trait loci (QTLs) regulating leaf SPAD value and trichome density in mungbean (Vigna radiata L.) using genotyping-by-sequencing (GBS) approach

Author

Nikki Kumari, Gyan Prakash Mishra, Harsh Kumar Dikshit, Soma Gupta, Anirban Roy, Subodh Kumar Sinha, Dwijesh C. Mishra, Shouvik Das, Ranjeet R. Kumar, Ramakrishnan Madhavan Nair, and Muraleedhar Aski

Subjects

Candidate genes, Chlorophyll content, Green gram, Marker assisted selection, Trichomes, Medicine, Biology (General), QH301-705.5

Abstract

Quantitative trait loci (QTL) mapping is used for the precise localization of genomic regions regulating various traits in plants. Two major QTLs regulating Soil Plant Analysis Development (SPAD) value (qSPAD-7-1) and trichome density (qTric-7-2) in mungbean were identified using recombinant inbred line (RIL) populations (PMR-1×Pusa Baisakhi) on chromosome 7. Functional analysis of QTL region identified 35 candidate genes for SPAD value (16 No) and trichome (19 No) traits. The candidate genes regulating trichome density on the dorsal leaf surface of the mungbean include VRADI07G24840, VRADI07G17780, and VRADI07G15650, which encodes for ZFP6, TFs bHLH DNA-binding superfamily protein, and MYB102, respectively. Also, candidate genes having vital roles in chlorophyll biosynthesis are VRADIO7G29860, VRADIO7G29450, and VRADIO7G28520, which encodes for s-adenosyl-L-methionine, FTSHI1 protein, and CRS2-associated factor, respectively. The findings unfolded the opportunity for the development of customized genotypes having high SPAD value and high trichome density having a possible role in yield and mungbean yellow vein mosaic India virus (MYMIV) resistance in mungbean.

Published

2024

10. Genome-wide association studies for earliness, MYMIV resistance, and other associated traits in mungbean (Vigna radiata L. Wilczek) using genotyping by sequencing approach

Author

Manju Kohli, Hina Bansal, Gyan Prakash Mishra, Harsh Kumar Dikshit, Shashidhar B. Reddappa, Anirban Roy, Subodh Kumar Sinha, K.M. Shivaprasad, Nikki Kumari, Atul Kumar, Ranjeet R. Kumar, Ramakrishnan Madhavan Nair, and Muraleedhar Aski

Subjects

GWAS, Mungbean, YMD, MYMIV, Flowering, Earliness, Medicine, Biology (General), QH301-705.5

Abstract

Yellow mosaic disease (YMD) remains a major constraint in mungbean (Vigna radiata (L.)) production; while short-duration genotypes offer multiple crop cycles per year and help in escaping terminal heat stress, especially during summer cultivation. A comprehensive genotyping by sequencing (GBS)-based genome-wide association studies (GWAS) analysis was conducted using 132 diverse mungbean genotypes for traits like flowering time, YMD resistance, soil plant analysis development (SPAD) value, trichome density, and leaf area. The frequency distribution revealed a wide range of values for all the traits. GBS studies identified 31,953 high-quality single nucleotide polymorphism (SNPs) across all 11 mungbean chromosomes and were used for GWAS. Structure analysis revealed the presence of two genetically distinct populations based on ΔK. The linkage disequilibrium (LD) varied throughout the chromosomes and at r2 = 0.2, the mean LD decay was estimated as 39.59 kb. Two statistical models, mixed linear model (MLM) and Bayesian-information and Linkage-disequilibrium Iteratively Nested Keyway (BLINK) identified 44 shared SNPs linked with various candidate genes. Notable candidate genes identified include FPA for flowering time (VRADI10G01470; chr. 10), TIR-NBS-LRR for mungbean yellow mosaic India virus (MYMIV) resistance (VRADI09G06940; chr. 9), E3 ubiquitin-protein ligase RIE1 for SPAD value (VRADI07G28100; chr. 11), WRKY family transcription factor for leaf area (VRADI03G06560; chr. 3), and LOB domain-containing protein 21 for trichomes (VRADI06G04290; chr. 6). In-silico validation of candidate genes was done through digital gene expression analysis using Arabidopsis orthologous (compared with Vigna radiata genome). The findings provided valuable insight for marker-assisted breeding aiming for the development of YMD-resistant and early-maturing mungbean varieties.

Published

2024

11. Selenium – An environmentally friendly micronutrient in agroecosystem in the modern era: An overview of 50-year findings

Author

Debojyoti Moulick, Arkabanee Mukherjee, Anupam Das, Anirban Roy, Arnab Majumdar, Anannya Dhar, Binaya Kumar Pattanaik, Bhaben Chowardhara, Dibakar Ghosh, Munish Kumar Upadhyay, Poonam Yadav, Swati Hazra, Sukamal Sarkar, Subrata Mahanta, S.C. Santra, Shuvasish Choudhury, Sagar Maitra, Udit Nandan Mishra, Karma L. Bhutia, Milan Skalicky, Oliver Obročník, Viliam Bárek, Marian Brestic, and Akbar Hossain

Subjects

Selenium, Agro-Ecosystem, Yield, Biogenic-Se, Nano-Se, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Agricultural productivity is constantly being forced to maintain yield stability to feed the enormously growing world population. However, shrinking arable and nutrient-deprived soil and abiotic and biotic stressor (s) in different magnitudes put additional challenges to achieving global food security. Though well-defined, the concept of macro, micronutrients, and beneficial elements is from a plant nutritional perspective. Among various micronutrients, selenium (Se) is essential in small amounts for the life cycle of organisms, including crops. Selenium has the potential to improve soil health, leading to the improvement of productivity and crop quality. However, Se possesses an immense encouraging phenomenon when supplied within the threshold limit, also having wide variations. The supplementation of Se has exhibited promising outcomes in lessening biotic and abiotic stress in various crops. Besides, bulk form, nano-Se, and biogenic-Se also revealed some merits and limitations. Literature suggests that the possibilities of biogenic-Se in stress alleviation and fortifying foods are encouraging. In this article, apart from adopting a combination of a conventional extensive review of the literature and bibliometric analysis, the authors have assessed the journey of Se in the “soil to spoon” perspective in a diverse agroecosystem to highlight the research gap area. There is no doubt that the time has come to seriously consider the tag of beneficial elements associated with Se, especially in the drastic global climate change era.

Published

2024

12. Forest carbon market-based mechanisms in India: Learnings from global design principles and domestic barriers to implementation

Author

Anirban Roy and Manan Bhan

Subjects

Carbon market mechanisms, Community forestry, Design principles, Forest carbon markets, India, Ecology, QH540-549.5

Abstract

Forest carbon markets (FCMs) have emerged as a significant means to direct resources toward urgent climate action that can mobilize a large set of actors and catalyze funding toward reducing deforestation and promoting sustainable forest management. Here, we conduct a critical qualitative review of global academic and investigative literature to identify ten major sets of design principles that provide a platform for the functioning of carbon markets worldwide. From these, we pinpoint four design principles which may be relevant to future market-based mechanisms in India We propose that clarity over market-quality standards, comprehensive regulatory framework, minimization of transaction costs and upfront financing options, and flexibility in time-bound and spatial commitments would be fundamental to ensure that market-based mechanisms in India accrue sustainable and long-term benefits to climate action and human well-being. A successful market-based mechanism in India’s forestry sector would have to overcome challenges around land property rights, local implementation capacities and knowledge gaps, and incentive structures to ensure that it likely caters to the needs of all stakeholders while delivering socio-ecological benefits.

Published

2024

13. Expanding Possibilities for Foreign Gene Expression by Cucumber Green Mottle Mosaic Virus Genome-Based Bipartite Vector System

Author

Anirudha Chattopadhyay, A. Abdul Kader Jailani, Anirban Roy, Sunil Kumar Mukherjee, and Bikash Mandal

Subjects

CGMMV, deconstructed genomes, trans-replication, movement, expression, virus-based vector, Botany, QK1-989

Abstract

Expanding possibilities for foreign gene expression in cucurbits, we present a novel approach utilising a bipartite vector system based on the cucumber green mottle mosaic virus (CGMMV) genome. Traditional full-length CGMMV vectors face limitations such as a restricted cargo capacity and unstable foreign gene expression. To address these challenges, we developed two ‘deconstructed’ CGMMV genomes, DG-1 and DG-2. DG-1 features a major internal deletion, resulting in the loss of crucial replicase enzyme domains, rendering it incapable of self-replication. However, a staggered infiltration of DG-1 in CGMMV-infected plants enabled successful replication and movement, facilitating gene-silencing experiments. Conversely, DG-2 was engineered to enhance replication rates and provide multiple cloning sites. Although it exhibited higher replication rates, DG-2 remained localised within infiltrated tissue, displaying trans-replication and restricted movement. Notably, DG-2 demonstrated utility in expressing GFP, with a peak expression observed between 6 and 10 days post-infiltration. Overall, our bipartite system represents a significant advancement in functional genomics, offering a robust tool for foreign gene expression in Nicotiana benthamiana.

Published

2024

14. Choice of step and near step profiles from splice loss analysis of trapezoidal index single mode fibers leading to a proposal of a longitudinal displacement sensor

Author

Anirban Roy Chowdhury, Ivy Dutta, Jayee Sinha, and Somenath Sarkar

Subjects

Splice loss, Trapezoidal and triangular index profile and fiber, Longitudinal misalignment, Transverse misalignment, Optics. Light, QC350-467

Abstract

In this paper, an in-depth investigation is carried out on the effect of aspect ratio on splice loss between a pair of identical single mode trapezoidal index fibers in the presence of longitudinal and transverse misalignments. Splice loss is, interestingly, observed to get reduced, with the increase of aspect ratio and becomes minimum for unit aspect ratio for step profiles. Also, it is nearing minimum for near-step profiles. So, if there exists a little imperfection, say about ten percent, from step index profile, there will be no significant increase in the loss than that in step profile. This extended loss-tolerant feature in the step and near-step region revalidates the choice of the available step profile, technically used in communication. Thus, even for a digression in fabrication, system users should feel confident to use it. The physical significance of the results is justified from basic diffraction ideas. Finally, the entire study leads to a novel proposal of a longitudinal displacement sensor through simple and straight-forward empirical formulation to estimate the longitudinal misalignment from the knowledge of the splice loss of widely available step index fiber simply with air in the gap.

Published

2023

15. Cross-correlation Techniques to Mitigate the Interloper Contamination for Line Intensity Mapping Experiments

Author

Anirban Roy and Nicholas Battaglia

Subjects

Line intensities, Observational cosmology, Astrophysics, QB460-466

Abstract

Line intensity mapping (LIM) serves as a potent probe in astrophysics, relying on the statistical analysis of integrated spectral line emissions originating from distant star-forming galaxies. While LIM observations hold the promise of achieving a broad spectrum of scientific objectives, a significant hurdle for future experiments lies in distinguishing the targeted spectral line emitted at a specific redshift from undesired line emissions originating at different redshifts. The presence of these interloping lines poses a challenge to the accuracy of cosmological analyses. In this study, we introduce a novel approach to quantify line–line cross-correlations (LIM-LLX), enabling us to investigate the target signal amid instrumental noise and interloping emissions. For example, at a redshift of z ∼ 3.7, we observed that the measured auto-power spectrum of C ii 158 exhibited substantial bias, from interloping line emission. However, cross-correlating C ii 158 with CO(6–5) lines using an FYST-like experiment yielded a promising result, with a signal-to-noise ratio of ∼10. This measurement is notably unbiased. Additionally, we explore the extensive capabilities of cross-correlation by leveraging various CO transitions to probe the tomographic Universe at lower redshifts through LIM-LLX. We further demonstrate that incorporating low-frequency channels, such as 90 and 150 GHz, into FYST’s EoR-Spec-like experiment can maximize the potential for cross-correlation studies, effectively reducing the bias introduced by instrumental noise and interlopers.

Published

2024

16. Targeted regulation of TAK1 counteracts dystrophinopathy in a DMD mouse model

Author

Anirban Roy, Tatiana E. Koike, Aniket S. Joshi, Meiricris Tomaz da Silva, Kavya Mathukumalli, Mingfu Wu, and Ashok Kumar

Subjects

Muscle biology, Therapeutics, Medicine

Abstract

Muscular dystrophies make up a group of genetic neuromuscular disorders that involve severe muscle wasting. TGF-β–activated kinase 1 (TAK1) is an important signaling protein that regulates cell survival, growth, and inflammation. TAK1 has been recently found to promote myofiber growth in the skeletal muscle of adult mice. However, the role of TAK1 in muscle diseases remains poorly understood. In the present study, we have investigated how TAK1 affects the progression of dystrophic phenotype in the mdx mouse model of Duchenne muscular dystrophy (DMD). TAK1 is highly activated in the dystrophic muscle of mdx mice during the peak necrotic phase. While targeted inducible inactivation of TAK1 inhibits myofiber injury in young mdx mice, it results in reduced muscle mass and contractile function. TAK1 inactivation also causes loss of muscle mass in adult mdx mice. By contrast, forced activation of TAK1 through overexpression of TAK1 and TAB1 induces myofiber growth without having any deleterious effect on muscle histopathology. Collectively, our results suggest that TAK1 is a positive regulator of skeletal muscle mass and that targeted regulation of TAK1 can suppress myonecrosis and ameliorate disease progression in DMD.

Published

2023

17. Supraphysiological activation of TAK1 promotes skeletal muscle growth and mitigates neurogenic atrophy

Author

Anirban Roy and Ashok Kumar

Subjects

Science

Abstract

TGF-β-activated kinase 1 (TAK1) is essential for the maintenance of skeletal muscle mass through incompletely understood mechanisms. Here the authors show that supraphysiological activation of TAK1 leads to muscle hypertrophy through the elongation initiation factor 4E (eIF4E) involved in protein synthesis, and prevents denervation-induced atrophy in mice.

Published

2022

18. Accelerated Long-Fragment Circular PCR for Genetic Manipulation of Plant Viruses in Unveiling Functional Genomics

Author

A. Abdul Kader Jailani, Anirudha Chattopadhyay, Pradeep Kumar, Oinam Washington Singh, Sunil Kumar Mukherjee, Anirban Roy, Neeti Sanan-Mishra, and Bikash Mandal

Subjects

PCR based cloning, CGMMV vector, VIGS, LC-PCR, Microbiology, QR1-502

Abstract

Molecular cloning, a crucial prerequisite for engineering plasmid constructs intended for functional genomic studies, relies on successful restriction and ligation processes. However, the lack of unique restriction sites often hinders construct preparation, necessitating multiple modifications. Moreover, achieving the successful ligation of large plasmid constructs is frequently challenging. To address these limitations, we present a novel PCR strategy in this study, termed ‘long-fragment circular-efficient PCR’ (LC-PCR). This technique involves one or two rounds of PCR with an additional third-long primer that complements both ends of the newly synthesized strand of a plasmid construct. This results in self-circularization with a nick-gap in each newly formed strand. The LC-PCR technique was successfully employed to insert a partial sequence (210 nucleotides) of the phytoene desaturase gene from Nicotiana benthamiana and a full capsid protein gene (770 nucleotides) of a begomovirus (tomato leaf curl New Delhi virus) into a 16.4 kb infectious construct of a tobamovirus, cucumber green mottle mosaic virus (CGMMV), cloned in pCambia. This was done to develop the virus-induced gene silencing vector (VIGS) and an expression vector for a foreign protein in plants, respectively. Furthermore, the LC-PCR could be applied for the deletion of a large region (replicase enzyme) and the substitution of a single amino acid in the CGMMV genome. Various in planta assays of these constructs validate their biological functionality, highlighting the utility of the LC-PCR technique in deciphering plant-virus functional genomics. The LC-PCR is not only suitable for modifying plant viral genomes but also applicable to a wide range of plant, animal, and human gene engineering under in-vitro conditions. Additionally, the LC-PCR technique provides an alternative to expensive kits, enabling quick introduction of modifications in any part of the nucleotide within a couple of days. Thus, the LC-PCR proves to be a suitable ‘all in one’ technique for modifying large plasmid constructs through site-directed gene insertion, deletion, and mutation, eliminating the need for restriction and ligation.

Published

2023

19. Entanglement wedge cross-section for noncommutative Yang-Mills theory

Author

Anirban Roy Chowdhury, Ashis Saha, and Sunandan Gangopadhyay

Subjects

AdS-CFT Correspondence, Gauge-Gravity Correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The signature of noncommutativity on various measures of entanglement has been observed by considering the holographic dual of noncommutative super Yang-Mills theory. We have followed a systematic analytical approach in order to compute the holographic entanglement entropy corresponding to a strip like subsystem of length l. The relationship between the subsystem size (in dimensionless form) l a $$ \frac{l}{a} $$ and the turning point (in dimensionless form) introduces a critical length scale l c a $$ \frac{l_c}{a} $$ which leads to three domains in the theory, namely, the deep UV domain (l < l c ; au t » 1, au t ∼ au b ), deep noncommutative domain (l > l c , au b > au t » 1) and deep IR domain (l > l c , aut « 1). This in turn means that the length scale l c distinctly points out the UV/IR mixing property of the non-local theory under consideration. We have carried out the holographic study of entanglement entropy for each of these domains by employing both analytical and numerical techniques. The broken Lorentz symmetry induced by noncommutativity has motivated us to redefine the entropic c-function. We have obtained the noncommutative correction to the c-function upto leading order in the noncommutative parameter. We have also looked at the behaviour of this quantity over all the domains of the theory. We then move on to compute the minimal cross-section area of the entanglement wedge by considering two dis- joint subsystems A and B. On the basis of E P = E W duality, this leads to the holographic computation of the entanglement of purification. The correlation between two subsystems, namely, the holographic mutual information I(A : B) has also been computed. Moreover, the computations of E W and I(A : B) has been done for each of the domains in the theory. We have then briefly discussed the effect of the UV cut-off on the IR behaviours of these quantities. Finally, we consider a black hole geometry with a noncommutative parameter and study the influence of both noncommutativity and finite temperature on the various measures of quantum entanglement.

Published

2022

20. Conventional and new-breeding technologies for improving disease resistance in lentil (Lens culinaris Medik)

Author

Anirban Roy, Parmeshwar K. Sahu, Camellia Das, Somnath Bhattacharyya, Aamir Raina, and Suvendu Mondal

Subjects

lentil, disease outbreaks, conventional breeding, new breeding technologies, biotic stress, yield, Plant culture, SB1-1110

Abstract

Lentil, an important cool season food legume, is a rich source of easily digestible protein, folic acid, bio-available iron, and zinc nutrients. Lentil grows mainly as a sole crop in the winter after harvesting rice in South Asia. However, the annual productivity is low due to its slow growth during the early phase, competitive weed infestation, and disease outbreaks during the crop growth period. Disease resistance breeding has been practiced for a long time to enhance resistance to various diseases. Often the sources of resistance are available in wild crop relatives. Thus, wide hybridization and the ovule rescue technique have helped to introgress the resistance trait into cultivated lentils. Besides hybridization, induced mutagenesis contributed immensely in creating variability for disease tolerance, and several disease-resistant mutant lines have been developed. However, to overcome the limitations of traditional breeding approaches, advancement in molecular marker technologies, and genomics has helped to develop disease-resistant and climate-resilient lentil varieties with more precision and efficiency. This review describes types of diseases, disease screening methods, the role of conventional and new breeding technologies in alleviating disease-incurred damage and progress toward making lentil varieties more resilient to disease outbreaks under the shadow of climate change.

Published

2023

21. The intertwining of Zn-finger motifs and abiotic stress tolerance in plants: Current status and future prospects

Author

Debojyoti Moulick, Karma Landup Bhutia, Sukamal Sarkar, Anirban Roy, Udit Nandan Mishra, Biswajit Pramanick, Sagar Maitra, Tanmoy Shankar, Swati Hazra, Milan Skalicky, Marian Brestic, Viliam Barek, and Akbar Hossain

Subjects

abiotic stresses, Zn-finger proteins, mechanisms, plants, gene signalling ABA - abscisic acid, Plant culture, SB1-1110

Abstract

Environmental stresses such as drought, high salinity, and low temperature can adversely modulate the field crop’s ability by altering the morphological, physiological, and biochemical processes of the plants. It is estimated that about 50% + of the productivity of several crops is limited due to various types of abiotic stresses either presence alone or in combination (s). However, there are two ways plants can survive against these abiotic stresses; a) through management practices and b) through adaptive mechanisms to tolerate plants. These adaptive mechanisms of tolerant plants are mostly linked to their signalling transduction pathway, triggering the action of plant transcription factors and controlling the expression of various stress-regulated genes. In recent times, several studies found that Zn-finger motifs have a significant function during abiotic stress response in plants. In the first report, a wide range of Zn-binding motifs has been recognized and termed Zn-fingers. Since the zinc finger motifs regulate the function of stress-responsive genes. The Zn-finger was first reported as a repeated Zn-binding motif, comprising conserved cysteine (Cys) and histidine (His) ligands, in Xenopus laevis oocytes as a transcription factor (TF) IIIA (or TFIIIA). In the proteins where Zn2+ is mainly attached to amino acid residues and thus espousing a tetrahedral coordination geometry. The physical nature of Zn-proteins, defining the attraction of Zn-proteins for Zn2+, is crucial for having an in-depth knowledge of how a Zn2+ facilitates their characteristic function and how proteins control its mobility (intra and intercellular) as well as cellular availability. The current review summarized the concept, importance and mechanisms of Zn-finger motifs during abiotic stress response in plants.

Published

2023

22. Comparing infrared spectroscopic methods for the characterization of Plasmodium falciparum-infected human erythrocytes

Author

Agnieszka M. Banas, Krzysztof Banas, Trang T. T. Chu, Renugah Naidu, Paul Edward Hutchinson, Rupesh Agrawal, Michael K. F. Lo, Mustafa Kansiz, Anirban Roy, Rajesh Chandramohanadas, and Mark B. H. Breese

Subjects

Chemistry, QD1-999

Abstract

Infrared imaging systems can characterise the spatial distribution of molecular features in cells, for example to aid in the study of malaria. Here three such techniques are systematically compared in their ability to characterise malaria-infected red blood cells.

Published

2021

23. Environmentally relevant concentrations of Cadmium impair morpho-physiological development and metamorphosis in Polypedates maculatus (Anura, Rhacophoridae) tadpoles

Author

Srikant Ojha, Anirban Roy, and Animesh Kr. Mohapatra

Subjects

Cadmium, LC50, Metamorphosis, Polypedates maculatus, Toxicity, Tumours, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Cadmium (Cd) poisoning has been globally reported causing detrimental health issues with severe toxic effects on certain physiological systems. Here the effects of different concentrations of Cadmium were assessed on the metamorphosis and development of common Indian tree frogs (Polypedates maculatus, Gray 1830). The tadpoles were exposed to environmentally relevant concentrations (up to 0.7 mg/l) of Cd in dechlorinated water from the larval stage to adulthood. Survival, growth traits (body length and body mass), external deformities and movement were some of the morpho-physiological characters compared between control and experimental samples. Followed by the determination of acute toxicity (median lethal concentration–LC50– after 24 h (5.603 mg/l) and 48 h (4.811 mg/l) of exposure), impacts associated with chronic toxicity of Cd to the tadpoles were inspected. The study showed multiple physiological deformities in the tadpoles chronically exposed to 0.5 and 0.7 mg/l Cd that included morphological malformations, pale skin colour, insipid motility, delayed metamorphosis and even high mortality. In addition to that, the tadpoles treated with 0.5 and 0.7 mg/l Cd showed significantly lesser growth traits than the controls over the study period. The paper aims to contribute in increasing ecotoxicological knowledge of an anuran species from which there is not much information of this type. Given the wide geographical distribution of the study species, it can serve as a bio-indicator of cadmium contamination, considering its applicability across a large swath of aquatic ecosystems in the Indian subcontinent.

Published

2021

24. Simultaneous solar photo-degradation of PVC-Fe-doped ZnO-nanocomposite flakes and Methylene Blue dye in water

Author

Anirban Roy, Sampa Chakrabarti, and Saikat Maitra

Subjects

solar photocatalysis, degradation, MB dye, Fe-doped ZnO nanoparticles, PVC-immobilized, Environmental engineering, TA170-171

Abstract

Simultaneous solar photocatalytic decolorization of Methlene Blue (MB) dye and degradation of polymer nanocomposite film in water has been attempted in the present work. The film immobilized iron (Fe)-doped zinc oxide (ZnO) nanoparticles (NPs) in polyvinyl chloride (PVC) matrix. This reduced the cost of separation of nanoparticles from treated water. Doped NPs were prepared sonochemically using zinc acetylacetonate (0.95 mmol) and ferric acetylacetonate (0.05 mmol) precursors in aqueous ethanol medium. XRD, UV-vis spectroscopy, FESEM and EDX were used for characterizing nanoparticles whereas the film was characterized by SEM. During the process, the film also reduced in weight. Degradation of both the dye and the polymer followed pseudo-first order kinetics. About 28% of the initial concentration of dye and about 5.04% of the initial weight of the PVC-film were decreased in the process after a run time of 3 h 45 minutes.

Published

2022

25. Information theoretic measures for Lifshitz system

Author

Paul, Souvik, Chowdhury, Anirban Roy, Saha, Ashis, and Gangopadhyay, Sunandan

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

In this work, we have studied various mixed state information theoretic quantities for an excited state of Lifshitz spacetime in $3+1$-dimensions. This geometry is the gravity dual to a class of $2+1$-dimensional quantum field theories having Lifshitz symmetry. We have holographically calculated mutual information, entanglement wedge cross section, entanglement negativity and mutual complexity for strip like subsystems at the boundary. For this we have used the results of holographic entanglement entropy and complexity present in the literature. We first calculate all of these mentioned quantities for the pure state of Lifshitz spacetime. Then we have moved on to calculate all these quantities for excited state of the Lifshitz spacetime. The gravity dual of excited state of Lifshitz systems in field theory can be obtained by applying constant perturbations along the boundary direction. Further, we would like to mention that for the simplicity of calculation we are only considering results up to the first order in perturbation. The change in the obtained holographic information theoretic quantities are then related to entanglement entropy, entanglement pressure, entanglement chemical potential and charge using the stress tensor complex. These relations are analogous to the first law of entanglement thermodynamics given earlier in the literature. All the calculations are carried out for both values of dynamical scaling exponent ($z$) present in the Lifshitz field theory., Comment: v1: 51 pages LaTex, multiple figures, v2: matches with the published version

Published

2024

26. Electrochemical deposition of N-heterocyclic carbene monolayers on metal surfaces

Author

Einav Amit, Linoy Dery, Shahar Dery, Suhong Kim, Anirban Roy, Qichi Hu, Vitaly Gutkin, Helen Eisenberg, Tamar Stein, Daniel Mandler, F. Dean Toste, and Elad Gross

Subjects

Science

Abstract

N-heterocyclic carbenes (NHCs) have been widely used for the formation of monolayers but self-assembly methods come with drawbacks such as need for dry environment or using specifically-synthesized precursors. Here, the authors demonstrate an approach for surface-anchoring of NHCs which overcomes these limitations by using electrochemically-assisted deprotonation.

Published

2020

27. TAK1 preserves skeletal muscle mass and mitochondrial function through redox homeostasis

Author

Anirban Roy, Aditya K. Sharma, Kushal Nellore, Vihang A Narkar, and Ashok Kumar

Subjects

autophagy, cachexia, signaling, skeletal muscle wasting, TAK1, ubiquitin‐proteasome system, Biology (General), QH301-705.5

Abstract

Abstract Skeletal muscle atrophy is debilitating consequence of a large number of chronic disease states, aging, and disuse conditions. Skeletal muscle mass is regulated through coordinated activation of a number of signaling cascades. Transforming growth factor‐β activated kinase 1 (TAK1) is a central kinase that mediates the activation of multiple signaling pathways in response to various growth factors, cytokines, and microbial products. Accumulating evidence suggests that TAK1 promotes skeletal muscle growth and essential for the maintenance of muscle mass in adults. Targeted inactivation of TAK1 leads to severe muscle wasting and kyphosis in mice. However, the mechanisms by which TAK1 prevents loss of muscle mass remain poorly understood. Through generation of inducible skeletal muscle‐specific Tak1‐knockout mice, we demonstrate that targeted ablation of TAK1 disrupts redox signaling leading to the accumulation of reactive oxygen species and loss of skeletal muscle mass and contractile function. Suppression of oxidative stress using Trolox improves muscle contractile function and inhibits the activation of catabolic signaling pathways in Tak1‐deficient muscle. Moreover, Trolox inhibits the activation of ubiquitin‐proteasome system and autophagy markers in skeletal muscle of Tak1‐deficient mice. Furthermore, inhibition of oxidative stress using Trolox prevents the slow‐to‐fast type fiber transition and improves mitochondrial respiration in skeletal muscle of Tak1‐deficient mice. Overall, our results demonstrate that TAK1 maintains skeletal muscle mass and health through redox homeostasis.

Published

2020

28. Contribution to the macromycetes of West Bengal, India: 51–56

Author

Diptosh Das, Entaj Tarafder, Meghma Bera, Anirban Roy, and Krishnendu Acharya

Subjects

ascomycota, fungi, morphology, taxonomy, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract: The West Bengal is a treasure house for macro-fungal diversity due to its varied geo-climatic conditions. Detailed macroscopic and microscopic characterization was made to identify the collected specimens. Altogether six species belonging to the family Xylariaceae (three species), Hypoxylaceae (one species), Ascobolaceae (one species) and Pyronemataceae (one species) were collected from different corners of the state. Literature survey revealed that all of the collected taxa represent their first detailed description and distributional record from the state. A comprehensive macro-morphological description, field photographs along with microscopic observations are provided. The outcome of the present study will enrich data related to the diversity of macrofungi from the state West Bengal.

Published

2020

29. Identification and Functional Analysis of Four RNA Silencing Suppressors in Begomovirus Croton Yellow Vein Mosaic Virus

Author

Ying Zhai, Anirban Roy, Hao Peng, Daniel L. Mullendore, Gurpreet Kaur, Bikash Mandal, Sunil Kumar Mukherjee, and Hanu R. Pappu

Subjects

Begomovirus, croton yellow vein mosaic virus, Geminiviridae, geminiviruses, protein-protein interaction, protein subcellular localization, Plant culture, SB1-1110

Abstract

Croton yellow vein mosaic virus (CYVMV), a species in the genus Begomovirus, is a prolific monopartite begomovirus in the Indian sub-continent. CYVMV infects multiple crop plants to cause leaf curl disease. Plants have developed host RNA silencing mechanisms to defend the threat of viruses, including CYVMV. We characterized four RNA silencing suppressors, namely, V2, C2, and C4 encoded by CYVMV and betasatellite-encoded C1 protein (βC1) encoded by the cognate betasatellite, croton yellow vein betasatellite (CroYVMB). Their silencing suppressor functions were verified by the ability of restoring the β-glucuronidase (GUS) activity suppressed by RNA silencing. We showed here for the first time that V2 was capable of self-interacting, as well as interacting with the V1 protein, and could be translocalized to the plasmodesmata in the presence of CYVMV. The knockout of either V2 or V1 impaired the intercellular mobility of CYVMV, indicating their novel coordinated roles in the cell-to-cell movement of the virus. As pathogenicity determinants, each of V2, C2, and C4 could induce typical leaf curl symptoms in Nicotiana benthamiana plants even under transient expression. Interestingly, the transcripts and proteins of all four suppressors could be detected in the systemically infected leaves with no correlation to symptom induction. Overall, our work identifies four silencing suppressors encoded by CYVMV and its cognate betasatellite and reveals their subcellular localizations, interaction behavior, and roles in symptom induction and intercellular virus movement.

Published

2022

30. LIMpy: A Semianalytic Approach to Simulating Multiline Intensity Maps at Millimeter Wavelengths

Author

Anirban Roy, Dariannette Valentín-Martínez, Kailai Wang, Nicholas Battaglia, and Alexander van Engelen

Subjects

Line intensities, CII region, CO line emission, Galaxy formation, Galaxy evolution, Reionization, Astrophysics, QB460-466

Abstract

Mapping of multiple lines such as the fine-structure emission from [C ii ] (157.7 μ m), [O iii ] (52 and 88.4 μ m), and rotational emission lines from CO are of particular interest for upcoming line intensity mapping (LIM) experiments at millimeter wavelengths, due to their brightness features. Several upcoming experiments aim to cover a broad range of scientific goals, from detecting signatures of the epoch of reionization to the physics of star formation and its role in galaxy evolution. In this paper, we develop a semianalytic approach to modeling line strengths as functions of the star formation rate (SFR) or infrared luminosity based on observations of local and high- z galaxies. This package, LIMpy (Line Intensity Mapping in Python), estimates the intensity and power spectra of [C ii ], [O iii ], and CO rotational transition lines up to the J levels (1–0) to (13–12) based both on analytic formalism and on simulations. We develop a relation among halo mass, SFR, and multiline intensities that permits us to construct a generic formula for the evolution of several line strengths up to z ∼ 10. We implement a variety of star formation models and multiline luminosity relations to estimate the astrophysical uncertainties on the intensity power spectrum of these lines. As a demonstration, we predict the signal-to-noise ratio of [C ii ] detection for an EoR-Spec-like instrument on the Fred Young Submillimeter Telescope. Furthermore, the ability to use any halo catalog allows the LIMpy code to be easily integrated into existing simulation pipelines, providing a flexible tool to study intensity mapping in the context of complex galaxy formation physics.

Published

2023

31. Probing the Circumgalactic Medium with Cosmic Microwave Background Polarization Statistical Anisotropy

Author

Anirban Roy, Alexander van Engelen, Vera Gluscevic, and Nicholas Battaglia

Subjects

Circumgalactic medium, Observational cosmology, Cosmic microwave background radiation, Sunyaev-Zeldovich effect, Galaxy cluster counts, Astrophysics, QB460-466

Abstract

As cosmic microwave background (CMB) photons traverse the universe, anisotropies can be induced via Thomson scattering (proportional to the electron density; optical depth) and inverse Compton scattering (proportional to the electron pressure; thermal Sunyaev–Zel’dovich effect). Measurements of anisotropy in optical depth τ and Compton y parameters are imprinted by the galaxies and galaxy clusters and are thus sensitive to the thermodynamic properties of the circumgalactic medium and intergalactic medium. We use an analytic halo model to predict the power spectrum of the optical depth ( τ τ ), the cross-correlation between the optical depth and the Compton y parameter ( τ y ), and the cross-correlation between the optical depth and galaxy clustering ( τ g ), and compare this model to cosmological simulations. We constrain the optical depths of halos at z ≲ 3 using a technique originally devised to constrain patchy reionization at a higher redshift range. The forecasted signal-to-noise ratio is 2.6, 8.5, and 13, respectively, for a CMB-S4-like experiment and a Vera C. Rubin Observatory–like optical survey. We show that a joint analysis of these probes can constrain the amplitude of the density profiles of halos to 6.5% and the pressure profiles to 13%. These constraints translate to astrophysical parameters, such as the gas mass fraction, f _g , which can be constrained to 5.3% uncertainty at z ∼ 0. The cross-correlations presented here are complementary to other CMB and galaxy cross-correlations since they do not require spectroscopic galaxy redshifts and are another example of how such correlations are a powerful probe of the astrophysics of galaxy evolution.

Published

2023

32. Direct Foliar Application of dsRNA Derived From the Full-Length Gene of NSs of Groundnut Bud Necrosis Virus Limits Virus Accumulation and Symptom Expression

Author

Dipinte Gupta, Oinam Washington Singh, Y. B. Basavaraj, Anirban Roy, Sunil Kumar Mukherjee, and Bikash Mandal

Subjects

groundnut bud necrosis virus, GBNV, tospovirus, dsRNA mediated protection, topical application of dsRNA, NSs gene, Plant culture, SB1-1110

Abstract

Groundnut bud necrosis virus (GBNV) is the most significant member of the genus Orthotospovirus occurring in the Indian subcontinent. There is hardly any effective measure to prevent GBNV in crop plants. In order to develop GBNV infection prevention procedure, we examined the effect of the direct foliar application of double-stranded RNA (dsRNA) derived from the full-length NSs gene (1,320 nucleotides) of GBNV. The bacterially expressed dsRNA to the non-structural (dsNSs) gene of GBNV was purified and delivered to plants as an aqueous suspension containing 0.01% Celite for evaluating its efficacy in preventing GBNV infection in systemic host, Nicotiana benthamiana as well as in local lesion and systemic host, cowpea cv. Pusa Komal (Vigna unguiculata). The dsNSs application and challenge-inoculation were conducted in three different combinations, where plants were challenge-inoculated with GBNV a day after, immediately, and a day before the application of dsNSs. N. benthamiana plants, which were not treated with dsRNA showed severe systemic wilting and death by 9–16 days post-inoculation (dpi). The non-treated cowpea plants exhibited many chlorotic and necrotic lesions on the cotyledonary leaves followed by systemic necrosis and death of the plants by 14–16 dpi. The dsNSs treated plants in all the combinations showed significant reduction of disease severity index in both N. benthamiana and cowpea. The treatment combination where the GBNV inoculation was conducted immediately after the dsNSs treatment was found to be the most effective treatment in preventing symptom expression. The viral RNA analysis by real time PCR also showed 20 and 12.5 fold reduction of GBNV in cowpea and N. benthamiana, respectively. Our results suggest that the foliar application of dsRNA derived from the full-length NSs gene of GBNV through Celite is successful in delivering long dsRNA leading to effective prevention of GBNV infection.

Published

2021

33. Spatio-temporal pattern of change in mangrove populations along the coastal West Bengal, India

Author

Biswajit Mondal, Ashis Kumar Saha, and Anirban Roy

Subjects

Mangroves, Spatio-temporal analysis, Shoreline, Sundarban, Coastal West Bengal, Environmental sciences, GE1-350

Abstract

Mangrove forests in many parts of the world are declining at an alarming rate, which intensifies vulnerability in coastal ecosystems. An area like coastal West Bengal, including the Sundarban delta, where the world's largest mangrove populations have flourished, has a substantial negative impact of anthropogenic pressure since the early 15–16th century. Frequent coastal hazards, sea-level rise, and ever-increasing anthropogenic pressure have complicated the growth and regeneration of mangroves. In this study, an attempt has been made to map the patches of mangrove available in the coastal region of West Bengal along with their spatio-temporal, zonal pattern of change and probable reasons for those changes. The study approaches have been achieved by the analysis of Landsat data using several buffer zones from the coastline during 1989–2018 through geospatial techniques. The result indicates that despite a reduction of mangrove populations in the pre-and post-colonial era, overall mangrove areas have a marginally positive growth of about 0.47% (68.06 sq. km) of the total area during the assessment period. Although the mangrove area along the shoreline is decreasing faster, many new mangrove patches have appeared towards the mainland. Simultaneously, mangrove areas are encroached in the northern periphery of Sundarban Biosphere Reserve to convert them into settlements, agriculture, and aquaculture. This study could help to protect mangrove populations and implement appropriate conservation measures.

Published

2021

34. The IRE1/XBP1 signaling axis promotes skeletal muscle regeneration through a cell non-autonomous mechanism

Author

Anirban Roy, Meiricris Tomaz da Silva, Raksha Bhat, Kyle R Bohnert, Takao Iwawaki, and Ashok Kumar

Subjects

skeletal muscle, regeneration, ER stress, satellite cells, ire1 signaling, XBP1, Medicine, Science, Biology (General), QH301-705.5

Abstract

Skeletal muscle regeneration is regulated by coordinated activation of multiple signaling pathways. The unfolded protein response (UPR) is a major mechanism that detects and alleviates protein-folding stresses in the endoplasmic reticulum. However, the role of individual arms of the UPR in skeletal muscle regeneration remain less understood. In the present study, we demonstrate that IRE1α (also known as ERN1) and its downstream target, XBP1, are activated in skeletal muscle of mice upon injury. Myofiber-specific ablation of IRE1α or XBP1 in mice diminishes skeletal muscle regeneration that is accompanied with reduced number of satellite cells. Ex vivo cultures of myofiber explants demonstrate that ablation of IRE1α reduces the proliferative capacity of myofiber-associated satellite cells. Myofiber-specific ablation of IRE1α dampens Notch signaling and canonical NF-κB pathway in skeletal muscle of adult mice. Finally, targeted ablation of IRE1α also reduces Notch signaling, abundance of satellite cells, and skeletal muscle regeneration in the mdx mice, a model of Duchenne muscular dystrophy. Collectively, our experiments suggest that the IRE1α-mediated signaling promotes muscle regeneration through augmenting the proliferation of satellite cells in a cell non-autonomous manner.

Published

2021

35. Green Synthesis of pH-Responsive, Self-Assembled, Novel Polysaccharide Composite Hydrogel and Its Application in Selective Capture of Cationic/Anionic Dyes

Author

Nandita Srivastava and Anirban Roy Choudhury

Subjects

polysaccharide hydrogel, stimuli-responsive, self-assembled, biodegradable, organic dye removal, Chemistry, QD1-999

Abstract

Dyes are one of the most hazardous chemicals causing significant environmental pollution and affecting water quality. Majority of the existing methods for dye removal and degradation involve synthetic membranes and use of hazardous chemicals, further resulting in secondary pollution. The present study reports polysaccharide based novel composite hydrogel as biodegradable matrix for pH-responsive selective adsorption of cationic/anionic dyes. This membrane showed pH-responsive adsorption of methyl green (MG) and methyl orange (MO) with similar adsorption equilibrium, i.e., 315 and 276 mg g−1, respectively. Interestingly, selective adsorption at different pH has allowed separation of dye mixtures that holds incredible industrial importance for dyes recovery. The hydrogel matrix was able to completely separate MG, a model cationic dye at neutral pH from the dye mixture whereas, it was possible to remove 60% MO, a model anionic dye at acidic pH. Furthermore, comprehensive isothermal and kinetic studies of adsorption revealed that Freundlich isotherm describing the multilayer coverage and pseudo-second-order kinetics were followed. Thermodynamic studies indicated that the adsorption process was spontaneous and endothermic. In fact, the membrane was reusable for at least ten cycles and exhibited desorption efficiency of 80 and 60% for MO and MG, respectively, which may be further recycled to make the process environmentally sustainable. Overall, this study proposes an inexpensive, simple, biologically safe, and efficient adsorbent material for dye effluent treatment.

Published

2021

36. Contribution to the Macromycetes of West Bengal, India: 28–33

Author

Rituparna Saha, Arun Kumar Dutta, Soumitra Paloi, Anirban Roy, and Krishnendu Acharya

Subjects

basidiomycota, ganoderma species, polyporales, taxonomy, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The present paper deals with the report of six poroid woody macro fungi belonging to the family Ganodermataceae from West Bengal in India. The taxonomic account of these collected fungi is represented herein with detailed macro- and micro-morphological features.

Published

2018

37. A perfect PCR based co-dominant marker for low grain-arsenic accumulation genotyping in rice

Author

Dibakar Das, Poulomi Sen, Shampa Purkayastha, Arup Kumar Saha, Anirban Roy, Pooja Rai, Shubhrajyoti Sen, Shoumik Saha, Bijoy Kumar Senapati, Tirthankar Biswas, and Somnath Bhattacharyya

Subjects

OsABCC1, Grain-arsenic, Marker, Aromatic-rice, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

The development of low arsenic-accumulating varieties for the contaminated areas is one of the best options for reducing the dietary exposure of arsenic to human population through rice. In this study, grain-arsenic content in one hundred genotypes revealed a large variation ranging from 0.05 mg/kg to 0.49 mg/kg. Compared to high accumulating variety, Shatabdi, 6–8 times the transcript upregulation of Arsenic sequestering ATP binding cassette C1 type gene (ABCC1), was observed in first internode of low accumulating variety Gobindabhog when 5 mg/kg of arsenite was present in soil. A comparison of the genomic sequence of OsABCC1 identified 8 SNPs between the two genotypes; 5 in introns and 3 silent mutations in exons. We identified a PCR based co-dominant marker targeting an SNP (T/G) between the two genotypes, which clearly distinguished 100 genotypes into low (mean 0.14 mg/kg) and high (mean 0.35 mg/kg) accumulating groups. All aromatic genotypes, either long or small grain, carry the Gobindabhog-type ABCC1 allele and are low accumulators of arsenic. Gobindabhog allele carrying 62 RILs and NILs showed almost 40–50% less As-accumulation in grains relative to 84 RILs and NILs carrying Shatabdi type ABCC1-allele. The marker will be useful in introgression of low accumulating allele of OsABCC1 into high yielding photoperiod insensitive varietal backgrounds more easily and accurately.

Published

2021

38. Substrate-enhanced photothermal nano-imaging of surface polaritons in monolayer graphene

Author

Fabian Menges, Honghua Yang, Samuel Berweger, Anirban Roy, Tao Jiang, and Markus B. Raschke

Subjects

Applied optics. Photonics, TA1501-1820

Abstract

Surface polaritons comprise a wealth of light–matter interactions with deep sub-wavelength scale confinement of electromagnetic modes. However, their nanoscale localized dissipation and thermalization processes are not readily accessible experimentally. Here, we introduce photothermal force microscopy to image surface plasmon polaritons (SPPs) in monolayer graphene through their non-radiative SiO2 substrate dissipation. We demonstrate the real-space SPP imaging via photo-induced atomic force detection, and from comparison with scattering-type scanning near-field optical microscopy imaging attribute the force response to substrate dissipation-enhanced thermal expansion. This work illustrates that nano-optical tip–sample induced dissipative forces facilitate a direct mechanical detection of surface polariton interactions with monolayer sensitivity.

Published

2021

39. Faunipollenites Bharadwaj 1962 and Protohaploxypinus Samoilovich 1953 emend. Morbey 1975: morphologic comparison of oxidized and non- oxidized specimens from India and Brazil, and its taxonomic importance

Author

MERCEDES DI PASQUO, PAULINE S. KAVALI, RODOLFO DINO, MAHESH SHIVANNA, MARY ELIZABETH BERNARDES-DE-OLIVEIRA, and ANIRBAN ROY

Subjects

Faunipollenites, India, morphology, Permian, Protohaploxypinus, taxonomy, Science

Abstract

Abstract Faunipollenites Bharadwaj is considered a junior synonym of Protohaploxypinus Samoilovich emend. Morbey. However, Indian workers claim it is a valid genus due to a poorly defined corpus and absence of folds in distal attachment. In India, a standard method is applied including the oxidization with HNO3 more than 48 hours (+10’ of KOH). We analyze the effects of that treatment on the morphology of pollen grains of both genera in samples from the Permian of India and Brazil. The same samples are also processed with HCl, HF, two hours of HNO3 and 2’ of KOH and slides are mounted after each step. Our analysis reveals that distinct or indistinct central body and presence/absence of folds in distal attachment do not change in contrast to the indistinct central body and mostly absence of folds from samples that underwent a longer period of oxidization (24-48 hours and KOH 10’). The synonymization of Faunipollenites to Protohaploxypinus is confirmed. Species of Faunipollenites are reassigned to the revised species of Protohaploxypinus. The usage of the latter genus and its species in Permian biostratigraphic studies of India will improve Gondwanan correlations and paleobiogeographic reconstructions in future studies.

Published

2021

40. Comparative RNA-Seq analysis unfolds a complex regulatory network imparting yellow mosaic disease resistance in mungbean [Vigna radiata (L.) R. Wilczek].

Author

Uttarayan Dasgupta, Gyan Prakash Mishra, Harsh K Dikshit, Dwijesh C Mishra, Tejas Bosamia, Anirban Roy, Jyotika Bhati, Priti, Muraleedhar Aski, Ranjeet R Kumar, Amit Kumar Singh, Atul Kumar, Subodh K Sinha, Shiksha Chaurasia, Shelly Praveen, and Ramakrishnan M Nair

Subjects

Medicine, Science

Abstract

Yellow Mosaic Disease (YMD) in mungbean [Vigna radiata (L.) R. Wilczek] is one of the most damaging diseases in Asia. In the northern part of India, the YMD is caused by Mungbean Yellow Mosaic India Virus (MYMIV), while in southern India this is caused by Mungbean Yellow Mosaic Virus (MYMV). The molecular mechanism of YMD resistance in mungbean remains largely unknown. In this study, RNA-seq analysis was conducted between a resistant (PMR-1) and a susceptible (Pusa Vishal) mungbean genotype under infected and control conditions to understand the regulatory network operating between mungbean-YMV. Overall, 76.8 million raw reads could be generated in different treatment combinations, while mapping rate per library to the reference genome varied from 86.78% to 93.35%. The resistance to MYMIV showed a very complicated gene network, which begins with the production of general PAMPs (pathogen-associated molecular patterns), then activation of various signaling cascades like kinases, jasmonic acid (JA) and brassinosteroid (BR), and finally the expression of specific genes (like PR-proteins, virus resistance and R-gene proteins) leading to resistance response. The function of WRKY, NAC and MYB transcription factors in imparting the resistance against MYMIV could be established. The string analysis also revealed the role of proteins involved in kinase, viral movement and phytoene synthase activity in imparting YMD resistance. A set of novel stress-related EST-SSRs are also identified from the RNA-Seq data which may be used to find the linked genes/QTLs with the YMD resistance. Also, 11 defence-related transcripts could be validated through quantitative real-time PCR analysis. The identified gene networks have led to an insight about the defence mechanism operating against MYMIV infection in mungbean which will be of immense use to manage the YMD resistance in mungbean.

Published

2021

41. Corrigendum: Yellow Mosaic Disease (YMD) of Mungbean (Vigna radiata (L.) Wilczek): Current Status and Management Opportunities

Author

Gyan P. Mishra, Harsh K. Dikshit, Ramesh S. V., Kuldeep Tripathi, Ranjeet R. Kumar, Muraleedhar Aski, Akanksha Singh, Anirban Roy, Priti, Nikki Kumari, Uttarayan Dasgupta, Atul Kumar, Shelly Praveen, and Ramakrishnan M. Nair

Subjects

begomovirus, gene editing, greengram, pathogen derived resistance, translational genomics, vector management, Plant culture, SB1-1110

Published

2020

42. Yellow Mosaic Disease (YMD) of Mungbean (Vigna radiata (L.) Wilczek): Current Status and Management Opportunities

Author

Gyan P. Mishra, Harsh K. Dikshit, Ramesh S. V., Kuldeep Tripathi, Ranjeet R. Kumar, Muraleedhar Aski, Akanksha Singh, Anirban Roy, Priti, Nikki Kumari, Uttarayan Dasgupta, Atul Kumar, Shelly Praveen, and Ramakrishnan M. Nair

Subjects

begomovirus, gene editing, greengram, pathogen derived resistance, translational genomics, vector management, Plant culture, SB1-1110

Abstract

Globally, yellow mosaic disease (YMD) remains a major constraint of mungbean production, and management of this deadly disease is still the biggest challenge. Thus, finding ways to manage YMD including development of varieties possessing resistance against mungbean yellow mosaic virus (MYMV) and mungbean yellow mosaic India virus (MYMIV) is a research priority for mungbean crop. Characterization of YMD resistance using various advanced molecular and biochemical approaches during plant–virus interactions has unfolded a comprehensive network of pathogen survival, disease severity, and the response of plants to pathogen attack, including mechanisms of YMD resistance in mungbean. The biggest challenge in YMD management is the effective utilization of an array of information gained so far, in an integrated manner for the development of genotypes having durable resistance against yellow mosaic virus (YMV) infection. In this backdrop, this review summarizes the role of various begomoviruses, its genomic components, and vector whiteflies, including cryptic species in the YMD expression. Also, information about the genetics of YMD in both mungbean and blackgram crops is comprehensively presented, as both the species are crossable, and same viral strains are also found affecting these crops. Also, implications of various management strategies including the use of resistance sources, the primary source of inoculums and vector management, wide-hybridization, mutation breeding, marker-assisted selection (MAS), and pathogen-derived resistance (PDR) are thoroughly discussed. Finally, the prospects of employing various powerful emerging tools like translational genomics, and gene editing using CRISPR/Cas9 are also highlighted to complete the YMD management perspective in mungbean.

Published

2020

43. CCAT-prime Collaboration: Science Goals and Forecasts with Prime-Cam on the Fred Young Submillimeter Telescope

Author

CCAT-Prime Collaboration, Manuel Aravena, Jason E. Austermann, Kaustuv Basu, Nicholas Battaglia, Benjamin Beringue, Frank Bertoldi, Frank Bigiel, J. Richard Bond, Patrick C. Breysse, Colton Broughton, Ricardo Bustos, Scott C. Chapman, Maude Charmetant, Steve K. Choi, Dongwoo T. Chung, Susan E. Clark, Nicholas F. Cothard, Abigail T. Crites, Ankur Dev, Kaela Douglas, Cody J. Duell, Rolando Dünner, Haruki Ebina, Jens Erler, Michel Fich, Laura M. Fissel, Simon Foreman, R. G. Freundt, Patricio A. Gallardo, Jiansong Gao, Pablo García, Riccardo Giovanelli, Joseph E. Golec, Christopher E. Groppi, Martha P. Haynes, Douglas Henke, Brandon Hensley, Terry Herter, Ronan Higgins, Renée Hložek, Anthony Huber, Zachary Huber, Johannes Hubmayr, Rebecca Jackson, Douglas Johnstone, Christos Karoumpis, Laura C. Keating, Eiichiro Komatsu, Yaqiong Li, Benjamin Magnelli, Brenda C. Matthews, Philip D. Mauskopf, Jeffrey J. McMahon, P. Daniel Meerburg, Joel Meyers, Vyoma Muralidhara, Norman W. Murray, Michael D. Niemack, Thomas Nikola, Yoko Okada, Roberto Puddu, Dominik A. Riechers, Erik Rosolowsky, Kayla Rossi, Kaja Rotermund, Anirban Roy, Sarah I. Sadavoy, Reinhold Schaaf, Peter Schilke, Douglas Scott, Robert Simon, Adrian K. Sinclair, Gregory R. Sivakoff, Gordon J. Stacey, Amelia M. Stutz, Juergen Stutzki, Mehrnoosh Tahani, Karun Thanjavur, Ralf A. Timmermann, Joel N. Ullom, Alexander van Engelen, Eve M. Vavagiakis, Michael R. Vissers, Jordan D. Wheeler, Simon D. M. White, Yijie Zhu, and Bugao Zou

Subjects

Wide-field telescopes, Astronomical instrumentation, Galaxy evolution, Reionization, Protogalaxies, Time domain astronomy, Astrophysics, QB460-466

Abstract

We present a detailed overview of the science goals and predictions for the Prime-Cam direct-detection camera–spectrometer being constructed by the CCAT-prime collaboration for dedicated use on the Fred Young Submillimeter Telescope (FYST). The FYST is a wide-field, 6 m aperture submillimeter telescope being built (first light in late 2023) by an international consortium of institutions led by Cornell University and sited at more than 5600 m on Cerro Chajnantor in northern Chile. Prime-Cam is one of two instruments planned for FYST and will provide unprecedented spectroscopic and broadband measurement capabilities to address important astrophysical questions ranging from Big Bang cosmology through reionization and the formation of the first galaxies to star formation within our own Milky Way. Prime-Cam on the FYST will have a mapping speed that is over 10 times greater than existing and near-term facilities for high-redshift science and broadband polarimetric imaging at frequencies above 300 GHz. We describe details of the science program enabled by this system and our preliminary survey strategies.

Published

2022

44. Contribution to the Macromycetes of West Bengal, India: 23–27

Author

Meghma Bera, Soumitra Paloi, Arun Kumar Dutta, Prakash Pradhan, Anirban Roy, and Krishnendu Acharya

Subjects

heterobasidiomycetes, jelly fungi, taxonomy, west bengal., Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The present article reports five heterobasidiomycetous taxa, viz., Dacryopinax spathularia (Dacrymycetaceae), Exidia glandulosa, Pseudohydnum gelatinosum (Exidiaceae), Tremella fuciformis, and T. mesenterica (Tremellaceae), based on collections made from West Bengal, India, with their morpho-anatomical details. Dacryopinax spathularia is reported from Odisha and Uttar Pradesh while Tremella fuciformis and T. mesenterica are reported from Chhattisgarh.

Published

2018

45. Illness experience and help-seeking behaviors among patients with common mental disorders in a hospital in North 24 Parganas District, West Bengal, India

Author

Dilip Kumar Biswas, Prabhdeep Kaur, and Anirban Roy

Subjects

Common mental disorders, help-seeking, India, Psychiatry, RC435-571

Abstract

Background: Common mental disorders (CMDs) are the most frequently encountered mental health problems. A relevant cultural formulation requires consideration of how such patients understand their illness and the kind of help they prefer. We aimed to clarify patient's priority symptoms, perceived causes (PCs), and help-seeking (HS) behavior for CMDs in a psychiatry outpatient clinic in West Bengal, India. Methods: We conducted a cross-sectional survey of consecutive patients with clinically confirmed depression, anxiety, or somatoform disorders in a psychiatry outpatient department in a hospital in North 24 Parganas district. An explanatory model interview based on the Explanatory Model Interview Catalogue was used to assess qualitative and quantitative data regarding sociodemographic characteristics, pattern of distresses, PCs, and HS experience. Results: Among 124 patients, 69% were women, mean age 34.5 years. Half of the patients had monthly income less than USD 32, and 22% were illiterate. Clinically, 42% had depression, 32% somatoform disorder, 10% anxiety, and 17% mixed disorders. Most common symptoms were headache (93%), disturbed sleep (93%) and anxiety or tension (92%). Most common PCs were psychological (96%), family problems (64%), and physical injury (42%). The preferred first providers were private allopathic doctors (50%), traditional healers (28%), and public sector doctors (22%). Conclusions: Clinicians need to recognize both physical and psychological presentations of CMDs. Brief clinical assessment only for pharmacotherapy may be inadequate to address the underlying psychological impact of social and financial causes, which require clinical attention to issues associated with poverty, family, and community.

Published

2018

46. In-vivo & in-vitro toxicity test of molecularly engineered PCMS: A potential drug for wireless remote controlled treatment

Author

Subrata Ghosh, Anirban Roy, Anup Singhania, Somnath Chatterjee, Snehasikta Swarnakar, Daisuke Fujita, and Anirban Bandyopadhyay

Subjects

Toxicology. Poisons, RA1190-1270

Abstract

PC, PCM, PCS, and PCMS are our designed & synthesized ∼8 nm PAMAM dendrimer (P) -based organic supramolecular systems, for example, PCMS has 32 molecular motors (M), 4 pH sensors (S) and 2 multi-level molecular electronic switches (C). We have reported earlier following a preliminary in-vitro test that the synthesized PCMS can selectively target cancer cell nucleotides if triggered wirelessly by an electromagnetic pulse. Here to further verify its drug potential, we have studied the preliminary efficacy, toxicity, and pharmacokinetics of P derivatives (PC, PCM, PCMS) in-vivo and in-vitro. We used ethanol-induced gastric inflammation model and cultured human gastric epithelial cells AGS to examine to the toxicity of PAMAM dendrimers cell permeability and toxicity, in (a) the cultured human gastric epithelium cells (AGS), and in (b) the gastric ulcer mice model. Here we report that the toxicity of PAMAM dendrimer (>G3.5) P can be reduced by adding C, M and S. Gastric ulcer is the primary stage of the manifestation of acute inflammation, even gastric epithelial cancer. Ethanol causes ulceration (ulcer index 30), thus upregulates both pro and active MMP-9. A 50 μl PCMS dose prior to ethanol administration reduces ulceration by ∼80% and downregulates MMP-9 and prevents oxidative damages of gastric tissue by ECM remodeling. Alcohol's inflammation of mouse stomach causes up-regulation of both pro and active MMP-9, resulting in oxidative damages of gastric tissue by ECM remodeling. PCMS in particular dose window reverses & alters ECM remodeling, thus, neutralizing alcohol-induced inflammation & generation of ROS. Keywords: Nonchemical drug, Dendrimer toxicity, Gastric ulcer, Matrix metalloproteinase, Inflammation

Published

2018

47. Understanding the Effect of Impeller Configurations on Pullulan Production by Aureobasidium Pullulans RBF 4A3

Author

Bhupender Kumar, Anjula Katoch, Gandham S. Prasad, and Anirban Roy Choudhury

Subjects

mass transfer, pullulan, impeller, Aureobasidium pullulans, exopolysaccharide, Biotechnology, TP248.13-248.65

Abstract

Mass transfer is one of the most important factors involved in viscous fermentation processes, like production of pullulan. Impellers play a crucial role in maintaining homogeneity and better mass transfer conditions during the fermentation process. The present study attempted to evaluate the efficiency of impellers with diverse configurations during pullulan fermentation. Initially, the mass transfer coefficients of 10 selected impellers were evaluated in an aqueous system. Among these, three impellers, namely, single helical ribbon, Rushton turbine, and Smith turbine impellers, were found to be more efficient and were further employed in the pullulan fermentation process. The results suggested that the single helical ribbon impeller was able to provide 24% higher pullulan production as compared to the Rushton turbine and Smith turbine impellers. The single helical ribbon was able to maintain the critical demand of dissolved oxygen in fermentation broth. Therefore, it may be commented that the single helical ribbon impeller configuration is suitable for higher production of pullulan during the fermentation process.

Published

2019

48. The air quality and health impacts of projected long-haul truck and rail freight transportation in the United States in 2050

Author

Shuai Pan, Anirban Roy, Yunsoo Choi, ShiQuan Sun, and H. Oliver Gao

Subjects

Environmental sciences, GE1-350

Abstract

Diesel emissions from freight transportation activities are a key threat to public health. This study examined the air quality and public health impacts of projected freight-related emissions in 2050 over the continental United States. Three emission scenarios were considered: (1) a projected business-as-usual socioeconomic growth with freight fleet turnover and stringent emission control (CTR); (2) the application of a carbon pricing climate policy (PO); and (3) further technology improvements to eliminate high-emitting conditions in the truck fleet (NS). The PO and NS cases are superimposed on the CTR case. Using a WRF-SMOKE-CMAQ-BenMAP modeling framework, we quantified the impacts of diesel fine particulate matter (PM2.5) emissions change on air quality, health, and economic benefits. In the CTR case, we simulate a widespread reduction of PM2.5 concentrations, between 0.5 and 1.5 μg m−3, comparing to a base year of 2011. This translates into health benefits of 3600 (95% CI: 2400–4800) prevented premature deaths, corresponding to $38 (95% CI: $3.5–$100) billion. Compared to CTR case, the PO case can obtain ~9% more health benefits nationally, however, climate policy also affects the health outcomes regionally due to transition of demand from truck to rail; regions with fewer trucks could gain in health benefits, while regions with added rail freight may potentially experience a loss in health benefits due to air quality degradation. The NS case provides substantial additional benefits (~20%). These results support that a combination of continuous adoption of stringent emission standards and strong improvements in vehicle technology are necessary, as well as rewarding, to meet the sustainable freight and community health goals. States and metropolitan areas with high population density and usually high freight demand and emissions can take more immediate actions, such as accelerating vehicle technology improvements and removing high-emitting trucks, to improve air quality and health benefits. Keywords: Freight transportation, Diesel emissions, Air quality, Public health, Particulate matter

Published

2019

49. Multiplexed editing of a begomovirus genome restricts escape mutant formation and disease development.

Author

Anirban Roy, Ying Zhai, Jessica Ortiz, Michael Neff, Bikash Mandal, Sunil Kumar Mukherjee, and Hanu R Pappu

Subjects

Medicine, Science

Abstract

Whitefly-transmitted begomoviruses cause serious damage to many economically important food, feed, and fiber crops. Numerous vegetable crops are severely affected and chilli leaf curl virus (ChiLCV) is the most dominant and widely distributed begomovirus in chilli (Capsicum annuum) throughout the Indian subcontinent. Recently, CRISPR-Cas9 technology was used as a means to reduce geminivirus replication in infected plants. However, this approach was shown to have certain limitations such as the evolution of escape mutants. In this study, we used a novel, multiplexed guide RNA (gRNA) based CRISPR-Cas9 approach that targets the viral genome at two or more sites simultaneously. This tactic was effective in eliminating the ChiLCV genome without recurrence of functional escape mutants. Six individual gRNA spacer sequences were designed from the ChiLCV genome and in vitro assays confirmed the cleavage behaviour of these spacer sequences. Multiplexed gRNA expression clones, based on combinations of the above-mentioned spacer sequences, were developed. A total of nine-duplex and two-triplex CRISPR-Cas9 constructs were made. The efficacy of these constructs was tested for inhibition of ChiLCV infection in Nicotiana benthamiana. Results indicated that all the constructs caused a significant reduction in viral DNA accumulation. In particular, three constructs (gRNA5+4, gRNA5+2 and gRNA1+2) were most effective in reducing the viral titer and symptoms. T7E1 assay and sequencing of the targeted viral genome did not detect any escape mutants. The multiplexed genome-editing technique could be an effective way to trigger a high level of resistance against begemoviruses. To our knowledge, this is the first report of demonstrating the effectiveness of a multiplexed gRNA-based plant virus genome editing to minimize and eliminate escape mutant formation.

Published

2019

50. Drought and Heat Stress in Cool-Season Food Legumes in Sub-Tropical Regions: Consequences, Adaptation, and Mitigation Strategies

Author

Venugopalan Visha Kumari, Anirban Roy, Roshni Vijayan, Purabi Banerjee, Vivek Chandra Verma, Arpita Nalia, Madhusri Pramanik, Bishal Mukherjee, Ananya Ghosh, Md. Hasim Reja, Malamal Alickal Sarath Chandran, Rajib Nath, Milan Skalicky, Marian Brestic, and Akbar Hossain

Subjects

heat stress, drought stress, legumes, adaptation, mitigation strategies, Botany, QK1-989

Abstract

Drought and heat stress are two major abiotic stresses that challenge the sustainability of agriculture to a larger extend. The changing and unpredictable climate further aggravates the efforts made by researchers as well as farmers. The stresses during the terminal stage of cool-season food legumes may affect numerous physiological and biochemical reactions that may result in poor yield. The plants possess a good number of adaptative and avoiding mechanisms to sustain the adverse situation. The various agronomic and breeding approaches may help in stress-induced alteration. The physiological and biochemical response of crops to any adverse situation is very important to understand to develop mechanisms and approaches for tolerance in plants. Agronomic approaches like altering the planting time, seed priming, foliar application of various macro and micro nutrients, and the application of rhizobacteria may help in mitigating the adverse effect of heat and drought stress to some extent. Breeding approaches like trait-based selection, inheritance studies of marker-based selection, genetic approaches using the transcriptome and metabolome may further pave the way to select and develop crops with better heat and drought stress adaptation and mitigation.

Published

2021