Your search keyword '"Gyan P. Mishra"' showing total 180 results

1. Spatio-temporal expression pattern of Raffinose Synthase genes determine the levels of Raffinose Family Oligosaccharides in peanut (Arachis hypogaea L.) seed

Author

Rajarshi Sanyal, Bhubaneswar Pradhan, Danish Md. Jawed, Kishor U. Tribhuvan, Anil Dahuja, Madan Kumar, Narendra Kumar, Gyan P. Mishra, Chet Ram, Mahesh Kumar Mahatma, Binay K. Singh, Satendra K. Mangrauthia, Anil K. Singh, T. R. Sharma, Arunava Pattanayak, and Sujit K. Bishi

Subjects

Medicine, Science

Abstract

Abstract Raffinose family oligosaccharides (RFOs) are known to have important physiological functions in plants. However, the presence of RFOs in legumes causes flatulence, hence are considered antinutrients. To reduce the RFOs content to a desirable limit without compromising normal plant development and functioning, the identification of important regulatory genes associated with the biosynthetic pathway is a prerequisite. In the present study, through comparative RNA sequencing in contrasting genotypes for seed RFOs content at different seed maturity stages, differentially expressed genes (DEGs) associated with the pathway were identified. The DEGs exhibited spatio-temporal expression patterns with high RFOs variety showing early induction of RFOs biosynthetic genes and low RFOs variety showing a late expression at seed maturity. Selective and seed-specific differential expression of raffinose synthase genes (AhRS14 and AhRS6) suggested their regulatory role in RFOs accumulation in peanut seeds, thereby serving as promising targets in low RFOs peanut breeding programs. Despite stachyose being the major seed RFOs fraction, differential expression of raffinose synthase genes indicated the complex metabolic regulation of this pathway. The transcriptomic resource and the genes identified in this study could be studied further to develop low RFOs varieties, thus improving the overall nutritional quality of peanuts.

Published

2023

2. Transcriptional Regulation of Small Heat Shock Protein 17 (sHSP-17) by Triticum aestivum HSFA2h Transcription Factor Confers Tolerance in Arabidopsis under Heat Stress

Author

Ranjeet R. Kumar, Kavita Dubey, Suneha Goswami, Gyanendra K. Rai, Pradeep K. Rai, Romesh K. Salgotra, Suman Bakshi, Dwijesh Mishra, Gyan P. Mishra, and Viswanathan Chinnusamy

Subjects

heat shock transcription factor, heat stress, small HSP, wheat, total antioxidant potential, GPX, Botany, QK1-989

Abstract

Heat shock transcription factors (HSFs) contribute significantly to thermotolerance acclimation. Here, we identified and cloned a putative HSF gene (HSFA2h) of 1218 nucleotide (acc. no. KP257297.1) from wheat cv. HD2985 using a de novo transcriptomic approach and predicted sHSP as its potential target. The expression of HSFA2h and its target gene (HSP17) was observed at the maximum level in leaf tissue under heat stress (HS), as compared to the control. The HSFA2h-pRI101 binary construct was mobilized in Arabidopsis, and further screening of T3 transgenic lines showed improved tolerance at an HS of 38 °C compared with wild type (WT). The expression of HSFA2h was observed to be 2.9- to 3.7-fold higher in different Arabidopsis transgenic lines under HS. HSFA2h and its target gene transcripts (HSP18.2 in the case of Arabidopsis) were observed to be abundant in transgenic Arabidopsis plants under HS. We observed a positive correlation between the expression of HSFA2h and HSP18.2 under HS. Evaluation of transgenic lines using different physio-biochemical traits linked with thermotolerance showed better performance of HS-treated transgenic Arabidopsis plants compared with WT. There is a need to further characterize the gene regulatory network (GRN) of HSFA2h and sHSP in order to modulate the HS tolerance of wheat and other agriculturally important crops.

Published

2023

3. Morpho-biochemical characterization of a RIL population for seed parameters and identification of candidate genes regulating seed size trait in lentil (Lens culinaris Medik.)

Author

Haragopal Dutta, Shivaprasad K. M., Muraleedhar S. Aski, Gyan P. Mishra, Subodh Kumar Sinha, Dunna Vijay, Manjunath Prasad C. T., Shouvik Das, Prashant Anupama-Mohan Pawar, Dwijesh C. Mishra, Amit Kumar Singh, Atul Kumar, Kuldeep Tripathi, Ranjeet Ranjan Kumar, Sanjeev Gupta, Shiv Kumar, and Harsh Kumar Dikshit

Subjects

BSA, cell membrane, cellulose, lignin, masur, videometer, Plant culture, SB1-1110

Abstract

The seed size and shape in lentil (Lens culinaris Medik.) are important quality traits as these influences the milled grain yield, cooking time, and market class of the grains. Linkage analysis was done for seed size in a RIL (F5:6) population derived by crossing L830 (20.9 g/1000 seeds) with L4602 (42.13 g/1000 seeds) which consisted of 188 lines (15.0 to 40.5 g/1000 seeds). Parental polymorphism survey using 394 SSRs identified 31 polymorphic primers, which were used for the bulked segregant analysis (BSA). Marker PBALC449 differentiated the parents and small seed size bulk only, whereas large seeded bulk or the individual plants constituting the large-seeded bulk could not be differentiated. Single plant analysis identified only six recombinant and 13 heterozygotes, of 93 small-seeded RILs (

Published

2023

4. Heat stress tolerance in peas (Pisum sativum L.): Current status and way forward

Author

Jyoti Devi, Vidya Sagar, Gyan P. Mishra, Prakash Kumar Jha, Nakul Gupta, Rakesh K. Dubey, Prabhakar M. Singh, Tusar K. Behera, and P. V. Vara Prasad

Subjects

heat stress, Pisum, heat shock proteins (HSPs), threshold temperature, QTLs, breeding, Plant culture, SB1-1110

Abstract

In the era of climate change, the overall productivity of pea (Pisum sativum L.) is being threatened by several abiotic stresses including heat stress (HS). HS causes severe yield losses by adversely affecting several traits in peas. A reduction in pod yield has been reported from 11.1% to 17.5% when mean daily temperature increase from 1.4 to 2.2°C. High-temperature stress (30.5-33°C) especially during reproductive phase is known to drastically reduce both seed yield and germination. HS during germination and early vegetative stage resulted in poor emergence and stunted plant growth along with detrimental effects on physiological functions of the pea plant. To combat HS and continue its life cycle, plants use various defense strategies including heat escape, avoidance or tolerance mechanisms. Ironically, the threshold temperatures for pea plant and its responses are inconsistent and not yet clearly identified. Trait discovery through traditional breeding such as semi leaflessness (afila), upright growing habit, lodging tolerance, lower canopy temperature and small seeded nature has highlighted their utility for greater adaptation under HS in pea. Screening of crop gene pool and landraces for HS tolerance in a targeted environment is a simple approach to identify HS tolerant genotypes. Thus, precise phenotyping using modern phenomics tools could lead to increased breeding efficiency. The NGS (next generation sequencing) data can be associated to find the candidate genes responsible for the HS tolerance in pea. In addition, genomic selection, genome wide association studies (GWAS) and marker assisted selection (MAS) can be used for the development of HS tolerant pea genotypes. Additionally, development of transgenics could be an alternative strategy for the development of HS tolerant pea genotypes. This review comprehensively covers the various aspects of HS tolerance mechanisms in the pea plant, screening protocols, omic advances, and future challenges for the development of HS tolerant genotypes.

Published

2023

5. Unraveling the pathways influencing the berry color and firmness of grapevine cv. Flame Seedless treated with bioregulators using biochemical and RNA-Seq analysis under semi-arid subtropics

Author

Vishal B. Mhetre, V.B. Patel, S.K. Singh, Gyan P. Mishra, M.K. Verma, Chavlesh Kumar, Anil Dahuja, Sanjeev Kumar, Rakesh Singh, and M. Wasim Siddiqui

Subjects

Abscisic acid, Berry color, Ethylene, Plant bioregulators, RNA-seq, Nutrition. Foods and food supply, TX341-641

Abstract

Plant bioregulators (PBRs) regulate developmental and physiological processes in plants. In this study, biochemical and transcriptomic analyses were conducted to evaluate the influence of PBRs [abscisic acid (ABA), benzothiadiazole (BTH), ethephon, and prohexadione-calcium (Pro-Ca)] on the grapevine cv. Flame Seedless under semi-arid subtropics. This study aims to see the effect of exogenous application of PBRs on overall berry quality, including uniformity of berry color. Uniform colored berries, the maximum total soluble solids (TSS) and total antioxidant activity (TAoA), and the highest total phenolics (TPC) and flavonoids (TFC) contents were obtained with the treatments, namely, 400 mg L-1 ethephon and 400 mg L-1 ABA. Further, RNA-Seq analysis has also identified some key DEGs like UFGT (VIT_16s0039g02230), GST (VIT_04s0079g00690), and chalcone synthase (CHS) (VIT_05s0136g00260) which were part of the anthocyanin biosynthesis pathway controlling grape berries color. Thus, ethephon (400 mg L-1) and ABA (400 mg L-1) were found promising for attaining greater uniformity in berry color development because of increased total anthocyanins content. In addition, they were also found associated with enhanced TAoA, TPC, and TFC. Hence, ethephon and ABA can be recommended for improving the berry quality.

Published

2022

6. Comparative transcriptome analysis, unfolding the pathways regulating the seed-size trait in cultivated lentil (Lens culinaris Medik.)

Author

Haragopal Dutta, Gyan P. Mishra, Muraleedhar S. Aski, Tejas C. Bosamia, Dwijesh C. Mishra, Jyotika Bhati, Subodh Kumar Sinha, Dunna Vijay, Manjunath Prasad C. T., Shouvik Das, Prashant Anupama-Mohan Pawar, Atul Kumar, Kuldeep Tripathi, Ranjeet Ranjan Kumar, Devendra Kumar Yadava, Shiv Kumar, and Harsh Kumar Dikshit

Subjects

RNA-seq, transcription factors, signal transduction pathway, Lens culinaris, seed parameters, Genetics, QH426-470

Abstract

Market class, cooking time, quality, and milled grain yield are largely influenced by the seed size and shape of the lentil (Lens culinaris Medik.); thus, they are considered to be important quality traits. To unfold the pathways regulating seed size in lentils, a transcriptomic approach was performed using large-seeded (L4602) and small-seeded (L830) genotypes. The study has generated nearly 375 million high-quality reads, of which 98.70% were properly aligned to the reference genome. Among biological replicates, very high similarity in fragments per kilobase of exon per million mapped fragments values (R > 0.9) showed the consistency of RNA-seq results. Various differentially expressed genes associated mainly with the hormone signaling and cell division pathways, transcription factors, kinases, etc. were identified as having a role in cell expansion and seed growth. A total of 106,996 unigenes were used for differential expression (DE) analysis. String analysis identified various modules having certain key proteins like Ser/Thr protein kinase, seed storage protein, DNA-binding protein, microtubule-associated protein, etc. In addition, some growth and cell division–related micro-RNAs like miR3457 (cell wall formation), miR1440 (cell proliferation and cell cycles), and miR1533 (biosynthesis of plant hormones) were identified as having a role in seed size determination. Using RNA-seq data, 5254 EST-SSR primers were generated as a source for future studies aiming for the identification of linked markers. In silico validation using Genevestigator® was done for the Ser/Thr protein kinase, ethylene response factor, and Myb transcription factor genes. It is of interest that the xyloglucan endotransglucosylase gene was found differentially regulated, suggesting their role during seed development; however, at maturity, no significant differences were recorded for various cell wall parameters including cellulose, lignin, and xylose content. This is the first report on lentils that has unfolded the key seed size regulating pathways and unveiled a theoretical way for the development of lentil genotypes having customized seed sizes.

Published

2022

7. Evaluation of Growth Conditions, Antioxidant Potential, and Sensory Attributes of Six Diverse Microgreens Species

Author

Ajeet Singh Dhaka, Harsh Kumar Dikshit, Gyan P. Mishra, Mechiya Tomuilim Tontang, Nand Lal Meena, Ranjeet Ranjan Kumar, S. V. Ramesh, Sneh Narwal, Muraleedhar Aski, Vinutha Thimmegowda, Sanjeev Gupta, Ramakrishnan M. Nair, and Shelly Praveen

Subjects

antioxidant potential, total phenolics, phytic acid, radical scavenging, Agriculture (General), S1-972

Abstract

Microgreens belong to a class of functional foods with valuable nutritional elements and diverse health benefits when consumed as food supplements. Its consumption has increased sharply due to the abundance of different health-promoting components than their mature plants. The present study investigated the growth conditions and nutritional profiles of six crops (mungbean, lentil, red radish, pearl-millet, mustard, and red cabbage) as microgreens grown under the light with a 16 h light/8 h dark cycle. Firstly, the optimum temperature and the day of harvesting of each of the microgreens for their maximum yield were standardized. The optimum temperature ranged from 24 to 28 °C, and the best stage for their harvesting ranged from the 6th to 13th day for all six microgreens species. Physiological parameters such as height, yield, color, moisture content, seed weight to fresh weight (FW) ratio, and FW to dry weight (DW) were also estimated. All the microgreens were analyzed for the total phenolics content, total anthocyanin content, vitamin C, free radical scavenging activity, dietary fiber, and phytic acid contents at the harvesting stage. Total phenolics, total anthocyanin, and vitamin C contents ranged from 55 to 1240 mg/100 g, 25 to 186 mg/100 g, and 22 to 86 mg/100 g, respectively, in the studied microgreens. Red cabbage and pearl-millet microgreens accumulated higher phenolics than other studied microgreens, while total anthocyanin content was higher in red radish and pearl-millet microgreens. Vitamin C content was recorded as highest in red cabbage microgreens. DPPH-based free radical scavenging activity ranged from 62–84% and was highest in red cabbage microgreens. All the microgreens were also analyzed for their dietary fiber (DF) content which ranged from 2.5–12.5% and was recorded as maximum in pearl millet microgreens. The findings of this study offer helpful information on the growth circumstances necessary to produce microgreens with the greatest nutrient and health benefits.

Published

2023

8. Agro-Morphological Characterization of Lentil Germplasm of Indian National Genebank and Development of a Core Set for Efficient Utilization in Lentil Improvement Programs

Author

Kuldeep Tripathi, Jyoti Kumari, Padmavati G. Gore, Dwijesh C. Mishra, Amit Kumar Singh, Gyan P. Mishra, C. Gayacharan, H. K. Dikshit, Neeta Singh, D. P. Semwal, Reena Mehra, Rakesh Bhardwaj, Ruchi Bansal, J. C. Rana, Ashok Kumar, Veena Gupta, Kuldeep Singh, and Ashutosh Sarker

Subjects

Lens culinaris, characterization, core-set, genetic diversity, trait-specific germplasm, Plant culture, SB1-1110

Abstract

Lentil (Lens culinaris Medik.) is one of the major cool-season pulse crops worldwide. Its increasing demand as a staple pulse has led to the unlocking of diverse germplasm collections conserved in the genebanks to develop its superior varieties. The Indian National Genebank, housed at the Indian Council of Agricultural Research (ICAR)-National Bureau of Plant Genetic Resources, New Delhi, India, currently has 2,324 accessions comprising 1,796 indigenous and 528 exotic collections. This study was conducted to unveil the potential of lentil germplasm by assessing its agro-morphological characteristics and diversity, identifying trait-specific germplasm, and developing a core set. The complete germplasm set was characterized for two years, i.e., 2017–2018 and 2018–2019, and data were recorded on 26 agro-morphological traits. High phenotypic variability was observed for nine quantitative and 17 qualitative traits. A core set comprising 170 accessions (137 Indian and 33 exotic) was derived based on the characterization data as well as geographical origin using a heuristic method and PowerCore software. This core set was found to be sufficiently diverse and representative of the entire collection based on the comparison made using Shannon–Weaver diversity indices and χ2 test. These results were further validated by summary statistics. The core set displayed high genetic diversity as evident from a higher coefficient of variance in comparison to the entire set for individual traits and overall Shannon–Weaver diversity indices (entire: 1.054; core: 1.361). In addition, the total variation explained by the first three principal components was higher in the core set (70.69%) than in the entire collection (68.03%). Further, the conservation of pairwise correlation values among descriptors in the entire and core set reflected the maintenance of the structure of the whole set. Based on the results, this core set is believed to represent the entire collection, completely. Therefore, it constitutes a potential set of germplasm that can be used in the genetic enhancement of lentils.

Published

2022

9. Diversity in Phytochemical Composition, Antioxidant Capacities, and Nutrient Contents Among Mungbean and Lentil Microgreens When Grown at Plain-Altitude Region (Delhi) and High-Altitude Region (Leh-Ladakh), India

Author

Priti, Gyan P. Mishra, Harsh K. Dikshit, Vinutha T., M. Tomuilim Tontang, Tsering Stobdan, Seema Sangwan, Muraleedhar Aski, Ajeet Singh, Ranjeet R. Kumar, Kuldeep Tripathi, Shiv Kumar, Ramakrishnan M. Nair, and Shelly Praveen

Subjects

Vigna microgreens, Lens microgreens, Fabaceae microgreens, antioxidants, mineral composition, Plant culture, SB1-1110

Abstract

Mungbeans and lentils are relatively easily grown and cheaper sources of microgreens, but their phytonutrient diversity is not yet deeply explored. In this study, 20 diverse genotypes each of mungbean and lentil were grown as microgreens under plain-altitude (Delhi) and high-altitude (Leh) conditions, which showed significant genotypic variations for ascorbic acid, tocopherol, carotenoids, flavonoid, total phenolics, DPPH (1, 1-diphenyl-2-picrylhydrazyl), FRAP (ferric-reducing antioxidant power), peroxide activity, proteins, enzymes (peroxidase and catalase), micronutrients, and macronutrients contents. The lentil and mungbean genotypes L830 and MH810, respectively, were found superior for most of the studied parameters over other studied genotypes. Interestingly, for most of the studied parameters, Leh-grown microgreens were found superior to the Delhi-grown microgreens, which could be due to unique environmental conditions of Leh, especially wide temperature amplitude, photosynthetically active radiation (PAR), and UV-B content. In mungbean microgreens, total phenolics content (TPC) was found positively correlated with FRAP and DPPH, while in lentil microgreens, total flavonoid content (TFC) was found positively correlated with DPPH. The most abundant elements recorded were in the order of K, P, and Ca in mungbean microgreens; and K, Ca, and P in the lentil microgreens. In addition, these Fabaceae microgreens may help in the nutritional security of the population residing in the high-altitude regions of Ladakh, especially during winter months when this region remains landlocked due to heavy snowfall.

Published

2021

10. Morphological, Molecular, and Biochemical Characterization of a Unique Lentil (Lens culinaris Medik.) Genotype Showing Seed-Coat Color Anomalies Due to Altered Anthocyanin Pathway

Author

Gyan P. Mishra, Ankita, Muraleedhar S. Aski, Mechiya Tomuilim Tontang, Priti Choudhary, Kuldeep Tripathi, Ajeet Singh, Ranjeet Ranjan Kumar, Vinutha Thimmegowda, Tsering Stobdan, Atul Kumar, Rakesh Bhardwaj, Shelly Praveen, Devendra Kumar Yadava, Shiv Kumar, and Harsh Kumar Dikshit

Subjects

antioxidant activity, delphinidin, microgreens, sprouts, SSRs, testa color, Botany, QK1-989

Abstract

This study reports the identification of a unique lentil (Lens culinaris Medik.) genotype L4717-NM, a natural mutant (NM) derived from a variety L4717, producing brown, black, and spotted seed-coat colored seeds in a single plant, generation after generation, in different frequencies. The genetic similarity of L4717 with that of L4717-NM expressing anomalous seed-coat color was established using 54 SSR markers. In addition, various biochemical parameters such as TPC (total phenolic content), TFC (total flavonoid content), DPPH (2,2-diphenyl-1-picrylhydrazyl), FRAP (ferric reducing antioxidant power), H2O2 (peroxide quantification), TCC (total carotenoids content), TAC (total anthocyanin content), and TAA (total ascorbic acid) were also studied in the seeds, sprouts, and seedlings of L4717, brown, black, and spotted seed-coat colored seeds. Stage-specific variations for the key biochemical parameters were recorded, and seedling stage was found the best for many parameters. Moreover, seeds with black seed coat showed better nutraceutical values for most of the studied traits. A highly significant (p ≤ 0.01) and positive correlation was observed between DPPH and TPC, TAA, TFC, etc., whereas, protein content showed a negative correlation with the other studied parameters. The seed coat is maternal tissue and we expect expression of seed-coat color as per the maternal genotype. However, such an anomalous seed-coat expression, which seems to probably be governed by some transposable element in the identified genotype, warrants more detailed studies involving exploitation of the anthocyanin pathway.

Published

2022

11. 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

12. 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

13. Genetic Variation for Traits Related to Phosphorus Use Efficiency in Lens Species at the Seedling Stage

Author

Vinita Ramtekey, Ruchi Bansal, Muraleedhar S. Aski, Deepali Kothari, Akanksha Singh, Renu Pandey, Kuldeep Tripathi, Gyan P. Mishra, Shiv Kumar, and Harsh Kumar Dikshit

Subjects

Lens species, phenotyping, root system architecture, phosphorus uptake, phosphorus utilization, phosphorus use efficiency, Botany, QK1-989

Abstract

Phosphorus (P) is an essential, non-renewable resource critical for crop productivity across the world. P is immobile in nature and, therefore, the identification of novel genotypes with efficient P uptake and utilization under a low P environment is extremely important. This study was designed to characterize eighty genotypes of different Lens species for shoot and root traits at two contrasting levels of P. A significant reduction in primary root length (PRL), total surface area (TSA), total root tips (TRT), root forks (RF), total dry weight (TDW), root dry weight (RDW) and shoot dry weight (SDW) in response to P deficiency was recorded. A principal component analysis revealed that the TDW, SDW and RDW were significantly correlated to P uptake and utilization efficiency in lentils. Based on total dry weight (TDW) under low P, L4727, EC718309, EC714238, PL-97, EC718348, DPL15, PL06 and EC718332 were found promising. The characterization of different Lens species revealed species-specific variations for the studied traits. Cultivated lentils exhibited higher P uptake and utilization efficiency as compared to the wild forms. The study, based on four different techniques, identified EC714238 as the most P use-efficient genotype. The genotypes identified in this study can be utilized for developing mapping populations and deciphering the genetics for breeding lentil varieties suited for low P environments.

Published

2021

14. Combining Fourier-transform infrared spectroscopy and multivariate analysis for chemotyping of cell wall composition in Mungbean (Vigna radiata (L.) Wizcek)

Author

Shouvik Das, Vikrant Bhati, Bhagwat Prasad Dewangan, Apurva Gangal, Gyan Prakash Mishra, Harsh Kumar Dikshit, and Prashant Anupama Mohan Pawar

Subjects

Plant cell wall, Mungbean, Cellulose, Lignin, FT-IR, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Dissection of complex plant cell wall structures demands a sensitive and quantitative method. FTIR is used regularly as a screening method to identify specific linkages in cell walls. However, quantification and assigning spectral bands to particular cell wall components is still a major challenge, specifically in crop species. In this study, we addressed these challenges using ATR-FTIR spectroscopy as it is a high throughput, cost-effective and non-destructive approach to understand the plant cell wall composition. This method was validated by analysing different varieties of mungbean which is one of the most important legume crops grown widely in Asia. Results Using standards and extraction of a specific component of cell wall components, we assigned 1050–1060 cm−1 and 1390–1420 cm−1 wavenumbers that can be widely used to quantify cellulose and lignin, respectively, in Arabidopsis, Populus, rice and mungbean. Also, using KBr as a diluent, we established a method that can relatively quantify the cellulose and lignin composition among different tissue types of the above species. We further used this method to quantify cellulose and lignin in field-grown mungbean genotypes. The ATR-FTIR-based study revealed the cellulose content variation ranges from 27.9% to 52.3%, and the lignin content variation ranges from 13.7% to 31.6% in mungbean genotypes. Conclusion Multivariate analysis of FT-IR data revealed differences in total cell wall (600–2000 cm−1), cellulose (1000–1100 cm−1) and lignin (1390–1420 cm−1) among leaf and stem of four plant species. Overall, our data suggested that ATR-FTIR can be used for the relative quantification of lignin and cellulose in different plant species. This method was successfully applied for rapid screening of cell wall composition in mungbean stem, and similarly, it can be used for screening other crops or tree species.

Published

2024

15. Transgenic Peanut (Arachis hypogaea L.) Overexpressing mtlD Gene Showed Improved Photosynthetic, Physio-Biochemical, and Yield-Parameters under Soil-Moisture Deficit Stress in Lysimeter System

Author

Kirankumar G. Patel, Radhakrishnan Thankappan, Gyan P. Mishra, Viralkumar B. Mandaliya, Abhay Kumar, and Jentibhai R. Dobaria

Subjects

drought stress, peanut, lysimeter system, physio-biochemical parameters, growth-related traits, wilting symptoms, Plant culture, SB1-1110

Abstract

Peanut, an important oilseed crop, frequently encounters drought stress (DS) during its life cycle. In this study, four previously developed mtlD transgenic (T) peanut lines were used for detailed characterization under DS, at the reproductive stage using lysimeter system under controlled greenhouse conditions. In dry-down experiments, T lines maintained better photosynthetic machinery, such as, photosynthesis rate, stomatal conductance, transpiration rate, and SPAD (Soil-Plant Analyses Development) values, and had lower oxidative damage, including lipid membrane peroxidation and hydrogen peroxide and superoxide radical accumulation than WT, when exposed to 24 days of DS. WT plants had a more negative water potential (WP; up to −3.22 MPa) than T lines did (−2.56 to −2.71 MPa) at day 24 of DS treatment. During recovery, T lines recovered easily whereas 67% of WT plants failed to recover. In T lines, the rate of photosynthesis strongly and positively correlated with the transpiration rate (r = 0.92), RWC (r = 0.90), WP (r = 0.86), and total chlorophyll content (r = 0.75), suggesting its strong correlation with water retention-related parameters. Furthermore, yield parameters such as, pod weight and harvest index of T lines were up to 2.19 and 1.38 times more than those of WT plants, respectively. Thus, the significantly better performance of mtlD T peanut lines than of WT plants under DS could be attributed to the accumulation of mannitol, which in turn helped in maintaining the osmoregulation and ROS scavenging activity of mannitol and ultimately conferred water-economizing capacity and higher yield in T lines than in WT plants.

Published

2017

16. Pollen biology and metaxenic studies on early maturing grape (Vitis vinifera) genotypes

Author

ASHOK DHAKAD, V B PATEL, S K SINGH, M K VERMA, GYAN P MISHRA, V B MHETRE, CHAVLESH KUMAR, RAKESH SINGH, S RAJKUMAR, and KISHOR GAIKWAD

Subjects

Pollen parent, Pollination, Pollinizer, Pusa Navrang, Vitis vinifera, Agriculture

Abstract

The present experiment was conducted during 2020–21 and 2021–22 at ICAR-Indian Agricultural Research Institute, New Delhi to study the impact of open-, self-, and cross-pollination on metaxenic traits (berries) and the incidence of cleistogamy in grapes (Vitis vinifera L.). Seven different cross-combinations were used on the grape variety Pusa Navrang, which were planted at 3 m × 3 m spacing and trained on the Y-trellis training system. The experiment was laid out in a randomized block design (RBD) with four replications. The incidence of cleistogamy, berry set, retention percentage, and the metaxenia effect of pollen grains in different grapevine varieties, namely, Pusa Navrang (PN), Black Muscat (BM), Pusa Swarnika (PS), Beauty Seedless (BS), Perlette (PER), Male Hybrid (MH), were studied. Also, pollen quantity and viability were determined for the different grapevine varieties under study. Depending on the genotypes and whether the fruit set is obtained inside the covered flowers, cleistogamy was confirmed. A significantly higher berry set (40–85%) and retention (32–77%) were recorded in open- and self-pollinated flowers. The total number of pollens/anther in six grape genotypes ranged from 7916.62–23832.02, whereas the maximum active pollen rates were noted in the Male Hybrid (70.01%) and Black Muscat (66.80%). The pollens from the Beauty Seedless genotype exhibited significant enhancement of metaxenic traits such as berry set, retention, and size in Pusa Navrang. Therefore, utilizing Beauty Seedless as a pollen parent in grape breeding programmes holds promise for enhancing berry set and overall berry quality, thus enhancing the hybridization efficiency.

Published

2024

17. NCoR1 is a master repressor of the tolerogenic program in dendritic cells

Author

Abdul Ahad, Mathias Stevanin, Shuchi Smita, Gyan P. Mishra, Dheerendra Gupta, Sebastian M. Waszak, Bhawna Gupta, Hans Acha-Orbea, and Sunil K. Raghav

Subjects

Biotechnology, TP248.13-248.65

Abstract

The therapeutic potential of tolerogenic dendritic cells (DCs) for autoimmune disorders and transplantation has been widely proposed. We show here for the first time that nuclear receptor co-repressor 1 (NCoR1) strongly represses the tolerogenic program in activated DCs despite of its known immunogenic role in macrophages that intriguing the paradigm of immune regulation in this lineage through NCoR1. DC specific conditional NCoR1 knock out (NCoR1DC-/-) mice also shows tolerogenic behavior as we found in our cell line NCoR1 KD CD8α+ DCs and consequently increase in Treg cells in-vivo or in-vitro. Bacterial and parasitic infection in NCoR1DC-/- animals enhanced Treg development with a concomitant increase in disease burden. Likewise, adoptive transfer of activated NCoR1 KD DCs in helminth-infected mice increased both Tregs and intestinal worm load which suggest NCoR1 as a direct switch controlling tolerogenic genes in DCs. Next we employed integrative genomics approach to dissect the tolerogenic mechanism of NCoR1 in CD8α+ DCs in which we found globally NCoR1 prevent most of the tolerogenic genes from recruiting activating transcription factor RelA which allows these cells to mount pathogen specific immune responses. Interestingly we also found most of these tolerogenic genes were marked by super enhancers which might be super repressed by NCoR1 suggesting NCoR1 as a global corepressor for tolerogenic program in DCs and highlight novel mechanism of tolerogenicity in DCs via NCoR1 which can be flourished in different autoimmune disease pathogenesis.

Published

2017

18. Genetic variation for tolerance to pre-harvest sprouting in mungbean (Vigna radiata) genotypes

Author

Soma Gupta, Muraleedhar Aski, Gyan Prakash Mishra, Prachi S. Yadav, Kuldeep Tripathi, Sandeep Kumar Lal, Simran Jain, Ramakrishnan Madhavan Nair, and Harsh Kumar Dikshit

Subjects

Mungbean, Pre-harvest sprouting, Genetic variability, Donors, Correlation, Principal component analysis, Medicine, Biology (General), QH301-705.5

Abstract

Pre-harvest sprouting (PHS) is one of the important abiotic stresses in mungbean which significantly reduces yield and quality of the produce. This study was conducted to evaluate the genetic variability for tolerance to pre-harvest sprouting in diverse mungbean genotypes while simultaneously deciphering the association of yield contributing traits with PHS. Eighty-three diverse mungbean genotypes (23 released varieties, 23 advanced breeding lines and 37 exotic germplasm lines) were investigated for tolerance to PHS, water imbibition capacities by pods, pod and seed physical traits. Wide variation in PHS was recorded which ranged between 17.8% to 81% (mean value 54.34%). Germplasm lines exhibited higher tolerance to PHS than the high-yielding released varieties. Correlation analysis revealed PHS to be positively associated with water imbibition capacity by pods (r = 0.21) and germinated pod % (r = 0.78). Pod length (r = −0.13) and seeds per pod (r = −0.13) were negatively influencing PHS. Positive associations between PHS and water imbibition capacity by pods, germinated pod % and 100-seed weight was further confirmed by multivariate analysis. Small-seeded genotypes having 100-seed weight

Published

2024

19. Fruit Quality Assessment of Novel Hybrid Pummelo × Sweet Orange and Its Molecular Characterization Using Acidity Specific Markers

Author

Raushan Kumar, Nimisha Sharma, Anil Kumar Dubey, Radha Mohan Sharma, Shruti Sethi, Gyan Prakash Mishra, Sandeep Mathur, Hatkari Vittal, Mukesh Shivran, and Neha Sharma

Subjects

acidity specific m. arkers, ascorbic acid, antioxidants, nutritional quality, hybrids, pummelo, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Research backgroundThere is considerable diversity in newly developed pummelo × sweet orange citrus hybrids. Most hybrids showed lower peel thickness and high juice yield but there is a lack of information on fruit quality parameters and molecular characterization. Therefore, the aim of the current study is to determine the content of antioxidants and properties of the fresh juice of 24 new pummelo × sweet orange citrus hybrids (Citrus maxima [Burm. f.] Osbeck × Citrus sinensis [L.] Osbeck) and the parental genotypes along with molecular characteristics determined using acidity specific markers. Experimental approach. The correlation and estimate of inheritance of the fruit juice properties: ascorbic acid, total phenol, total flavonoid, total antioxidant, total soluble solid and sugar contents, pH, titratable acidity, along with sensory evaluation was performed. Molecular characterization of these hybrids was carried out using de novo generated acidity specific simple sequence repeat (SSR) markers. Results and conclusions. The main constituents of the fruit juice of pummelo × sweet orange hybrids were observed in the range of w(ascorbic acid)=40.00–58.13 mg/100 g, total phenols expressed as gallic acid equivalents w(GAE)=40.67–107.33 mg/100 g, total antioxidants expressed as Trolox equivalents b(Trolox)=2.03–5.49 µmol/g, total flavonoids expressed as quercetin equivalents w(QE)=23.67–59.33 mg/100 g, along with other properties: total soluble solids=7.33–11.33 %, w(total sugar)=2.10–5.76 %, w(reducing sugar)=1.69–2.78 %, w(non-reducing sugar)=0.39–3.17 % and titratable acidity 1.00–2.11 %. The above parameters differed significantly in the fruit juice of the evaluated pummelo × sweet orange hybrids. Considering these parameters, the hybrids SCSH 17-9, SCSH 13-13, SCSH 11-15 and SCSH 3-15 had superior antioxidant properties in terms of these parameters. A higher heritability (≥80 %) was also observed for all juice properties. Molecular characterization of pummelo × sweet orange hybrids showed that >50 % of the hybrids were grouped with medium acidity parents. Both molecular and biochemical parameter-based clustering showed that interspecific hybrids exhibit transgressive segregation with increased antioxidants that help alleviate the health problems. Novelty and scientific contribution. These newly developed pummelo × sweet orange citrus hybrids are a valuable source of high-quality antioxidants for a healthy diet. The identification of trait markers that enable selection at the seedling stage is of great benefit to citrus breeders, as the characteristic features of a mature tree are not yet visible at the juvenile stage.

Published

2024

20. 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

21. Morphological characterization of newly developed orangelo (Citrus spp.) hybrids

Author

RAUSHAN KUMAR, NIMISHA SHARMA, A K DUBEY, R M SHARMA, HATKARI VITTAL, SANDEEP, GYAN P MISHRA, SHRUTI SETHI, MUKESH SHIVRAN, and DEEPAK

Subjects

Diversity, Morphological, Orangelo, Quantitative variation, Agriculture

Abstract

Present study was carried out during 2021–23 (Ambe and Mrig bahar season) at the research farm of ICAR- Indian Agricultural Research Institute, New Delhi to analyse the morphological diversity of 24 orangelo (Citrus spp.) hybrids and their 4 parents based on 17 quantitative traits such as leaves, flowers, fruits and seed characters. Cluster analysis based on 17 morphological traits divided 28 genotypes of citrus into two main groups. A higher range of variation with average Euclidean distance coefficients ranging from 0.02–0.26 was observed between groups as well as clusters, thereby indicating that genotypes within and among clusters were highly diverse. The PCA for morphological quantitative traits showed that five components leaf lamina length (LLL); leaf lamina width (LLW); LLL: LLW; leaf lamina thickness and pedicel length, of the 17 principal component axis had Eigen-values>1 and all together accounted for over 77.76% of the total variability. Analysing the genetic relationships among the hybrids yielded important insights for potential use in future breeding programmes as valuable sources of desirable traits.

Published

2024

22. Genome-wide discovery of InDels and validation of PCR-Based InDel markers for earliness in a RIL population and genotypes of lentil (Lens culinaris Medik.).

Author

K M Shivaprasad, Muraleedhar Aski, Gyan Prakash Mishra, Subodh Kumar Sinha, Soma Gupta, Dwijesh C Mishra, Amit Kumar Singh, Akanksha Singh, Kuldeep Tripathi, Ranjeet Ranjan Kumar, Atul Kumar, Shiv Kumar, and Harsh K Dikshit

Subjects

Medicine, Science

Abstract

The systematic identification of insertion/deletion (InDel) length polymorphisms from the entire lentil genome can be used to map the quantitative trait loci (QTL) and also for the marker-assisted selection (MAS) for various linked traits. The InDels were identified by comparing the whole-genome resequencing (WGRS) data of two extreme bulks (early- and late-flowering bulk) and a parental genotype (Globe Mutant) of lentil. The bulks were made by pooling 20 extreme recombinant inbred lines (RILs) each, derived by crossing Globe Mutant (late flowering parent) with L4775 (early flowering parent). Finally, 734,716 novel InDels were identified, which is nearly one InDel per 5,096 bp of lentil genome. Furthermore, 74.94% of InDels were within the intergenic region and 99.45% displayed modifier effects. Of these, 15,732 had insertions or deletions of 20 bp or more, making them amenable to the development of PCR-based markers. An InDel marker I-SP-356.6 (chr. 3; position 356,687,623; positioned 174.5 Kb from the LcFRI gene) was identified as having a phenotypic variance explained (PVE) value of 47.7% for earliness when validated in a RIL population. Thus, I-SP-356.6 marker can be deployed in MAS to facilitate the transfer of the earliness trait to other elite late-maturing cultivars. Two InDel markers viz., I-SP-356.6 and I-SP-383.9 (chr. 3; linked to LcELF3a gene) when tested in 9 lentil genotypes differing for maturity duration, clearly distinguished three early (L4775, ILL7663, Precoz) and four late genotypes (Globe Mutant, MFX, L4602, L830). However, these InDels could not be validated in two genotypes (L4717, L4727), suggesting either absence of polymorphism and/or presence of other loci causing earliness. The identified InDel markers can act as valuable tools for MAS for the development of early maturing lentil varieties.

Published

2024

23. 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

24. Development and Validation of Near-Infrared Reflectance Spectroscopy Prediction Modeling for the Rapid Estimation of Biochemical Traits in Potato

Author

Paresh Chaukhande, Satish Kumar Luthra, R. N. Patel, Siddhant Ranjan Padhi, Pooja Mankar, Manisha Mangal, Jeetendra Kumar Ranjan, Amolkumar U. Solanke, Gyan Prakash Mishra, Dwijesh Chandra Mishra, Brajesh Singh, Rakesh Bhardwaj, Bhoopal Singh Tomar, and Amritbir Singh Riar

Subjects

near-infrared reflectance spectroscopy (NIRS), nutritional variability, MPLS regression model, RSQexternal/internal, RPD, Chemical technology, TP1-1185

Abstract

Potato is a globally significant crop, crucial for food security and nutrition. Assessing vital nutritional traits is pivotal for enhancing nutritional value. However, traditional wet lab methods for the screening of large germplasms are time- and resource-intensive. To address this challenge, we used near-infrared reflectance spectroscopy (NIRS) for rapid trait estimation in diverse potato germplasms. It employs molecular absorption principles that use near-infrared sections of the electromagnetic spectrum for the precise and rapid determination of biochemical parameters and is non-destructive, enabling trait monitoring without sample compromise. We focused on modified partial least squares (MPLS)-based NIRS prediction models to assess eight key nutritional traits. Various mathematical treatments were executed by permutation and combinations for model calibration. The external validation prediction accuracy was based on the coefficient of determination (RSQexternal), the ratio of performance to deviation (RPD), and the low standard error of performance (SEP). Higher RSQexternal values of 0.937, 0.892, and 0.759 were obtained for protein, dry matter, and total phenols, respectively. Higher RPD values were found for protein (3.982), followed by dry matter (3.041) and total phenolics (2.000), which indicates the excellent predictability of the models. A paired t-test confirmed that the differences between laboratory and predicted values are non-significant. This study presents the first multi-trait NIRS prediction model for Indian potato germplasm. The developed NIRS model effectively predicted the remaining genotypes in this study, demonstrating its broad applicability. This work highlights the rapid screening potential of NIRS for potato germplasm, a valuable tool for identifying trait variations and refining breeding strategies, to ensure sustainable potato production in the face of climate change.

Published

2024

25. Fascinating Dynamics of Silicon in alleviation of heat stress Induced oxidative damage in plants

Author

Ranjeet R. Kumar, Gyanendra K. Rai, Suneetha Kota, Archana Watts, Akshay Sakhare, Sudhir Kumar, Suneha Goswami, Neelesh Kapoor, Prashant Babu, Gyan P. Mishra, Soora Naresh Kumar, Viswanathan Chinnusamy, and Shelly Praveen

Subjects

Physiology, Plant Science, Agronomy and Crop Science

Published

2022

26. Nutritional supremacy of pearl- and foxtail millets: assessing the nutrient density, protein stability and shelf-life of flours in millets and cereals for developing nutri-stable foods

Author

Ranjeet R. Kumar, Neha Singh, Sapna Singh, T. Vinutha, Veda Krishnan, Suneha Goswami, Bhupinder Kumar, Shankar L. Jat, L. N. Yogeesh, Sumer P. Singh, Gyan P. Mishra, C. Tara Satyavathi, Archana Sachdev, and Shelly Praveen

Subjects

Plant Science, Agronomy and Crop Science, Biotechnology

Published

2022

27. Design and Sensitivity Improvement of Microstructured-Core Photonic Crystal Fiber Based Sensor for Methane and Hydrogen Fluoride Detection

Author

Dharmendra Kumar, Vijay Shanker Chaudhary, Santosh Kumar, and Gyan P. Mishra

Subjects

Core (optical fiber), chemistry.chemical_compound, Materials science, chemistry, business.industry, Optoelectronics, Sensitivity (control systems), Electrical and Electronic Engineering, business, Hydrogen fluoride, Instrumentation, Methane, Photonic-crystal fiber

Published

2022

28. Epigenetics of Abiotic Stress Tolerance in Legumes

Author

Gyan P. Mishra, Harsh K. Dikshit, Jyoti Devi, Muraleedhar S. Aski, and Kumar Durgesh

Published

2023

29. Bhendi Yellow Vein Mosaic Virus and Bhendi Yellow Vein Mosaic Betasatellite Cause Enation Leaf Curl Disease and Alter Host Phytochemical Contents in Okra

Author

Achuit K. Singh, P. M. Singh, Jagdish Singh, Tania Seth, Shweta Kumari, R. Vinoth Kumar, Brijesh K. Yadav, Bijendra Singh, Ram Krishna, Nagendran Krishnan, Gyan P. Mishra, and Suhas G. Karkute

Subjects

0301 basic medicine, Enation, Host (biology), Phytochemicals, 030106 microbiology, Begomovirus, food and beverages, Plant Science, Whitefly, Biology, biology.organism_classification, 03 medical and health sciences, Horticulture, 030104 developmental biology, Phytochemical, Abelmoschus, Disease management (agriculture), DNA, Viral, Bhendi yellow vein mosaic virus, Leaf curl, Agronomy and Crop Science, Phylogeny, Plant Diseases

Abstract

Whitefly (Bemisia tabaci)-transmitted begomoviruses cause severe diseases in numerous economically important dicotyledonous plants. Okra enation leaf curl disease (OELCuD) has emerged as a serious threat to okra (Abelmoschus esculentus L. Moench) cultivation in the Indian subcontinent. This study reports the association of a monopartite begomovirus (bhendi yellow vein mosaic virus; BYVMV) and betasatellite (bhendi yellow vein mosaic betasatellite; BYVB) with OELCuD in the Mau region of Uttar Pradesh, India. The BYVMV alone inoculated Nicotiana benthamiana and A. esculentus cv. Pusa Sawani plants developed mild symptoms. Co-inoculation of BYVMV and BYVB resulted in a reduced incubation period, an increased symptom severity, and an enhanced BYVMV accumulation by Southern hybridization and quantitative real-time PCR. This is the first study that satisfies Koch’s postulates for OELCuD in its natural host. Activities of various antioxidative enzymes were significantly increased in the virus-inoculated okra plants. Differential responses in various biochemical components (such as photosynthetic pigments, phenol, proline, and sugar) in diseased okra plants were observed. This change in phytochemical responses is significant in understanding its impact on virus pathogenesis and disease development.

Published

2021

30. MORPHOMETRIC ASSESSMENT OF FEMORAL CONDYLAR PARAMETERS IN GUJARAT REGION AND ITS CLINICAL RELEVANCE : AN OSTEOLOGICAL STUDY

Author

Abhinav Kumar Mishra, Navneet Kumar, Principal, Mvasmc, Basti., Pawan Kumar Dubey, Gyan P. Mishra, and Achaleshwar Gandotra

Subjects

Orthodontics, Osteology, business.industry, Medicine, Clinical significance, musculoskeletal system, business, Condyle

Abstract

The Femur is the longest and strongest bone of the lower limb in which there is a groove present on anterior side and a notch present on posterior side. The anterior groove is called as patella-femoral groove and posterior notch is called Intercondylar (IC) Notch. There are two most important ligaments are connected with notch called Anterior Cruciate Ligament (ACL) and Posterior Cruciate Ligament (PCL), associated by embryological and cognitive to the notch.The aim of this study is to find out the condylar parameters of femur. We obtained 50 completely ossified dry femur of both sides from Department of Anatomy, SBKSMIRC, Sumandeep Vidyapeeth. The Mean ± SDof femoral parameters were measured and correlation were also calculated between various parameters which is found to be positively correlated.It guides to the anatomists as well as Orthopaedicians and forensic practices also.

Published

2021

31. Infuence of new generation plant bio-regulators on physio-biochemical alterations in grapes cv. Beauty Seedless

Author

V.B. Mhetre, S. K. Singh, Gyan P. Mishra, Chavlesh Kumar, M. K. Verma, Anil Dahuja, Vishnu Patel, and Amit Kumar

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, Horticulture, Chemistry, Chlorophyll, Berry, Photosynthesis, Water content, Carotenoid, Abscisic acid, Transpiration, Ethephon

Abstract

Infuence of benzothiadiazole (BTH) and pro-hexadione calcium (Pro-Ca), abscisic acid (ABA) and ethephon on leaf gas exchange parameters such as net photosynthesis rate (A), stomatal conductivity (gs), intercellular CO2 concentration (Ci) and leaf transpiration rate (E), leaf stomatal density, leaf relative water content (RWC) and leaf biochemical parameters along with berry surface colour characteristics such as L*(lightness), a*(greenness to redness), b*(blueness to yellowness), chroma (C*), hue angle (ho) and CIRD (Colour Index for Red Grapes) were examined on grapevine cv. ‘Beauty Seedless' especially under hot subtropical conditions. The highest leaf A(12.20 µmol CO2 m−2 s−1) and gs(0.15 mmol m−2 s−1) were recorded with Pro-Ca 400 ppm treatment, while the lowest A(7.97 µmol CO2 m−2 s−1) and gs(0.05 mmol m−2 s−1) were recorded with ABA 400 ppm and ethephon 400 ppm, respectively. Among other physiological parameters, the highest value of Ci was measured with ABA 400 ppm (265.29 mol m−2 s−1) treated vines followed by ethephon 400 ppm (261.78 mol m−2 s−1). The vines sprayed with ethephon 400 ppm (3.18 mmol m−2 s−1) were recorded had the lowest value of leaf E. Similar trends were also recorded for leaf RWC. Treatments ABA (400 ppm) and ethephon (400 ppm) decreased the stomatal density signifcantly. The highest chlorophyll ‘a' content was observed in case of ethephon 400 ppm (2.39 mg g−1) treated leaves having similarity statistically with all the treatments except control, while the highest chlorophyll ‘b' and total chlorophyll contents were noted with ABA 400 ppm. Treatment ethephon 400 ppm (0.89 mg g−1) improved the total carotenoids content, which proved similar statistically with ABA 400 ppm (0.88 mg g−1). The least values of L*, C* and the highest CIRG index were recorded for ABA 400 ppm (19.63, 2.36 and 7.61, respectively) followed by ethephon 400 ppm (20.14, 2.67 and 7.43, respectively).

Published

2021

32. First Report of a Novel Multi-flowering Germplasm with Fasciated Stem in Lentil (Lens culinaris Medik.)

Author

Kuldeep Singh, Harsh Kumar Dikshit, Dileep Tripathi, Ashutosh Sarker, Gayacharan, Gyan P. Mishra, Ashok Kumar, Reena Mehra, and Kuldeep Tripathi

Subjects

Germplasm, Horticulture, Lens (geology), Biology

Published

2021

33. NCoR1 fine‐tunes type‐I IFN response in cDC1 dendritic cells by directly regulating Myd88‐IRF7 axis under TLR9

Author

Kaushik Sen, Bhawna Gupta, Gyan P. Mishra, Shuchi Smita, Abdul Ahad, Viplov Kumar Biswas, Hans Acha-Orbea, Sunil K. Raghav, and Dominique Garcin

Subjects

0301 basic medicine, Interferon Regulatory Factor-7, Immunology, chemical and pharmacologic phenomena, Stimulation, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Interferon, Splenocyte, medicine, Animals, Nuclear Receptor Co-Repressor 1, Immunology and Allergy, Secretion, Cells, Cultured, ddc:616, Mice, Knockout, Gene knockdown, TLR9, hemic and immune systems, Dendritic Cells, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, Toll-Like Receptor 9, Interferon Type I, Myeloid Differentiation Factor 88, IRF7, Female, Signal transduction, Signal Transduction, 030215 immunology, medicine.drug

Abstract

Plasmacytoid dendritic cells (DCs) are reported to induce robust type-I interferon (IFN) response, whereas cDC1 DCs develop moderate type-I IFN response upon TLR9 stimulation. It is very interesting to understand how this signaling under TLR9 is tightly regulated for the induction of type-I IFNs. Here, we report co-repressor protein NCoR1 as the major factor fine-tuning the signaling pathways regulating IFN-β expression under TLR9 in cDC1 DCs. We found that NCoR1 knockdown induced a robust IFN-β-mediated antiviral response upon TLR9 activation in cDC1 DCs. At the molecular level, we showed that NCoR1 directly repressed MyD88-IRF7 signaling axis in cDC1 cells. Therefore, NCoR1 depletion enhanced pIRF7 levels, IFN-β secretion, and downstream pSTAT1-pSTAT2 signaling, leading to sustained induction of IFN stimulatory genes. Integrative genomic analysis depicted strong enrichment of an antiviral gene-module in CpG-activated NCoR1 knockdown DCs upon TLR9 activation. Moreover, we confirmed our findings in primary DCs derived from splenocytes of WT and NCoR1 DC-/- animals, which showed protection from Sendai and Vesicular Stomatitis viruses upon CpG activation. Ultimately, we identified that NCoR1-HDAC3 complex is involved in repressing the type-I IFN response in cDC1 DCs.

Published

2020

34. Identification and characterization of novel penta‐podded genotypes in the cultivated lentil

Author

Muraleedhar Aski, Jyoti Devi, Jyoti Kumari, Gyan P. Mishra, Priti, Ashutosh Sarker, Shiv Kumar, Kuldeep Tripathi, Harsh Kumar Dikshit, and Reena Mehra

Subjects

Genetics, Genotype, Identification (biology), Biology, Agronomy and Crop Science

Published

2020

35. NCoR1 and SMRT Fine-Tune Inflammatory Versus Tolerogenic Balance in Dendritic Cells By Differentially Regulating STAT3 Signaling

Author

Bhawna Gupta, Kaushik Sen, Sunil K. Raghav, Gyan P. Mishra, Shuchi Smita, Archana Tripathy, Viplov Kumar Biswas, Orbea Ha, Atimukta Jha, Abdul Ahad, Minz Ap, and Senapati Sb

Subjects

Gene knockdown, Adoptive cell transfer, Chemistry, medicine, Inflammation, Dendritic cell, SOCS3, medicine.symptom, Psychological repression, CD8, Proinflammatory cytokine, Cell biology

Abstract

Dendritic cell (DC) fine-tunes inflammatory versus tolerogenic responses to protect from immune-pathology. However, the role of co-regulators in maintaining this balance is unexplored. NCoR1-mediated repression of DC immune-tolerance has been recently reported. Here we found that depletion of NCoR1 paralog SMRT (NCoR2) enhanced cDC1 activation and expression of IL-6, IL-12 and IL-23 while concomitantly decreasing IL-10 expression/secretion. Consequently, co-cultured CD4+ and CD8+ T-cells depicted enhanced Th1/Th17 frequency and cytotoxicity, respectively. Comparative genomic and transcriptomic analysis demonstrated differential regulation of IL-10 by SMRT and NCoR1. SMRT depletion represses mTOR-STAT3-IL10 signaling in cDC1 by down-regulating NR4A1. Besides, Nfkbia and Socs3 were down-regulated in Ncor2 (Smrt) knockdown cDC1, supporting increased production of inflammatory cytokines. Moreover, studies in mice showed, adoptive transfer of SMRT knockdown cDC1 in OVA-DTH induced footpad inflammation led to increased Th1/Th17 and reduced tumor burden after B16 melanoma injection by enhancing oncolytic CD8+ T-cell frequency, respectively. We also depicted decreased Ncor2 expression in Rheumatoid Arthritis, a Th1/Th17 disease.

Published

2022

36. Biofortification of Staple Crops: Present Status and Future Strategies

Author

Shiv Kumar, Harsh Kumar Dikshit, Gyan P. Mishra, Akanksha Singh, M. Aski, and P. S. Virk

Published

2022

37. Microgreens: A Novel Food for Nutritional Security

Author

Gyan P. Mishra, null Priti, H. K. Dikshit, Muraleedhar Aski, Seema Sangwan, Tsering Stobdan, Ajeet Singh, Ranjeet Ranjan Kumar, and Shelly Praveen

Published

2022

38. Historical Overview of Biofortification in Crop Plants and Its Implications

Author

Gyan P. Mishra, Harsh Kumar Dikshit, null Priti, Bharti Kukreja, M. Aski, D. K. Yadava, Ashutosh Sarker, and Shiv Kumar

Published

2022

39. Lentil Biofortification

Author

Harsh Kumar Dikshit, Gyan P. Mishra, M. Aski, Akanksha Singh, P. S. Virk, and Shiv Kumar

Published

2022

40. Legumes and Pulses: Ways and Means to Enhance the Protein Quality

Author

T. Vinutha, Ranjeet Ranjan Kumar, Navita Bansal, G. Rama Prashat, Suneha Goswami, Gyan P. Mishra, and Chellapilla Bharadwaj

Published

2022

41. Methods in Seabuckthorn Breeding

Author

Tsering Stobdan, Gyan P. Mishra, Ashish Yadav, and O. P. Chaurasia

Published

2022

42. Rust (Uromyces viciae-fabae Pers. de-Bary) of Pea (Pisum sativum L.): Present Status and Future Resistance Breeding Opportunities

Author

Anil Kumar Singh, Chanda Kushwaha, Kumari Shikha, Ramesh Chand, Gyan P. Mishra, Harsh Kumar Dikshit, Jyoti Devi, Muraleedhar S. Aski, Shiv Kumar, Sanjeev Gupta, and Ramakrishnan M. Nair

Subjects

Genetics, Genetics (clinical)

Abstract

Uromyces viciae-fabae Pers. de-Bary is an important fungal pathogen causing rust in peas (Pisum sativum L.). It is reported in mild to severe forms from different parts of the world where the pea is grown. Host specificity has been indicated in this pathogen in the field but has not yet been established under controlled conditions. The uredinial states of U. viciae-fabae are infective under temperate and tropical conditions. Aeciospores are infective in the Indian subcontinent. The genetics of rust resistance was reported qualitatively. However, non-hypersensitive resistance responses and more recent studies emphasized the quantitative nature of pea rust resistance. Partial resistance/slow rusting had been described as a durable resistance in peas. Such resistance is of the pre-haustorial type and expressed as longer incubation and latent period, poor infection efficiency, a smaller number of aecial cups/pustules, and lower units of AUDPC (Area Under Disease Progress Curve). Screening techniques dealing with slow rusting should consider growth stages and environment, as both have a significant influence on the disease scores. Our knowledge about the genetics of rust resistance is increasing, and now molecular markers linked with gene/QTLs (Quantitative Trait Loci) of rust resistance have been identified in peas. The mapping efforts conducted in peas came out with some potent markers associated with rust resistance, but they must be validated under multi-location trails before use in the marker-assisted selection of rust resistance in pea breeding programs.

Published

2023

43. New Plant Breeding Techniques and Current Trends in Plant Breeding Research

Author

Kumar Durgesh, Gyan P. Mishra, Rekha Joshi, and S.M.S. Tomar

Published

2021

44. Comparison of different selection traits for identification of phosphorus use efficient lines in mungbean

Author

Harsh Kumar Dikshit, Gyan P. Mishra, Ruchi Bansal, Ramakrishnan M. Nair, Akanksha Singh, Venkata Ravi Prakash Reddy, Renu Pandey, and Muraleedhar Aski

Subjects

Germplasm, chemistry.chemical_element, Plant Science, Biology, General Biochemistry, Genetics and Molecular Biology, Dry weight, Genotype, Stress tolerance index, Biomass, Agricultural Science, Selection (genetic algorithm), Pusa, Categorization of genotypes, General Neuroscience, Phosphorus, General Medicine, biology.organism_classification, Horticulture, chemistry, Shoot, Medicine, Phosphorus utilization, General Agricultural and Biological Sciences, Vigna radiata, Total phosphorus uptake

Abstract

Phosphorus (P) is one of the major constraints for crop growth and development, owing to low availability and least mobility in many tropical soil conditions. Categorization of existing germplasm under P deficient conditions is a prerequisite for the selection and development of P efficient genotypes in the mungbean. In the present investigation, 36 diverse genotypes were categorized for phosphorus use efficiency traits using four different techniques for identification of phosphorus use efficient mungbean genotypes. The studied genotypes were categorized for P efficiency based on efficiency, responsiveness, and stress tolerance score of genotypes under normal and low P conditions. The mean values of traits, root dry mass, root to shoot ratio, and P utilization efficiency are significantly higher under low P conditions indicating the high responsiveness of traits to P deficiency. The presence of significant interaction between genotypes and P treatment indicates the evaluated genotypes were significantly affected by P treatment for studied traits. The total P uptake showed significant and positive correlations with root dry mass, shoot dry mass, total dry mass,and P concentration under both P regimes. Out of the four techniques used for the categorization of genotypes for P efficiency, three techniques revealed that the genotype PUSA 1333, followed by Pusa Vishal, PUSA 1031, and Pusa Ratna is efficient. The categorization based on stress tolerance score is the finest way to study variation and for the selection of contrasting genotypes for P efficiency. The identified P efficient genotypes would be valuable resources for genetic enhancement of P use efficiency in mungbean breeding.

Published

2021

45. Gene-Based Resistance to

Author

Jyoti, Devi, Gyan P, Mishra, Vidya, Sagar, Vineet, Kaswan, Rakesh K, Dubey, Prabhakar M, Singh, Shyam K, Sharma, and Tusar K, Behera

Subjects

Plant Breeding, Ascomycota, Peas, Erysiphe, Disease Resistance, Plant Diseases

Abstract

Globally powdery mildew (PM) is one of the major diseases of the pea caused by

Published

2021

46. Genotype by Environment Interaction Effect on Grain Iron and Zinc Concentration of Indian and Mediterranean Lentil Genotypes

Author

Shiv Kumar, Arpan Bhowmik, Gyan P. Mishra, Shouvik Das, Soma Gupta, Harsh Kumar Dikshit, Ruchi Bansal, Kuldeep Tripathi, and Muraleedhar Aski

Subjects

Germplasm, AMMI, Biofortification, chemistry.chemical_element, food and beverages, Ammi, Agriculture, Zinc, Biology, biology.organism_classification, Micronutrient, lentil, grain Fe and Zn concentration, biofortification, Animal science, chemistry, Genetic variation, Genotype, stability parameters, Gene–environment interaction, Agronomy and Crop Science

Abstract

Lentil grains with high nutritional value qualify as a promising candidate for alleviation of micronutrient malnutrition in South Asia and North Africa. Genetic variation for micronutrient concentration in germplasm is prerequisite for biofortification of this crop. In the present study, ninety-six lentil genotypes consisting of Indian (released varieties, advanced breeding lines and germplasm lines) and Mediterranean (germplasm lines and landraces) lines were evaluated for grain iron (Fe) and zinc (Zn) concentrations and the stability of these traits was studied across three different locations in India. The pooled analysis of variance revealed significant genotype, environment and genotype by environment interaction (GEI) mean squares for both the micronutrients. Stability analysis employing the AMMI model elucidated the first two interaction principal components as significant and cumulatively explained 100% of GEI variation. The first two components explained 55.9% and 44.1% of the GEI sum of squares for grain iron and 50.8% and 49.2% for grain zinc concentration, respectively. No correlation between grain iron and zinc concentration was observed. Among 96 lines, genotypes IG 49, P 16214, ILL 147 and P 2118 were found to be relatively stable, having higher mean iron and zinc concentrations with low modified AMMI stability value (MASV), modified AMMI stability index (MASI) and genotype selection index (GSI). The identified promising genotypes (high Fe: P 16214, IG 115, P 2127 and IC 560812 and high Zn: P 8115, P 3234, LL 461 and IC 560812) can be utilized for studying the genetics of grain Fe and Zn concentration by developing mapping populations and for biofortification of Indian lentil.

Published

2021

47. NCoR1: Putting the Brakes on the Dendritic Cell Immune Tolerance

Author

Bhawna Gupta, Sebastian M. Waszak, Dheerendra Gupta, Gyan P. Mishra, Hans Acha-Orbea, Sunil K. Raghav, Mathias Stevanin, Soumen Basak, Shuchi Smita, Uday Aditya Sarkar, and Abdul Ahad

Subjects

0301 basic medicine, Adoptive cell transfer, Immunology, chemical and pharmacologic phenomena, 02 engineering and technology, Biology, Article, Immune tolerance, 03 medical and health sciences, Immune system, Downregulation and upregulation, Molecular Mechanism of Gene Regulation, lcsh:Science, Transcriptomics, Immune Response, Gene knockdown, Multidisciplinary, RELB, FOXP3, Dendritic cell, 021001 nanoscience & nanotechnology, 3. Good health, Cell biology, 030104 developmental biology, lcsh:Q, 0210 nano-technology

Abstract

Summary Understanding the mechanisms fine-tuning immunogenic versus tolerogenic balance in dendritic cells (DCs) is of high importance for therapeutic approaches. We found that NCoR1-mediated direct repression of the tolerogenic program in conventional DCs is essential for induction of an optimal immunogenic response. NCoR1 depletion upregulated a wide variety of tolerogenic genes in activated DCs, which consequently resulted in increased frequency of FoxP3+ regulatory T cells. Mechanistically, NCoR1 masks the PU.1-bound super-enhancers on major tolerogenic genes after DC activation that are subsequently bound by nuclear factor-κB. NCoR1 knockdown (KD) reduced RelA nuclear translocation and activity, whereas RelB was unaffected, providing activated DCs a tolerogenic advantage. Moreover, NCoR1DC−/- mice depicted enhanced Tregs in draining lymph nodes with increased disease burden upon bacterial and parasitic infections. Besides, adoptive transfer of activated NCoR1 KD DCs in infected animals showed a similar phenotype. Collectively, our results demonstrated NCoR1 as a promising target to control DC-mediated immune tolerance., Graphical Abstract, Highlights • NCoR1 directly represses tolerogenic program in mouse cDCs • Depletion of NCoR1 in cDCs enhanced Treg development ex vivo and in vivo • NCoR1 masks PU.1-bound super-enhancers on tolerogenic genes in cDCs • NCoR1DC−/− animals depicted enhanced Treg frequency and infection load, Molecular Mechanism of Gene Regulation; Immunology; Immune Response; Transcriptomics

Published

2019

48. Variations in the total phenolics and antioxidant activities among garden pea (Pisum sativum L.) genotypes differing for maturity duration, seed and flower traits and their association with the yield

Author

Gyan P. Mishra, Jyoti Devi, Tanmay Kumar Koley, Satish Kumar Sanwal, P.M. Singh, Pradip Karmakar, and Balwant Singh

Subjects

0106 biological sciences, 0301 basic medicine, Antioxidant, biology, DPPH, medicine.medical_treatment, UPGMA, food and beverages, Horticulture, biology.organism_classification, 01 natural sciences, Pisum, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Point of delivery, Sativum, chemistry, Yield (wine), Genotype, medicine, Food science, 010606 plant biology & botany

Abstract

Food legumes cater the basic nutritional requirement of humans by providing the protein, carbohydrate, minerals, and vitamins, along with several secondary metabolites having antioxidant activities. In this investigation, diverse pea genotypes belonging to different maturity groups, flower color, seed-coat color, and seed-shapes were assessed for their total phenolics and total flavonoids contents including antioxidant activities. In addition, these were also evaluated for various horticultural traits. A number of in vitro antioxidant assays including CUPRAC, FRAP, DPPH, and TEAC were compared for their relative antioxidants potential in different pea genotypes. The purple-flowered and dark seed-coat colored genotypes, EC-9485 and VRP-233 were found having highest total phenolics (128 and 104 mg GAE/100 g fw) and total flavonoids contents (45.8 and 36.8 mg CE/100 g fw) respectively, along with strong antioxidant potential, when compared to white-flowered and light seed-coat colored genotypes. However, pod-yield in these two genotypes was recorded low (22.7 g/plant and 69.2 g/plant) attributed mainly due to their lowest pod-weight (2.5 g/pod and 3.4 g/pod), respectively. At genotypic level, total phenolics content was found highly correlated with TEAC (rG = 0.987), CUPRAC (rG = 0.979) and DPPH (rG = 0.976) assays, while negatively correlated with yield per plant (rG=-0.305). Furthermore, positive correlation between total phenolics, total flavonoids with antioxidant activities indicated that the phenolics including flavonoids as the main component for antioxidant activity in pea genotypes. Principal component analysis (PCA) and UPGMA cluster analysis grouped the genotypes having a strong antioxidant capacity and high yield in distinct clusters. The results will help the breeders to combine both high-yield and high-antioxidant activity traits in a single genotype, thereby help in achieving the long-term goal of ensuring the nutritional security of the consumers.

Published

2019

49. Iron and Zinc at a cross-road: A trade-off between micronutrients and anti-nutritional factors in pearl millet flour for enhancing the bioavailability

Author

Ranjeet R. Kumar, Sumer Pal Singh, Gyanendra K. Rai, Veda Krishnan, Mukesh K. Berwal, Suneha Goswami, Vinutha T., Gyan P. Mishra, C. Tara Satyavathi, Bhupinder Singh, and Shelly Praveen

Subjects

Food Science

Published

2022

50. Overexpression of Bacterial mtlD Gene in Peanut Improves Drought Tolerance through Accumulation of Mannitol

Author

Tengale Dipak Bhauso, Thankappan Radhakrishnan, Abhay Kumar, Gyan Prakash Mishra, Jentilal Ramjibhai Dobaria, Kirankumar Patel, and Manchikatla Venkat Rajam

Subjects

Technology, Medicine, Science

Abstract

In the changing global environmental scenarios, water scarcity and recurrent drought impose huge reductions to the peanut (Arachis hypogaea L.) crop yield. In plants, osmotic adjustments associated with efficient free radical scavenging ability during abiotic stress are important components of stress tolerance mechanisms. Mannitol, a compatible solute, is known to scavenge hydroxyl radicals generated during various abiotic stresses, thereby conferring tolerance to water-deficit stress in many plant species. However, peanut plant is not known to synthesize mannitol. Therefore, bacterial mtlD gene coding for mannitol 1-phosphate dehydrogenase under the control of constitutive promoter CaMV35S was introduced and overexpressed in the peanut cv. GG 20 using Agrobacterium tumefaciens-mediated transformation. A total of eight independent transgenic events were confirmed at molecular level by PCR, Southern blotting, and RT-PCR. Transgenic lines had increased amount of mannitol and exhibited enhanced tolerance in response to water-deficit stress. Improved performance of the mtlD transgenics was indicated by excised-leaf water loss assay and relative water content under water-deficit stress. Better performance of transgenics was due to the ability of the plants to synthesize mannitol. However, regulation of mtlD gene expression in transgenic plants remains to be elucidated.

Published

2014