Your search keyword '"Singh, Vijay Pratap"' showing total 94 results

1. Role of TIR1/AFB family genes during grafting in Carya cathayensis.

Author

Mei, Jiaqi, Tang, Xiaoyu, Gu, Yujie, Lu, Huijie, Yang, Ying, Shen, Qinyuan, Yang, Lingwei, Li, Bei, Zuo, Jianfang, Singh, Vijay Pratap, Sharma, Anket, Yuan, Huwei, and Zheng, Bingsong

Abstract

Auxins play significant roles in plant growth and development. The transporter inhibitor response1/auxin signaling F-box (TIR1/AFB) gene family encodes the auxin receptor proteins and plays an essential role in the auxin signaling pathway. Here we identified and characterized the TIR1/AFB family in Carya cathayensis (Cc) plants (named as CcTIR1/AFB). Seven CcTIR1/AFBs were identified and further confirmed by cloning. All proteins encoded by these genes conservatively contained two domains, the F-box and leucine-rich repeat (LRR) domains. The CcTIR1/AFBs were located in the nucleus. Phylogenetic analysis suggested that CcTIR1/AFBs were evenly scattered in four different subgroups. The cis-acting element analysis indicates that CcTIR1/AFBs might be activated by auxin. The spatial and temporal expression of CcTIR1/AFBs during grafting suggested that both CcAFB1 and CcAFB2 in scions and CcAFB4 in the rootstocks were significantly upregulated at 3 days after grafting, which indicated the specialization of three CcAFBs during grafting. The Y2H assay indicated that three CcAFBs were capable of interacting with CcIAA16, CcIAA27b, and CcIAA29a, among which CcAFB4 interacted strongly with CcIAA1 and CcIAA16. Our study provides the opportunity to understand the potential role of not only CcTIR1/AFBs but also special CcAFBs (CcAFB1 , CcAFB2 , and CcAFB4), which is a great aspect to further explore the molecular mechanism during the grafting process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microstructural Analysis and Mechanical Characteristics of Multi-layered Al-Alloy 5052 Fabricated by Accumulative Roll Bonding.

Author

Singh, Vijay Pratap, Gupta, Gaurav Kumar, and Mishra, Srinibash

Published

2024

3. Resecting Lower Segment Inferior Vena Cava Leiomyosarcoma With Middle Segment Extension While Avoiding Renal Morbidity.

Author

Kushwaha, Naveen Kumar, Jaiswal, Pradeep, Singh, Vijay Pratap, and Dhaman, Pawan Kumar

Subjects

INFERIOR vena cava surgery, VENA cava inferior, BIOPSY, RETROPERITONEUM, LEIOMYOSARCOMA, COMPUTED tomography, ABDOMINAL surgery, NEPHRECTOMY, TREATMENT effectiveness, FEVER, ULTRASONIC imaging, MAGNETIC resonance imaging, POSITRON emission tomography, DISEASES, MUSCLE weakness, VENOGRAPHY, INTRAOPERATIVE monitoring, QUALITY of life, KIDNEY diseases, THROMBECTOMY, PLASTIC surgery, ABDOMINAL radiography

Abstract

Primary leiomyosarcoma of the inferior vena cava (IVC) is a rare and aggressive mesenchymal tumor, with less than 400 reported cases to date. Complete resection of the tumor with clear margins is the only proven curative treatment, providing survival benefits. Nonetheless, leiomyosarcomas in the middle segment or those extending up to it within the inferior vena cava (IVC) frequently necessitate renal reimplantation or nephrectomy, with rates varying between 56% and 75%. In this case report, we present a 65-year-old female with lower segment IVC leiomyosarcoma with middle segment extension, successfully resected and reconstructed while avoiding associated renal reimplantation or nephrectomy morbidity. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Rapid Method for Obtaining the Transgenic Roots of Crassulaceae Plants.

Author

Zhou, Lan, Yang, Yulu, Sharma, Anket, Singh, Vijay Pratap, Tripathi, Durgesh Kumar, Ding, Wona, Rao, Muhammad Junaid, Zheng, Bingsong, and Wang, Xiaofei

Subjects

GENETIC transformation, CRASSULACEAE, REPORTER genes, KALANCHOE, SEDUM

Abstract

Crassulaceae plants are valued for their horticultural, ecological, and economic significance, but their genetic improvement is hindered by the absence of efficient and stable genetic transformation methods. Therefore, the development of a tailored genetic transformation method is crucial for enhancing the progress of the genetic improvement of Crassulaceae plants. The results indicate that, in the transformation experiments conducted on Kalanchoe tetraphylla, the K599 strain exhibited the highest transformation efficiency (76.67%), while C58C1 was least efficient (21.43%). An acetosyringone concentration of 100 μM was optimal for the hairy root transformation, and the immersion method yielded the highest efficiency. Additionally, the Silwet L-77 concentration significantly influenced the transformation efficiency, with 0.05% leading to a decrease. Upon four Crassulaceae species, notable differences were observed, with K. tetraphylla exhibiting the highest efficiency of 100%, and Sedum alfredii displaying the lowest efficiency of 5%. The RUBY reporter gene offers a more distinct advantage over GFP in observing the transformation effects. This study developed a simple, feasible, and cost-effective method for obtaining transgenic roots from leaves of Crassulaceae. The methodology provides technical support for the genetic improvement and gene function research of Crassulaceae plants. [ABSTRACT FROM AUTHOR]

Published

2024

5. Linking DNA damage and senescence to gestation period and lifespan in placental mammals.

Author

Singh, Vijay Pratap and Singh, Pushpendra

Subjects

DNA damage, PARTURITION, AGING, PREGNANCY, DECIDUA

Abstract

The mechanism that synchronizes the timing of parturition remains a mystery. Each mammalian species has a specific duration of gestation that is determined by integrated interactions among the mother, placenta, and fetus. Senescence is primarily driven by DNA damage and is one of the critical factors influencing both parturition and lifespan. In this study, we investigated senescence as a physiological process during pregnancy and observed a gradual physiological increase in senescence in the maternal decidua and placental cells with gestation. This increase in senescence was associated with a gradual physiological increase in DNA damage during gestation. An analysis of the AnAge dataset revealed a positive correlation between the gestation period and maximum lifespan across 740 mammalian species. This finding supports the hypothesis that the rates of DNA damage and senescence may impact both the gestation period and lifespan. We suggest that the relationship between gestation period and lifespan in mammals is mediated by species-specific rates of DNA damage and senescence, necessitating further explorations into their causal roles. [ABSTRACT FROM AUTHOR]

Published

2024

6. Linking DNA damage and senescence to gestation period and lifespan in placental mammals.

Author

Singh, Vijay Pratap and Singh, Pushpendra

Subjects

DNA damage, PARTURITION, AGING, PREGNANCY, DECIDUA

Abstract

The mechanism that synchronizes the timing of parturition remains a mystery. Each mammalian species has a specific duration of gestation that is determined by integrated interactions among the mother, placenta, and fetus. Senescence is primarily driven by DNA damage and is one of the critical factors influencing both parturition and lifespan. In this study, we investigated senescence as a physiological process during pregnancy and observed a gradual physiological increase in senescence in the maternal decidua and placental cells with gestation. This increase in senescence was associated with a gradual physiological increase in DNA damage during gestation. An analysis of the AnAge dataset revealed a positive correlation between the gestation period and maximum lifespan across 740 mammalian species. This finding supports the hypothesis that the rates of DNA damage and senescence may impact both the gestation period and lifespan. We suggest that the relationship between gestation period and lifespan in mammals is mediated by species-specific rates of DNA damage and senescence, necessitating further explorations into their causal roles. [ABSTRACT FROM AUTHOR]

Published

2024

7. Linking DNA damage and senescence to gestation period and lifespan in placental mammals.

Author

Singh, Vijay Pratap and Singh, Pushpendra

Subjects

DNA damage, PARTURITION, AGING, PREGNANCY, DECIDUA

Abstract

The mechanism that synchronizes the timing of parturition remains a mystery. Each mammalian species has a specific duration of gestation that is determined by integrated interactions among the mother, placenta, and fetus. Senescence is primarily driven by DNA damage and is one of the critical factors influencing both parturition and lifespan. In this study, we investigated senescence as a physiological process during pregnancy and observed a gradual physiological increase in senescence in the maternal decidua and placental cells with gestation. This increase in senescence was associated with a gradual physiological increase in DNA damage during gestation. An analysis of the AnAge dataset revealed a positive correlation between the gestation period and maximum lifespan across 740 mammalian species. This finding supports the hypothesis that the rates of DNA damage and senescence may impact both the gestation period and lifespan. We suggest that the relationship between gestation period and lifespan in mammals is mediated by species-specific rates of DNA damage and senescence, necessitating further explorations into their causal roles. [ABSTRACT FROM AUTHOR]

Published

2024

8. Synergetic anaerobic digestion of food waste for enhanced production of biogas and value-added products: strategies, challenges, and techno-economic analysis.

Author

Sharma, Pooja, Parakh, Sheetal Kishor, Tsui, To Hung, Bano, Ambreen, Singh, Surendra Pratap, Singh, Vijay Pratap, Lam, Su Shiung, Nadda, Ashok Kumar, and Tong, Yen Wah

Subjects

DIGESTER gas, WASTE recycling, POWER resources, FOOD waste, ORGANIC wastes, BIOGAS production

Abstract

The generation of food waste (FW) is increasing at an alarming rate, contributing to a total of 32% of all the waste produced globally. Anaerobic digestion (AD) is an effective method for dealing with organic wastes of various compositions, like FW. Waste valorization into value-added products has increased due to the conversion of FW into biogas using AD technology. A variety of pathways are adopted by microbes to avoid unfavorable conditions in AD, including competition between sulfate-reducing bacteria and methane (CH4)-forming bacteria. Anaerobic bacteria decompose organic matter to produce biogas, a digester gas. The composition depends on the type of raw material and the method by which the digestion process is conducted. Studies have shown that the biogas produced by AD contains 65–75% CH4 and 35–45% carbon dioxide (CO2). Methanothrix soehngenii and Methanosaeta concilii are examples of species that convert acetate to CH4 and CO2. Methanobacterium bryantii, Methanobacterium thermoautotrophicum, and Methanobrevibacter arboriphilus are examples of species that produce CH4 from hydrogen and CO2. Methanobacterium formicicum, Methanobrevibacter smithii, and Methanococcus voltae are examples of species that consume formate, hydrogen, and CO2 and produce CH4. The popularity of AD has increased for the development of biorefinery because it is seen as a more environmentally acceptable alternative in comparison to physico-chemical techniques for resource and energy recovery. The review examines the possibility of using accessible FW to produce important value-added products such as organic acids (acetate/butyrate), biopolymers, and other essential value-added products. Population growth globally increases the generation of FW. FW generation, recycling, and reuse have been discussed. Biogas and bio-fertilizers can be recovered from FW through AD. [ABSTRACT FROM AUTHOR]

Published

2024

9. Redox Regulation by Priming Agents Toward a Sustainable Agriculture.

Author

Tripathi, Durgesh Kumar, Bhat, Javaid Akhter, Antoniou, Chrystalla, Kandhol, Nidhi, Singh, Vijay Pratap, Fernie, Alisdair R, and Fotopoulos, Vasileios

Subjects

PLANT growth regulation, SUSTAINABILITY, SUSTAINABLE agriculture, SESSILE organisms, CLIMATE change

Abstract

Plants are sessile organisms that are often subjected to a multitude of environmental stresses, with the occurrence of these events being further intensified by global climate change. Crop species therefore require specific adaptations to tolerate climatic variability for sustainable food production. Plant stress results in excess accumulation of reactive oxygen species leading to oxidative stress and loss of cellular redox balance in the plant cells. Moreover, enhancement of cellular oxidation as well as oxidative signals has been recently recognized as crucial players in plant growth regulation under stress conditions. Multiple roles of redox regulation in crop production have been well documented, and major emphasis has focused on key redox-regulated proteins and non-protein molecules, such as NAD(P)H, glutathione, peroxiredoxins, glutaredoxins, ascorbate, thioredoxins and reduced ferredoxin. These have been widely implicated in the regulation of (epi)genetic factors modulating growth and health of crop plants, with an agricultural context. In this regard, priming with the employment of chemical and biological agents has emerged as a fascinating approach to improve plant tolerance against various abiotic and biotic stressors. Priming in plants is a physiological process, where prior exposure to specific stressors induces a state of heightened alertness, enabling a more rapid and effective defense response upon subsequent encounters with similar challenges. Priming is reported to play a crucial role in the modulation of cellular redox homeostasis, maximizing crop productivity under stress conditions and thus achieving yield security. By taking this into consideration, the present review is an up-to-date critical evaluation of promising plant priming technologies and their role in the regulation of redox components toward enhanced plant adaptations to extreme unfavorable environmental conditions. The challenges and opportunities of plant priming are discussed, with an aim of encouraging future research in this field toward effective application of priming in stress management in crops including horticultural species. [ABSTRACT FROM AUTHOR]

Published

2024

10. Silicon regulates phosphate deficiency through involvement of auxin and nitric oxide in barley roots.

Author

Kandhol, Nidhi, Rai, Padmaja, Mishra, Vipul, Pandey, Sangeeta, Kumar, Santosh, Deshmukh, Rupesh, Sharma, Shivesh, Singh, Vijay Pratap, and Tripathi, Durgesh Kumar

Abstract

Main conclusion: Silicon application mitigates phosphate deficiency in barley through an interplay with auxin and nitric oxide, enhancing growth, photosynthesis, and redox balance, highlighting the potential of silicon as a fertilizer for overcoming nutritional stresses. Silicon (Si) is reported to attenuate nutritional stresses in plants, but studies on the effect of Si application to plants grown under phosphate (Pi) deficiency are still very scarce, especially in barley. Therefore, the present work was undertaken to investigate the potential role of Si in mitigating the adverse impacts of Pi deficiency in barley Hordeum vulgare L. (var. BH902). Further, the involvement of two key regulatory signaling molecules––auxin and nitric oxide (NO)––in Si-induced tolerance against Pi deficiency in barley was tested. Morphological attributes, photosynthetic parameters, oxidative stress markers (O2·−, H2O2, and MDA), antioxidant system (enzymatic––APX, CAT, SOD, GR, DHAR, MDHAR as well as non-enzymatic––AsA and GSH), NO content, and proline metabolism were the key traits that were assessed under different treatments. The P deficiency distinctly declined growth of barley seedlings, which was due to enhancement in oxidative stress leading to inhibition of photosynthesis. These results were also in parallel with an enhancement in antioxidant activity, particularly SOD and CAT, and endogenous proline level and its biosynthetic enzyme (P5CS). The addition of Si exhibited beneficial effects on barley plants grown in Pi-deficient medium as reflected in increased growth, photosynthetic activity, and redox balance through the regulation of antioxidant machinery particularly ascorbate–glutathione cycle. We noticed that auxin and NO were also found to be independently participating in Si-mediated improvement of growth and other parameters in barley roots under Pi deficiency. Data of gene expression analysis for PHOSPHATE TRANSPORTER1 (HvPHT1) indicate that Si helps in increasing Pi uptake as per the need of Pi-deficient barley seedlings, and also auxin and NO both appear to help Si in accomplishing this task probably by inducing lateral root formation. These results are suggestive of possible application of Si as a fertilizer to correct the negative effects of nutritional stresses in plants. Further research at genetic level to understand Si-induced mechanisms for mitigating Pi deficiency can be helpful in the development of new varieties with improved tolerance against Pi deficiency, especially for cultivation in areas with Pi-deficient soils. [ABSTRACT FROM AUTHOR]

Published

2024

11. Knowledge, Attitude, and Practice of Physiotherapists about Cardiac Rehabilitation Program Adherence among Patients Discharged from the Hospital after Cardiac Surgery in India.

Author

Gondekar, Ayman, Singh, Vijay Pratap, Rajan Samuel, Stephen, Raghavan, Harish, Khandelwal, Bidita, and Kumar, K. Vijaya

Subjects

HOSPITAL admission & discharge, PATIENT compliance, CARDIAC rehabilitation, CARDIAC surgery, PHYSICAL therapists

Abstract

Background. In most settings, patients receive phase 1 cardiac rehabilitation in CTVS ICU at the hospital, but there are several barriers to follow-up after patients are discharged from the hospital. Physiotherapists play an important role in the enrolment and continuation of cardiac rehabilitation. Thus, we aim to study the knowledge, attitude, and practice of physiotherapists about CR program adherence among patients discharged from the hospital after cardiac surgery. Objectives. (i) To study the knowledge of physiotherapists about the importance of cardiac rehabilitation after discharge; (ii) to know the attitude of physiotherapists towards cardiac surgery patients after discharge; and (iii) to know what approach various centres are applying for patients after discharge to ensure adherence to cardiac rehabilitation. Methods. A questionnaire was developed with reference to the objectives of the study, which was answered by a total of 127 physiotherapists. Results. The overall response rate was 42.3%; nearly 35.4% of the participants indicated that they knew a lot about CR, while 5.5% said they knew very little. Regarding the program's content, 36.2% of participants reported having a medium degree of awareness of the diverse CR components, while 8.6% reported having very little knowledge of them. Only about one-third, 35.7% stated that CR in India is effective and 95% believed that CR will have an added value for the country. Approximately 80% of respondents thought that it would be challenging for a physiotherapist to recommend patients to a CR in the nation. Nearly 35% of respondents believed that they, "themselves as physios," needed to commence CR, and slightly less than 70% thought that doctors were required to choose and refer the patients when asked who should take the initiative to start this kind of programme in the country. A little over 40% of respondents said that insurance firms are also involved in starting a CR programme. Conclusion. Physiotherapists have good knowledge of cardiac rehabilitation. However, their attitude and practice towards adherence to exercise protocols are confounded by various clinician- and patient-level factors. [ABSTRACT FROM AUTHOR]

Published

2024

12. Incidentally Detected Pancreatic Tail Neuroendocrine Tumor Coexisting with a Right Adrenal Interaortocaval Pheochromocytoma in the Absence of Familial Syndrome.

Author

Kushwaha, Naveen Kumar, Singh, Vijay Pratap, Gupta, Prashant, and Mishra, Niharika

Subjects

ULTRASONIC imaging of the abdomen, BIOPSY, PHYSICAL diagnosis, ANTICOAGULANTS, HYPERTENSION, COMPUTED tomography, PANCREATIC tumors, AORTA, NEUROENDOCRINE tumors, COMORBIDITY, PHEOCHROMOCYTOMA, GENETIC testing, HEALTH care teams

Abstract

Synchronous occurrence of tumors in adrenal gland and pancreas is rare and is often considered as part of multiple endocrine neoplasia syndromes mainly VHL syndrome. Both pheochromocytomas and pancreatic NETs mostly occur sporadically and a small percentage are familial. We report a rare case of coexisting right adrenal interaortocaval pheochromocytoma and pancreatic neuroendocrine tumor in the absence of any familial syndrome in a 38-year-old gentleman. On evaluation for raised blood pressure, he was detected with abdominal lump on ultrasonography in December 2021. CECT abdomen showed a large well-circumscribed lobulated retroperitoneal mass epicentered in aortocaval groove compressing and displacing left renal vein with infrahepatic IVC thrombus suggestive of retroperitoneal sarcoma. Outside biopsy was suggestive of paraganglioma with raised 24-h urine metanephrines. Genetic workup with OncoPro hereditary cancer risk 98 gene panel revealed only VUS in POLD1 and PMS2 genes. DOTANOC scan showed a lobulated mass lesion 8 × 7.8 × 9.1 cm (SUVmax: 13.3) in retroperitoneal region and a SSTR expressing lesion of 1.8 × 1.5 cm (SUVmax: 52.7) in tail of pancreas not detectable on CECT scan. He was optimized preoperatively with alpha and beta blockers followed by excision of the interaortocaval mass and enucleation of the pancreatic tail NET with uneventful recovery. Histopathological examination showed right adrenal interaortocaval pheochromocytoma with pancreatic tail NET. This case shows that small neuroendocrine tumors may co-exist away from the primary site of pheochromocytoma in the absence of familial syndrome and may be missed on routine CT scan. Thus, further detailed investigation should be done to find and treat both lesions optimally in a multidisciplinary setting with surgery being the mainstay of treatment. [ABSTRACT FROM AUTHOR]

Published

2024

13. Epigenetics governs senescence.

Author

Kushwaha, Ajayraj, Mishra, Vipul, Tripathi, Durgesh Kumar, Gupta, Ravi, and Singh, Vijay Pratap

Subjects

AGING, EPIGENETICS, GENETIC regulation, TREHALOSE, MANNITOL, TRANSCRIPTION factors, POLLINATORS, INOSITOL

Abstract

Petal is one of the most esthetic and essential parts of a flower that fascinates the pollinators to enhance pollination. Petal senescence is a highly controlled and organized natural phenomenon assisted by phytohormones and gene regulation. It is an inelastically programmed event preceding to which petals give rise to color and scent that captivate pollinators, representing a flower's maturity for sexual reproduction. Till today, many genes involved in the petal senescence through genetic as well as epigenetic changes in response to hormones have been identified. In most of the species, petal senescence is controlled by ethylene, whereas others are independent of this hormone. It has also been proved that the increase in the carbohydrate contents like mannitol, inositol and trehalose delayed the senescence in tulips and Gladiolus. An increased sugar content prevents the biosynthesis of EIN3-like mRNA and further upregulates several senescence correlated genes. A wide range of different transcription factors as well as regulators are disparately expressed in ethylene insensitive and ethylene sensitive petal senescence. DcHB30, a downregulating factor, which upon linking physically to DcWRKY75 leads to the upregulation of ethylene promoting petal senescence. Here we describe the role of ethylene in petal senescence through epigenetic changes. Studies show that ethylene causes petal senescence through epigenetic changes. Feng et al. (Plant Physiol 192:546–564, 2023) observed that ARABIDOPSIS HOMOLOG OF TRITHORAX1 (DcATX1) promotes trimethylation of histone 3 (H3) at 4th lysine (H3K4me3) in Carnation. H3K4me3 further stimulates the expression of genes of ethylene biosynthesis and senescence, leading to senescence in Carnation. [ABSTRACT FROM AUTHOR]

Published

2024

14. GABA in plants: developmental and stress resilience perspective.

Author

Gahlowt, Priya, Tripathi, Durgesh Kumar, Singh, Surendra Pratap, Gupta, Ravi, and Singh, Vijay Pratap

Subjects

PLANT regulators, REACTIVE oxygen species, PROTEIN synthesis, PLANT development, TRANSCRIPTION factors, AMINO acids

Abstract

Gamma‐aminobutyric acid (GABA), a ubiquitously present non‐proteinogenic amino acid, has recently emerged as a key regulator of growth and development in plants during normal as well as challenging environmental conditions. GABA biosynthesis has been reported at multiple stages of plant development, particularly during vegetative and reproductive stages and in response to stress conditions. Accumulating evidence has highlighted the crucial roles of various cell cycle regulators such as type‐D cyclins and CDK;A1, transcription factors such as E2Fa, as well as Ca2+/Calmodulin proteins in GABA biosynthesis in plants. GABA is known to improve stress tolerance by improving photosynthetic activity, C/N metabolism, stomatal conductance, and stress‐induced reactive oxygen species (ROS) detoxification. Here, we have reviewed recent studies that have explored the novel roles of GABA in plants with a focus on plant development and stress resilience. [ABSTRACT FROM AUTHOR]

Published

2024

15. HPCA1: a H2O2 Sensor Mediating Biotic and Abiotic Stress Resilience in Plants.

Author

Jaiswal, Saumya, Tripathi, Durgesh Kumar, Gupta, Ravi, Corpas, Francisco J., and Singh, Vijay Pratap

Subjects

ABIOTIC stress, PSYCHOLOGICAL resilience, ACCLIMATIZATION, DETECTORS, SIGNALS & signaling

Abstract

Controlled ROS generation contributes to defense systemic signaling and stress acclimation in plants. Recently, Fichman et al. reported that HPCA1 senses H2O2 and controls the production of ROS by RBOHD, then regulates downstream Ca2+ signaling cascades and thus mediates biotic and abiotic stress resilience in plants. Further, a better understanding of the mechanism of membrane depolarization signaling is needed as it does not involve HPCA1 in response to high light stress. But there are some questions regarding the utter involvement of HPCA1 in sensing of cellular H2O2 and subsequent cell-to-cell systemic signaling during stress conditions. [ABSTRACT FROM AUTHOR]

Published

2024

16. Blue light perceiving CRY proteins: protecting plants from DNA damage.

Author

Gahlowt, Priya, Tripathi, Durgesh Kumar, Singh, Surendra Pratap, Gupta, Ravi, and Singh, Vijay Pratap

Published

2024

17. Nitroxyl, the “prodigal son” of the NO family.

Author

Mishra, Vipul, Tripathi, Durgesh Kumar, Corpas, Francisco J., Gupta, Ravi, and Singh, Vijay Pratap

Abstract

This article discusses the role of nitroxyl (HNO) in plant systems and its potential function under stress conditions. The authors conducted experiments using the model plant Arabidopsis thaliana to investigate the endogenous generation of HNO and its relationship with other gasotransmitters (GTs) such as nitric oxide (¿NO), carbon monoxide (CO), and hydrogen sulfide (H2S). They found that HNO is involved in redox regulation and interacts with proteins involved in ethylene signaling. The authors suggest that further research is needed to understand the endogenous generation of HNO under different environmental stresses and its interactions with other GTs and phytohormones. [Extracted from the article]

Published

2024

18. Computational design of candidate multi-epitope vaccine against SARS-CoV-2 targeting structural (S and N) and non-structural (NSP3 and NSP12) proteins.

Author

Ali, Zeeshan, Cardoza, Jyothsna Volisha, Basak, Srijita, Narsaria, Utkarsh, Singh, Vijay Pratap, Isaac, Samuel Paul, França, Tanos C. C., LaPlante, Steven R., and George, Sudhan S.

Published

2023

19. Multiclass Fault Classification of an Induction Motor Bearing Vibration Data Using Wavelet Packet Transform Features and Artificial Intelligence.

Author

Yadav, Shilpi, Patel, Raj Kumar, and Singh, Vijay Pratap

Subjects

WAVELET transforms, ARTIFICIAL intelligence, INDUCTION motors, FAULT diagnosis, LOGISTIC regression analysis, CLASSIFICATION, FEATURE selection

Abstract

Purpose: The bearing that supports the rotor shaft is one of the essential aspects of any spinning machine, particularly in induction motors. Maintaining the bearing condition with some degree of assurance is essential. Methods: In the present research, a two-level Wavelet Packet transform (WPT) has been employed for the filtration to investigate the meaningful vibration signal. An ANOVA F test and Mutual information method have been used for feature selection. The Logistic Regression (LR) and Support Vector Classifier (SVC) has been considered to classify the fault. Results: Eleven statistical features from each of the original signals and wavelet decomposed signals were calculated. The present work investigates the existence of a fault, the type of fault, and its severity. The LR and SVC Model are used to evaluate the performance of the optimum feature set obtained from feature selection techniques. Conclusion: The sub-band signal DD2 with SVC gives the best results for all three cases from the results obtained with the full set feature as compared to the LR technique. The grid search method along with SVC produced the greatest results, with three features provided. Thus the classification accuracy of 100 percent was achieved with only three features in the case of two classes, a maximum accuracy of 96.3% was obtained from four classes with optimal feature 8, and an accuracy of 94.6% with optimal 8 features for 10 class problems. Thus the present technique for bearing fault diagnosis can be implemented for practical purposes. [ABSTRACT FROM AUTHOR]

Published

2023

20. Methyl‐salicylate: A surveillance system for triggering immunity in neighboring plants.

Author

Jaiswal, Saumya, Tripathi, Durgesh Kumar, Gupta, Ravi, He, Jing, Chen, Zhong‐Hua, and Singh, Vijay Pratap

Subjects

DISEASE resistance of plants, PLANT defenses, SALICYLIC acid, RUSSIAN wheat aphid

Abstract

This article discusses the role of methyl-salicylate (MeSA) as an airborne signaling molecule in triggering immunity in neighboring plants. When plants are infested by aphids, they release MeSA, which acts as a long-distance signaling molecule to induce systemic acquired resistance against aphid infestation in the infested plant as well as neighboring plants. MeSA is a volatile organic compound (VOC) that is secreted by plants in response to aphid infestation and is responsible for defense against insects and viruses. The article highlights the importance of understanding how MeSA is perceived by neighboring plants and its potential for developing pest- and pathogen-resistant crops. [Extracted from the article]

Published

2024

21. Perception of corruption across gender, religion, and socioeconomic status.

Author

Saha, Asoke Kumar, Dogra, Atanu Kumar, Bairagi, Arunavo, Singh, Vijay Pratap, Hossain, Alamgir, and Pata, Sayma Akter

Subjects

CORRUPTION, PERCEPTION testing, SOCIOECONOMIC status, COLLEGE students, RELIGION, HINDUS

Abstract

Corruption is a critical issue for Bangladesh, including corruption in higher education. The present study explored the perception of corruption based on gender, religion, and socioeconomic status with factorial survey research design. One hundred twenty participants were selected by purposive sampling technique from male and female university students aged 20-26 years. All the participants were studying in public and private universities. Personal Information Form (PIF) and Perception of Corruption Scale (PCS) were used for this study. The PCS measured the respondents' level of perception about corruption, consisting of 18 items. One-way analysis of variance and t-test were applied to analyze the data. The result indicates no significant difference in perception of corruption based on gender. In contrast, there is a significant difference in the perception of corruption based on religion, with the Hindus having the lowest perception of corruption. Moreover, there is a significant difference in perception of corruption based on socioeconomic status. Therefore, university students' perceptions of different corrupt practices need to be addressed. [ABSTRACT FROM AUTHOR]

Published

2023

22. Peroxynitrite is essential for aerenchyma formation in rice roots under waterlogging conditions.

Author

Singh, Pooja, Jaiswal, Saumya, Kushwaha, Ajayraj, Gahlowt, Priya, Mishra, Vipul, Tripathi, Durgesh Kumar, Singh, Surendra Pratap, Gupta, Ravi, and Singh, Vijay Pratap

Subjects

ROOT formation, PEROXYNITRITE, RICE, ETHEPHON, NITRIC oxide, EPICATECHIN, CATECHIN

Abstract

Main conclusion: In this study, we report that peroxynitrite is necessary for ethylene-mediated aerenchyma formation in rice roots under waterlogging conditions. Plants under waterlogging stress face anoxygenic conditions which reduce their metabolism and induce several adaptations. The formation of aerenchyma is of paramount importance for the survival of plants under waterlogging conditions. Though some studies have shown the involvement of ethylene in aerenchyma formation under waterlogging conditions, the implication of peroxynitrite (ONOO−) in such a developmental process remains elusive. Here, we report an increase in aerenchyma formation in rice roots exposed to waterlogging conditions under which the number of aerenchyma cells and their size was further enhanced in response to exogenous ethephon (a donor of ethylene) or SNP (a donor of nitric oxide) treatment. Application of epicatechin (a peroxynitrite scavenger) to waterlogged plants inhibited the aerenchyma formation, signifying that ONOO− might have a role in aerenchyma formation. Interestingly, epicatechin and ethephon co-treated waterlogged plants were unable to form aerenchyma, indicating the necessity of ONOO− in ethylene-mediated aerenchyma formation under waterlogging conditions. Taken together, our results highlight the role of ONOO− in ethylene-mediated aerenchyma formation in rice and could be used in the future to develop waterlogging stress-tolerant varieties of rice. [ABSTRACT FROM AUTHOR]

Published

2023

23. A review on adaptation of banana (Musa spp.) to cold in subtropics.

Author

Joshi, Rashmi Upreti, Singh, Ashok Kumar, Singh, Vijay Pratap, Rai, Ratna, and Joshi, Pushpesh

Subjects

BANANAS, WHOLE genome sequencing, PLANT metabolism, FLOWERING time, ABIOTIC stress, LOW temperatures

Abstract

Global production of bananais adversely affected by abiotic stresses, namely, drought, salinity and low temperature which cause changes in morphology, anatomy, physiology and biochemical metabolism in plant. Different banana cultivars respond differently when grown in subtropical regions due to changes in temperature mainly at the time of flowering and fruiting. The subtropical regions persist cold in winter which become a major constraint for proper growth and development of banana. Only few cultivars are identified for cold tolerance. The cold tolerance is a complex phenomenon, involving numbers of interrelated metabolic pathways. With the onset of cold, growth decrease through alteration in the synthesis of metabolites which are regulated by expression of genes and their interactions. Recently, complete genome sequencing, mutation and transgenesis provided deep insight into the complex mechanism of cold tolerance in banana. In this review, efforts are made to compile the findings and to interpret the better application of technologies in understanding the cold tolerance which may assist in banana breeding. [ABSTRACT FROM AUTHOR]

Published

2023

24. Availability Analysis of Fault Tolerant Degraded Machining System with Imperfect Repair and Multi-type Failures.

Author

Jain, Madhu and Singh, Vijay Pratap

Published

2023

25. Myc promotes polyploidy in murine trophoblast cells and suppresses senescence.

Author

Singh, Vijay Pratap, Hassan, Huzaifa, Fengyan Deng, Dai Tsuchiya, McKinney, Sean, Ferro, Kevin, and Gerton, Jennifer L.

Subjects

TROPHOBLAST, POLYPLOIDY, CELLULAR aging, DNA replication, GENE expression, RIBOSOMAL RNA

Abstract

The placenta is essential for reproductive success. The murine placenta includes polyploid giant cells that are crucial for its function. Polyploidy occurs broadly in nature but its regulators and significance in the placenta are unknown. We have discovered that many murine placental cell types are polyploid and have identified factors that license polyploidy using single-cell RNA sequencing. Myc is a key regulator of polyploidy and placental development, and is required for multiple rounds of DNA replication, likely via endocycles, in trophoblast giant cells. Furthermore, MYC supports the expression of DNA replication and nucleotide biosynthesis genes along with ribosomal RNA. Increased DNA damage and senescence occur in trophoblast giant cells without Myc, accompanied by senescence in the neighboring maternal decidua. These data reveal Myc is essential for polyploidy to support normal placental development, thereby preventing premature senescence.Our study, combined with available literature, suggests that Myc is an evolutionarily conserved regulator of polyploidy. [ABSTRACT FROM AUTHOR]

Published

2023

26. Tsw: an NLR protein that keeps viruses away.

Author

Gahlowt, Priya, Tripathi, Durgesh Kumar, Gupta, Ravi, and Singh, Vijay Pratap

Subjects

TOMATO spotted wilt virus disease, PROTEINS, MOLECULAR recognition, PATTERN perception receptors, HORMONE receptors

Published

2023

27. How is UVR8 relevant in plants? New evidence.

Author

Mishra, Vipul, Singh, Samiksha, Dubey, Nawal Kishore, Singh, Shraddha, Rai, Meena, Tripathi, Durgesh Kumar, and Singh, Vijay Pratap

Published

2023

28. Does MPK4/12-HT1 function as a CO2/bicarbonate sensor to regulate the stomatal conductance under high CO2 levels?

Author

Gahlowt, Priya, Tripathi, Durgesh Kumar, Singh, Samiksha, Gupta, Ravi, and Singh, Vijay Pratap

Subjects

DETECTORS, STOMATA, PROTEINS

Abstract

Key message: Recently, a HT1 protein has been identified which causes continuous opening of stomata because of its kinase activity. However, reversible interaction between MAP4/12 and HT1 protein acts as a CO2/bicarbonate sensor and causes the closing of stomata by inhibiting HT1 kinase activity. [ABSTRACT FROM AUTHOR]

Published

2023

29. DEFICIT IRRIGATION : A POTENTIAL CONCEPT OF IRRIGATION FOR SUSTAINABLE FRUIT PRODUCTION UNDER WATER SCARCE CONDITIONS.

Author

Jat, Rajkumar, Kumar, Virendra, and Singh, Vijay Pratap

Published

2023

30. Nitric oxide overcomes copper and copper oxide nanoparticle-induced toxicity in Sorghum vulgare seedlings through regulation of ROS and proline metabolism.

Author

Singh, Swati, Kandhol, Nidhi, Pandey, Sangeeta, Singh, Vijay Pratap, Tripathi, Durgesh Kumar, and Chauhan, Devendra Kumar

Subjects

SORGHUM, PROLINE metabolism, NITRIC oxide, COPPER oxide, COPPER, GLUTATHIONE reductase

Abstract

This study aimed to investigate the phytotoxic effect of copper (Cu) and copper nanoparticles (CuONPs) and ameliorative potential of nitric oxide (NO) against these toxic materials in Sorghum vulgare Pers. seedlings. Data suggested that exposure of Cu and CuONPs significantly reduced growth, chlorophyll, carotenoids and protein in root and shoot, which coincided with increased Cu accumulation. However, addition of sodium nitroprusside (SNP, a donor of NO) lowered Cu and CuONPs mediated toxicity through restricting Cu accumulation and improving photosynthetic pigments and total soluble protein contents. Data further suggested that exposure of Cu and CuONPs significantly increased hydrogen peroxide (H2O2), superoxide radicals (O2•−), and malondialdehyde (MDA) contents. Enhanced level of oxidative stress severely inhibited the enzymatic activities of glutathione reductase (GR), ascorbate peroxidase (APX), dehydroascorbate reductase (DHAR) and monodehydroascorbate reductase (MDHAR) but enhanced superoxide dismutase (SOD) and catalase (CAT) activity. However, addition of SNP positively regulated antioxidants enzymes activity, particularly the enzymes involved in the ascorbate-glutathione cycle to overcome Cu- and CuONPs-induced stress in Sorghum seedlings. Further, Cu and CuONPs enhanced accumulation of free proline through inducing Δ1-pyrroline-5-carboxylate synthetase (P5CS) activity while lowering the proline dehydrogenase (PDH) activity. However, addition of SNP reversed these responses. Therefore, overall results revealed that SNP has enough potential of reducing the toxicity of Cu and CuONPs in Sorghum seedlings through regulation of proline metabolism and activity of enzymes of the ascorbate-glutathione cycle. These findings can be employed in developing new resistant varieties of Sorghum having enhanced tolerance against Cu or CuONP stress and improved productivity. Enhancing crop productivity under the prevalent stressful environment is needed to meet global food demand. Copper (Cu) and copper oxide nanoparticles (CuONPs) pose adverse effects on Sorghum vulgare Pers. productivity. This study delineates that exogenous nitric oxide can mitigate their toxicity and improve the plant growth parameters. The findings of this research can be employed in developing new resistant varieties of sorghum having enhanced tolerance against Cu or CuONPs stress. [ABSTRACT FROM AUTHOR]

Published

2023

31. An Appraisal of Ancient Molecule GABA in Abiotic Stress Tolerance in Plants, and Its Crosstalk with Other Signaling Molecules.

Author

Suhel, Mohammad, Husain, Tajammul, Pandey, Aparna, Singh, Samiksha, Dubey, Nawal Kishore, Prasad, Sheo Mohan, and Singh, Vijay Pratap

Subjects

POLYAMINES, ABIOTIC stress, GABA, POLLEN tube, REACTIVE oxygen species, ROOT growth, PROKARYOTES

Abstract

Gamma-aminobutyric acid (GABA), a non-proteinaceous amino acid, is reported in prokaryotes and eukaryotes, since ancient times. However, it has gained attention in the present time because of its rapid accumulation during stressed conditions in plants as well as in the cyanobacteria. In plants, it regulates the number of physiological processes such as pollen tube growth, root growth, TCA cycle, N2-metabolism, and osmoregulation. Several biotic and abiotic stresses prevail in the environment, which lead to enhanced accumulation of reactive oxygen species (ROS) thus causing oxidative damage. However, a rapid increase in the accumulation of GABA during stress in various plant forms like bacteria, cyanobacteria, fungi, and plants indicates its putative role in stress regulation and acclimation. This review summarizes the biosynthesis of GABA, its role in abiotic stress tolerance, and its crosstalk with ROS, nitric oxide, Ca+2 ions, phytohormones, and polyamines in stress acclimation. [ABSTRACT FROM AUTHOR]

Published

2023

32. GABA Requires Nitric Oxide for Alleviating Arsenate Stress in Tomato and Brinjal Seedlings.

Author

Suhel, Mohammad, Husain, Tajammul, Prasad, Sheo Mohan, and Singh, Vijay Pratap

Subjects

EGGPLANT, TOMATOES, GABA, NITRIC oxide, CROPS, ARSENATES, SEEDLINGS

Abstract

In recent years, gamma-aminobutyric acid (GABA) and nitric oxide (NO) have drawn much attention in reducing/alleviating metal toxicity in plants. Arsenic is a potentially toxic metal that imposes severe toxic effects on crop plants. Therefore, the present study was an attempt to explore the role of GABA and NO in the amelioration of arsenate As(V) toxicity in tomato and brinjal seedlings. Arsenate toxicity reduced fresh mass about by 17% in tomato and 25% in brinjal seedlings, increased the level of reactive oxygen species, antioxidant enzymes (except glutathione-S-transferase), and altered photosynthesis. However, exogenously applied GABA and sodium nitroprusside (SNP, a NO donor) improved the growth of both vegetables and reduced As(V) toxicity. Interestingly, As(V) toxicity was further increased on applying biosynthetic inhibitor of NO even in the presence of GABA, and under similar conditions addition of NO donor rescued the negative effect of biosynthetic inhibitor (L-NAME) of NO. This indicates that NO is crucial in GABA-mediated alleviation of As(V) toxicity in tomato and brinjal seedlings. Besides this, results revealed that c-PTIO (a NO scavenger) addition reversed the alleviatory effect of SNP also suggesting that NO is important in curtailing As(V) toxicity. Overall, the results indicated that NO is necessary for mitigation of As(V) stress by GABA in two studied vegetable crops but NO itself does not require GABA for the same. [ABSTRACT FROM AUTHOR]

Published

2023

33. Silicon Palliates Chromium Toxicity through the Formation of Root Hairs in Rice (Oryza sativa) Mediated by GSH and IAA.

Author

Tripathi, Durgesh Kumar, Rai, Padmaja, Kandhol, Nidhi, Kumar, Alok, Sahi, Shivendra, Corpas, Francisco J, Sharma, Shivesh, and Singh, Vijay Pratap

Subjects

ROOT formation, CHROMIUM, HEXAVALENT chromium, RICE, HEAVY metals, ACETIC acid

Abstract

Along with the rapidly increasing environmental contamination by heavy metals, the exposure of plants to chromium has also magnified, resulting in a declined productivity. Hexavalent chromium [Cr(VI)], the most toxic form of Cr, brings about changes in plant processes at morpho-physiological and biochemical levels. However, silicon (Si) is known to mitigate the impact of abiotic stresses in plants. Here, we demonstrate Si-mediated alleviation of Cr(VI) toxicity and its effects on root hair formation in rice seedlings. Reduced glutathione (GSH) and indole-3 acetic acid (IAA, an important auxin) were assessed for their involvement in root hair formation after the application of Si to Cr(VI)-stressed plants, and our results confirmed their crucial significance in such developmental processes. The expression analysis of genes involved in GSH biosynthesis (OsGS2) and regeneration (OsGR1), and auxin biosynthesis (OsTAA1 and OsYUCCA1) and transport (OsAUX1 and OsPIN1) corroborated their positive role in Si-mediated root hair formation in Cr(VI)-stressed rice seedlings. Moreover, the results indicated that nitric oxide (NO) seems a probable but not fundamental component in Si-mediated formation of roots in rice during exposure to Cr(VI) stress. In this study, the indispensable role of GSH and IAA, redox homeostasis of GSH and IAA biosynthesis and transport are discussed with regard to Si-mediated formation of root hairs in rice under Cr(VI) stress. The results of the study suggest that Si is a protective agent against Cr(VI) stress in rice, and the findings can be used to develop Cr(VI) stress-tolerant varieties of rice with enhanced productivity. [ABSTRACT FROM AUTHOR]

Published

2022

34. Ethylene Renders Silver Nanoparticles Stress Tolerance in Rice Seedlings by Regulating Endogenous Nitric Oxide Accumulation.

Author

Tripathi, Durgesh Kumar, Kandhol, Nidhi, Rai, Padmaja, Mishra, Vipul, Pandey, Sangeeta, Deshmukh, Rupesh, Sahi, Shivendra, Sharma, Shivesh, and Singh, Vijay Pratap

Subjects

SILVER nanoparticles, NITRIC oxide, ETHYLENE, SEEDLINGS, OXIDATIVE stress, RICE

Abstract

Developments in the field of nanotechnology over the past few years have increased the prevalence of silver nanoparticles (AgNPs) in the environment, resulting in increased exposure of plants to AgNPs. Recently, various studies have reported the effect of AgNPs on plant growth at different concentrations. However, identifying the mechanisms and signaling molecules involved in plant responses against AgNPs stress is crucial to find an effective way to deal with the phytotoxic impacts of AgNPs on plant growth and development. Therefore, this study was envisaged to investigate the participation of ethylene in mediating the activation of AgNPs stress tolerance in rice (Oryza sativa L.) through a switch that regulates endogenous nitric oxide (NO) accumulation. Treatment of AgNPs alone hampered the growth of rice seedlings due to severe oxidative stress as a result of decline in sulfur assimilation, glutathione (GSH) biosynthesis and alteration in the redox status of GSH. These results are also accompanied by the higher endogenous NO level. However, addition of ethephon (a donor of ethylene) reversed the AgNP-induced effects. Though the application of silicon nanoparticles (SiNPs) alone promoted the growth of rice seedlings but, interestingly their application in combination with AgNPs enhanced the AgNP-induced toxicity in the seedlings through the same routes as exhibited in the case of AgNPs alone treatment. Interestingly, addition of ethephon reversed the negative effects of SiNPs under AgNPs stress. These results suggest that ethylene might act as a switch to regulate the level of endogenous NO, which in turn could be associated with AgNPs stress tolerance in rice. Furthermore, the results also indicated that addition of l -NG-nitro arginine methyl ester (l -NAME) (an inhibitor of endogenous NO synthesis) also reversed the toxic effects of SiNPs together with AgNPs, further suggesting that the low level of endogenous NO was associated with AgNPs stress tolerance. Overall, the results indicate that the low level of endogenous NO triggers AgNPs stress tolerance, while high level leads to AgNPs toxicity by regulating sulfur assimilation, GSH biosynthesis, redox status of GSH and oxidative stress markers. The results revealed that ethylene might act as a switch for regulating AgNPs stress in rice seedlings by controlling endogenous NO accumulation. [ABSTRACT FROM AUTHOR]

Published

2022

35. Plant Growth Hormones and Nanomaterial Interface: Exploring the connection from development to defense.

Author

Kandhol, Nidhi, Singh, Vijay Pratap, White, Jason C, Tran, Lam-Son Phan, and Tripathi, Durgesh Kumar

Subjects

PLANT hormones, PLANT growth, SOMATOTROPIN, SUSTAINABLE agriculture, SOIL remediation, KNOWLEDGE gap theory

Abstract

The global increase in nanotechnology applications has been unprecedented and has now moved into the area of agriculture and food production. Applications with promising potential in sustainable agriculture include nanobiosensors, nanofertilizers, nanopesticides, nano-mediated remediation strategies for contaminated soils and nanoscale strategies to increase crop production and protection. Given this, the impact of nanomaterials/nanoparticles (NPs) on plant species needs to be thoroughly evaluated as this represents a critical interface between the biosphere and the environment. Importantly, phytohormones represent a critical class of biomolecules to plant health and productivity; however, the impact of NPs on these molecules is poorly understood. In addition, phytohormones, and associated pathways, are widely explored in agriculture to influence several biological processes for the improvement of plant growth and productivity under natural as well as stressed conditions. However, the impact of exogenous applications of phytohormones on NP-treated plants has not been explored. The importance of hormone signaling and cross-talk with other metabolic systems makes these biomolecules ideal candidates for a thorough assessment of NP impacts on plant species. This article presents a critical evaluation of the existing yet limited literature available on NP–phytohormone interactions in plants. In addition, the developing strategy of nano-enabled precision delivery of phytohormones via nanocarriers will be explored. Finally, directions for future research and critical knowledge gaps will be identified for this important aspect of nano-enabled agriculture. [ABSTRACT FROM AUTHOR]

Published

2022

36. Auxin Crosstalk with Reactive Oxygen and Nitrogen Species in Plant Development and Abiotic Stress.

Author

Parveen, Nishat, Kandhol, Nidhi, Sharma, Shivesh, Singh, Vijay Pratap, Chauhan, Devendra Kumar, Ludwig-Müller, Jutta, Corpas, Francisco J, and Tripathi, Durgesh Kumar

Subjects

REACTIVE nitrogen species, REACTIVE oxygen species, ABIOTIC stress, PLANT development, AUXIN, FRUIT development

Abstract

The phytohormone auxin acts as an important signaling molecule having regulatory functions during the growth and development of plants. Reactive oxygen species (ROS) are also known to perform signaling functions at low concentrations; however, over-accumulation of ROS due to various environmental stresses damages the biomolecules and cell structures and leads to cell death, and therefore, it can be said that ROS act as a double-edged sword. Nitric oxide (NO), a gaseous signaling molecule, performs a wide range of favorable roles in plants. NO displays its positive role in photomorphogenesis, root growth, leaf expansion, seed germination, stomatal closure, senescence, fruit maturation, mitochondrial activity and metabolism of iron. Studies have revealed the early existence of these crucial molecules during evolution. Moreover, auxin, ROS and NO together show their involvement in various developmental processes and abiotic stress tolerance. Redox signaling is a primary response during exposure of plants to stresses and shows a link with auxin signaling. This review provides updated information related to crosstalk between auxin, ROS and NO starting from their evolution during early Earth periods and their interaction in plant growth and developmental processes as well as in the case of abiotic stresses to plants. [ABSTRACT FROM AUTHOR]

Published

2022

37. Effect of Plastic Mulch Colour on Growth and Yield of Kalmegh (Andrographis paniculata Nees) under Tarai Condition of Uttarakhand.

Author

Singh, Vijay Pratap, Kumar, Virendra, and Rawat, Mandeep

Published

2022

38. Central macular thickness change after uneventful small-incision cataract surgery - An observational study.

Author

Dabas, Garvita, Shukla, Prachi, Mithal, Kopal, Bhartiya, Suman, Singh, Vijay, Agarwal, Swati, and Singh, Vijay Pratap

Subjects

CATARACT diagnosis, CATARACT, PHACOEMULSIFICATION, RETINAL degeneration, CATARACT surgery, VISUAL acuity, OPTICAL coherence tomography, DISEASE complications

Abstract

Purpose: The purpose of this study was to diagnose CME with the help of optical coherence tomography (OCT) after uneventful cataract surgery to prevent visual deterioration.Methods: This study was conducted on 120 patients, who underwent manual small-incision cataract surgery with posterior chamber intra-ocular lens implantation. Follow-up was performed after the first week, sixth week, and 12th week post-operatively. Detailed examination was performed at each visit along with measurements of central macular thickness using OCT. Statistical analysis was performed using SPSS 22.0.Result: The mean age of the patients was 61.85 ± 11.41 years having female preponderance. The pre-operative mean best corrected visual acuity (BCVA) was found to be 0.05 ± 0.04, whereas the mean post-operative BCVA was found to be 0.65 ± 0.17 at the first week, 0.66 ± 0.17 at the sixth week, and 0.67 ± 0.17 at the 12th week follow-up. The post-operative mean macular thicknesses at the first week, sixth week, and 12th week post-operatively were documented to be 221.66 ± 8.49 μm, 224.60 ± 8.75 μm, and 219.17 ± 8.22 μm, respectively.Conclusion: A sub-clinical increase in macular thickness occurs even after uncomplicated cataract surgery. The maximum increase was observed after 6 weeks of surgery, which returns to near normal values within 3 months. Comparison of central macular thicknesses pre-operatively and post-operatively at the first week, sixth week, and 12th week suggests a significant correlation. [ABSTRACT FROM AUTHOR]

Published

2022

39. Silicon and nitric oxide‐mediated mechanisms of cadmium toxicity alleviation in wheat seedlings.

Author

Singh, Swati, Prasad, Sheo Mohan, Sharma, Shivesh, Dubey, Nawal Kishore, Ramawat, Naleeni, Prasad, Rajendra, Singh, Vijay Pratap, Tripathi, Durgesh Kumar, and Chauhan, Devendra Kumar

Subjects

SILICON, SEEDLINGS, CADMIUM, OXIDATIVE stress, PHOTOSYNTHETIC rates, SODIUM nitroferricyanide, WHEAT

Abstract

The individual impact of silicon (Si) and nitric oxide (NO, as sodium nitroprusside) on metal toxicity in various plant species has been well documented; however, their combined action in the regulation of metal stress has never been tested yet. Therefore, this study investigates the effects of the combined application of Si and NO in the mitigation of Cd toxicity in wheat seedlings. Seedlings grown on Cd has a significantly declined growth due to an increased accumulation of Cd and oxidative stress markers (due to downregulation of antioxidant defense system particularly ascorbate‐glutathione cycle) and a decreased accumulation of NO and Si. Additionally, the altered leaf and root structures resulted into a declined photosynthetic efficiency. However, the addition of Si and NO alone as well as combined significantly alleviated Cd toxicity in wheat seedlings by lowering the accumulation of Cd and oxidative stress markers and improving leaf and root structures, which are collectively responsible for a better photosynthetic rate under Cd toxicity, and hence an improved growth was noticed. Particularly, the application of Si and NO in combination lowered the oxidative stress markers via upregulating the antioxidant defense system (particularly AsA‐GSH cycle) suggesting the increased efficacy of Si + NO against the Cd toxicity in wheat seedlings as compared to their alone treatments. [ABSTRACT FROM AUTHOR]

Published

2022

40. Soil Nutrient Status and Morphometric Responses of Guava under Drip Irrigation and High-Tech Horticultural Techniques for Sustainable Farming.

Author

Preet, Manpreet Singh, Kumar, Rajesh, Valipour, Mohammad, Singh, Vijay Pratap, Neha, Singh, Ashok Kumar, Iqbal, Rashid, Zafar, Muhammad Umar, Sharma, Rashmi, Singh, Shiv Vendra, Kumari, Arpna, Minkina, Tatiana, Soufan, Walid, Faraj, Turki Kh., Ditta, Allah, and Sabagh, Ayman El

Abstract

In the current study, efforts were made to standardize fertigation for providing the recommended doses of fertilizers (RDF) i.e., 300, 260, and 200 g/plant/year for N, P, and K, respectively, together with optimization of irrigation scheduling so that guava plants could avoid the frequent episodes of nutritional stress, water scarcity, or overwatering. The experiment's execution was confined to a three-factor randomized block design, with a total of 19 treatments that were replicated four times. Briefly, these treatments included drip irrigation and nutrient (NPK) application through fertigation dosages (RDF; 100, 80, and 60%) with and without silver-black plastic mulching. Different applied fertilizer dosages, together with different levels of irrigation and soil mulching, had a significant impact on the guava plant's vegetative, reproductive, and nutritional aspects. Under silver-black plastic mulch, drip irrigation at cumulative pan evaporation (CPE) 80 and 100% of the prescribed dosage of fertilizers, better macronutrient availability in the soil, and improved plant development were recorded (M1DI2F1). Overall, using drip fertigation to provide NPK fertilizers close to the root zone increased the availability of nutrients to the plants as compared to the traditional fertigation and irrigation methods. Thus, this sustainable high-tech horticultural approach could be analyzed for its efficacy or applied to other crops to obtain adequate economic outcomes. [ABSTRACT FROM AUTHOR]

Published

2022

41. Basic life support: Awareness, attitude, and knowledge among junior doctors, physiotherapists, and nursing staffs in a tertiary care center of Sikkim.

Author

Bhanja, Atanu, Nazareth, Aradhna, Singh, Vijay Pratap, Singh, Varun Kumar, Nandy, Parvati, and Batool, Sofia

Subjects

MEDICAL personnel, PHYSICIANS, TERTIARY care, STUDENT attitudes, HEALTH facilities, AGE groups, INTENSIVE care units, CORONARY care units

Published

2022

42. Heavy metal induced regulation of plant biology: Recent insights.

Author

Sharma, Anket, Kapoor, Dhriti, Gautam, Shristy, Landi, Marco, Kandhol, Nidhi, Araniti, Fabrizio, Ramakrishnan, Muthusamy, Satish, Lakkakula, Singh, Vijay Pratap, Sharma, Priyanka, Bhardwaj, Renu, Tripathi, Durgesh Kumar, and Zheng, Bingsong

Subjects

PLANT hormones, HEAVY metals, HEAVY metal toxicology, PLANT nutrition, ABSCISIC acid, PROLINE metabolism, CRUST of the earth, HEAVY-metal tolerant plants

Abstract

The presence of different forms of heavy metals in the earth crust is very primitive and probably associated with the origin of plant life. However, since the beginning of human civilisation, heavy metal use and its contamination to all living systems on earth have significantly increased due to human anthropogenic activities. Heavy metals are nonbiodegradable, which directly or indirectly impact photosynthesis, antioxidant system, mineral nutrition status, phytohormones and amino acid‐derived molecules. Due to the toxic behaviour of some heavy metals, the endogenous status of chemical messengers like phytohormones may get significantly influenced, leading to harmful impacts on plant growth, development and overall yield of the plants. It has been noticed that exogenous application of phytohormones, that is, abscisic acid, salicylic acid, auxins, brassinosteroids, cytokinins, ethylene and gibberellins can positively regulate the heavy metal toxicity in plants through the regulation of the ascorbate–glutathione cycle, nitrogen metabolism, proline metabolisms, transpiration rate, and cell division. Furthermore, it may also restrict the entry of heavy metals into the plant cells, which aids in the recovery of plant growth and productivity. Besides these, some defence molecules also assist the plant in dealing with heavy metal toxicity. Therefore, the present review aims to bridge the knowledge gap in this context and present outstanding discoveries related to plant life supportive processes during stressful conditions including phytohormones and heavy metal crosstalk along with suggestions for future research in this field. [ABSTRACT FROM AUTHOR]

Published

2022

43. GABA: a key player of abiotic stress regulation.

Author

Mishra, Vipul, Gahlowt, Priya, Singh, Samiksha, Dubey, Nawal Kishore, Singh, Surendra Pratap, Tripathi, Durgesh Kumar, and Singh, Vijay Pratap

Published

2023

44. Cornelia de Lange syndrome and the Cohesin complex: Abstracts from the 9th Biennial Scientific and Educational Virtual Symposium 2020.

Author

Oliver, Chris, Groves, Laura, Hansen, Blake D., Salehi, Masoud, Kheradmand, Shaydah, Carrico, Cheri S., Caudill, Patti, Mattingly, Mark, Dorsett, Dale, Chea, Stephenson, Singh, Vijay Pratap, Krantz, Ian D., Huisman, Sylvia, Deardorff, Matthew A., and Kline, Antonie D.

Abstract

Cornelia de Lange syndrome (CdLS) is a spectrum disorder due to variants in genes of the cohesin protein complex. The following abstracts are from the Cornelia de Lange Syndrome Scientific and Educational Symposium held virtually in October 2020. Aspects of behavior, including autistic features, impulsivity, adaptive skills, executive function, and anxiety are described. Applied behavioral analysis is a promising approach for autism, and an N‐acetylcysteine trial is proposed. Children below 6 years with CdLS have an increased number of and further travel to medical providers, with insurance type comprising a significant barrier. Speech, language, and feeding abilities fall significantly below expectations for age in CdLS. Augmentative alternative communication can yield potential barriers as well as interesting benefits. Developmentally, studies in animal models further elucidate the mechanisms and roles of cohesin: link with mediator transcriptional complex; facilitation of enhancer‐promoter communication; regulation of gene expression; allocation of cells to germ layers; and repair of spontaneous DNA damage in placental cells. Genome and RNA sequencing can help identify the molecular cause in the 20% of individuals with suspected CdLS and negative testing. The phenotypes in individuals with variants in the SMC1A gene are distinct, and that with intractable seizures has been further evaluated. AMA CME credits provided by GBMC, Baltimore, MD. All studies approved by an ethics committee. [ABSTRACT FROM AUTHOR]

Published

2022

45. Implication of Nitric Oxide Under Salinity Stress: The Possible Interaction with Other Signaling Molecules.

Author

Fatima, Abreeq, Husain, Tajammul, Suhel, Mohammad, Prasad, Sheo Mohan, and Singh, Vijay Pratap

Subjects

REACTIVE nitrogen species, NITRIC oxide, REACTIVE oxygen species, ABIOTIC stress, SALINITY, BIOLOGICAL systems

Abstract

It is a well-established fact that nitric oxide (NO) is a multifaceted signaling molecule, which plays diverse role in organisms. In the past two decades, various pieces of evidence have been documented to address its involvement under various abiotic and biotic stress responses in plant systems. One of the prime consequences of abiotic stress is an increase in the cellular concentration of reactive oxygen species (ROS) and reactive nitrogen species such as nitric oxide (NO) peroxynitrite (ONOO), and nitrogen dioxide (NO2). But how the pathways of these reactive oxygen species (ROS) and hormones are integrated with NO and how the signals are relayed in biological systems remain incoherent and scanty in the literature. Thus, this review attempts to address NO-mediated ROS metabolism, defense responses, and its interactions with other bioactive molecules. [ABSTRACT FROM AUTHOR]

Published

2022

46. Maternal Smc3 protects the integrity of the zygotic genome through DNA replication and mitosis.

Author

Wei-Ting Yueh, Singh, Vijay Pratap, and Gerton, Jennifer L.

Subjects

CHROMOSOME replication, DNA replication, GENOMES, MITOSIS, COHESINS, DNA damage, CHROMOSOME segregation

Abstract

Aneuploidy is frequently observed in oocytes and early embryos, begging the question of how genome integrity is monitored and preserved during this crucial period. SMC3 is a subunit of the cohesin complex that supports genome integrity, but its role in maintaining the genome during this window of mammalian development is unknown. We discovered that, although depletion of Smc3 following meiotic S phase in mouse oocytes allowed accurate meiotic chromosome segregation, adult females were infertile. We provide evidence that DNA lesions accumulated following S phase in SMC3-deficient zygotes, followed by mitosis with lagging chromosomes, elongated spindles, micronuclei, and arrest at the two-cell stage. Remarkably, although centromeric cohesion was defective, the dosage of SMC3 was sufficient to enable embryogenesis in juvenile mutant females. Our findings suggest that, despite previous reports of aneuploidy in early embryos, chromosome missegregation in zygotes halts embryogenesis at the two-cell stage. Smc3 is a maternal gene with essential functions in the repair of spontaneous damage associated with DNA replication and subsequent chromosome segregation in zygotes, making cohesin a key protector of the zygotic genome. [ABSTRACT FROM AUTHOR]

Published

2021

47. Endogenous indole‐3‐acetic acid and nitric oxide are required for calcium‐mediated alleviation of copper oxide nanoparticles toxicity in wheat seedlings.

Author

Yadav, Vaishali, Gill, Rafaqat Ali, Arif, Namira, Gill, Skhawat Ali, Singh, Vijay Pratap, Ramawat, Naleeni, Zhou, Weijun, Tripathi, Durgesh Kumar, and Chauhan, Devendra K.

Subjects

NITRIC oxide, COPPER oxide, NITRIC acid, WHEAT, CROPS, SEEDLINGS, PHOTOSYNTHETIC pigments, AUXIN

Abstract

The action of nanoparticles is increasingly being studied in recent years to minimize their toxic impacts. Besides this, efforts are also being made to minimize their toxicity in crop plants by using various chemicals, i.e. nutrients, donors of signaling molecules, plant hormones, and so on. However, associated alleviatory mechanisms are still not well known. Therefore, in the present study, we have investigated the toxicity of CuONPs and its mitigation by exogenously applied calcium (Ca). The focus was on whether indole‐3‐acetic acid (IAA) or endogenous nitric oxide (NO) has any role in accomplishing this task. CuONPs declined wheat growth due to increased accumulation of Cu and oxidative stress markers such as superoxide radicals, hydrogen peroxide, and lipid peroxidation (malondialdehyde) and it was also accompanied by a decline in endogenous NO. CuONPs also altered the redox status of ascorbate and glutathione by inhibiting the activity of their regenerating enzymes. This collectively leads to cell death in wheat seedlings. However, exogenous supplementation of Ca mitigated toxic effects of CuONPs by reducing the excess accumulation of Cu, which caused remarkable enhancement in growth, protein contents, photosynthetic pigments, and endogenous NO; altogether protecting wheat roots from cell death. Interestingly, addition of 2,3,5‐triiodobenzoic acid (TIBA) further increased CuONPs toxicity even in the presence of Ca, but the addition of IAA rescued this effect of TIBA. These results clearly show that Ca mitigates CuONPs toxicity in wheat seedlings by involving IAA. Further, the results also showed that endogenous NO has a positive and indispensable role in Ca‐mediated mitigation of CuONPs toxicity in wheat seedlings. [ABSTRACT FROM AUTHOR]

Published

2021

48. Effect of Nitric Oxide on Seed Germination and Seedling Development of Tomato Under Chromium Toxicity.

Author

Khan, M. Nasir, Alamri, Saud, Al-Amri, Abdullah A., Alsubaie, Qasi D., Al-Munqedi, Bandar, Ali, Hayssam M., Singh, Vijay Pratap, and Siddiqui, Manzer H.

Subjects

GERMINATION, NITRIC oxide, PLANT life cycles, METAL compounds, GLUTATHIONE, CHROMIUM

Abstract

Nitric oxide (NO), a signaling molecule with diverse physiological functions, improves immunity of the plant against different environmental stresses. Heavy metal stress-induced structural and functional damages in cells are common consequences. Seed germination and seedlings development are crucial phases in the life cycle of a plant. The present experiment was designed to investigate how NO suppresses hexavalent chromium Cr(VI)-provoked impairment in the key processes during seed germination and seedlings development of tomato. This study reports that Cr(VI) stress significantly impaired seed germination attributes and the activity of hydrolyzing enzymes, such as α-amylase (α-A) and protease (Pr). However, exogenous NO donor sodium nitroprusside substantially improved seed germination parameters and upregulation of α-A and Pr. Furthermore, NO improved the content of nitrogen (N), NO, and proline (Pro), and modulated the activity of enzymes involved in Pro and N-assimilation. Under Cr(VI) toxicity conditions, NO improved the content of metal ligation compounds (non-protein thiols and total thiols), ascorbate and glutathione (GSH), and maintained higher content of GSH in glutathione pool (GSH:GSSG) and suppressed the formation of 4-hydroxy-2-nonenal and protein carbonylation, and electrolyte leakage. It may be concluded that NO improved the activity of hydrolyzing and Pro and N-metabolism enzymes. Application of NO also enhanced non-enzymatic antioxidants, and 2,2-diphenyl-1-picrylhydrazyl radical scavenging activity under Cr(VI) toxicity conditions, thereby improved enhanced seed germination and seedlings vigor. [ABSTRACT FROM AUTHOR]

Published

2021

49. Histochemical Techniques in Plant Science: More Than Meets the Eye.

Author

Yadav, Vaishali, Arif, Namira, Singh, Vijay Pratap, Guerriero, Gea, Berni, Roberto, Shinde, Suhas, Raturi, Gaurav, Deshmukh, Rupesh, Sandalio, Luisa M, Chauhan, Devendra Kumar, and Tripathi, Durgesh Kumar

Subjects

BOTANY, GENOME editing, PLANT anatomy, METABOLITES, REACTIVE oxygen species, CELL anatomy

Abstract

Histochemistry is an essential analytical tool interfacing extensively with plant science. The literature is indeed constellated with examples showing its use to decipher specific physiological and developmental processes, as well as to study plant cell structures. Plant cell structures are translucent unless they are stained. Histochemistry allows the identification and localization, at the cellular level, of biomolecules and organelles in different types of cells and tissues, based on the use of specific staining reactions and imaging. Histochemical techniques are also widely used for the in vivo localization of promoters in specific tissues, as well as to identify specific cell wall components such as lignin and polysaccharides. Histochemistry also enables the study of plant reactions to environmental constraints, e.g. the production of reactive oxygen species (ROS) can be traced by applying histochemical staining techniques. The possibility of detecting ROS and localizing them at the cellular level is vital in establishing the mechanisms involved in the sensitivity and tolerance to different stress conditions in plants. This review comprehensively highlights the additional value of histochemistry as a complementary technique to high-throughput approaches for the study of the plant response to environmental constraints. Moreover, here we have provided an extensive survey of the available plant histochemical staining methods used for the localization of metals, minerals, secondary metabolites, cell wall components, and the detection of ROS production in plant cells. The use of recent technological advances like CRISPR/Cas9-based genome-editing for histological application is also addressed. This review also surveys the available literature data on histochemical techniques used to study the response of plants to abiotic stresses and to identify the effects at the tissue and cell levels. [ABSTRACT FROM AUTHOR]

Published

2021

50. Effect of Yoga on Blood Pressure in Prehypertension: A Systematic Review and Meta-Analysis.

Author

Khandekar, Janhavi Sandeep, Vasavi, Vanamala Lakshmi, Singh, Vijay Pratap, Samuel, Stephen Rajan, Sudhan, S. G., and Khandelwal, Bidita

Subjects

BLOOD pressure, PREHYPERTENSION, YOGA, CARDIOVASCULAR diseases risk factors, RESPIRATION, RANDOMIZED controlled trials

Abstract

Introduction: Prehypertension is a precursor for developing hypertension and is a risk factor for cardiovascular diseases. Yoga therapy may have a role in lowering the blood pressures in prehypertension and hypertension. This systematic review aims to synthesize the available literature for the same. Methodology. Databases such as PubMed, Embase, Scopus, and Web of Science were searched for randomised control trials only in the time duration of 2010-2021. The main outcome of interest was systolic and diastolic blood pressures. Articles were screened based on the inclusion criteria, and 8 articles were recruited for the review. Meta-analysis was done for suitable articles. RevMan 5.4 by Cochrane was used for meta-analysis and forest plot construction. Risk of bias was determined using the Downs and Black checklist by three independent authors.Results: The meta-analysis of the articles favoured yoga intervention over the control intervention. Yoga therapy had significantly reduced the systolic pressure (-0.62 standard mean difference, at IV fixed 95% CI: -0.83, -0.41) and diastolic pressure (-0.81 standard mean difference, at IV random 95% CI: -1.39, -0.22). Secondary outcome measures studied were heart rate, weight, BMI, waist circumference, and lipid profile. The main protocol of yoga therapy included postures, breathing exercises, and different meditation techniques. A significant reduction in secondary outcomes was observed, except for HDL values in lipid profile which showed a gradual increase in yoga group in comparison with alternative therapy.Conclusion: Yoga therapy has shown to be significant in the reduction of systolic and diastolic pressure in prehypertensive population. Supporting evidence lacks in providing a proper structured dosage of yoga asanas and breathing techniques. Considering the existing literature and evidence, Yoga therapy can be used and recommended in prehypertensive population and can be beneficial in reducing the chances of developing hypertension or cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2021