Your search keyword '"Shilpi Bansal"' showing total 11 results

1. Genome-wide identification and characterization of NBLRR genes in finger millet (Eleusine coracana L.) and their expression in response to Magnaporthe grisea infection

Author

Alexander Balamurugan, Mallana Gowdra Mallikarjuna, Shilpi Bansal, S. Chandra Nayaka, Hosahatti Rajashekara, Tara Satyavathi Chellapilla, and Ganesan Prakash

Subjects

Blast, evolution, Finger millet, Expression analysis, Magnaporthe Grisea, NBLRR, Botany, QK1-989

Abstract

Abstract Background The nucleotide binding site leucine rich repeat (NBLRR) genes significantly regulate defences against phytopathogens in plants. The genome-wide identification and analysis of NBLRR genes have been performed in several species. However, the detailed evolution, structure, expression of NBLRRs and functional response to Magnaporthe grisea are unknown in finger millet (Eleusine coracana (L.) Gaertn.). Results The genome-wide scanning of the finger millet genome resulted in 116 NBLRR (EcNBLRRs1-116) encompassing 64 CC-NB-LRR, 47 NB-LRR and 5 CCR-NB-LRR types. The evolutionary studies among the NBLRRs of five Gramineae species, viz., purple false brome (Brachypodium distachyon (L.) P.Beauv.), finger millet (E. coracana), rice (Oryza sativa L.), sorghum (Sorghum bicolor L. (Moench)) and foxtail millet (Setaria italica (L.) P.Beauv.) showed the evolution of NBLRRs in the ancestral lineage of the target species and subsequent divergence through gene-loss events. The purifying selection (Ka/Ks

Published

2024

2. Composition and Codon Usage Pattern Results in Divergence of the Zinc Binuclear Cluster (Zn(II)2Cys6) Sequences among Ascomycetes Plant Pathogenic Fungi

Author

Shilpi Bansal, Mallana Gowdra Mallikarjuna, Alexander Balamurugan, S. Chandra Nayaka, and Ganesan Prakash

Subjects

Ascomycetes, codon usage bias, fungi, compositional constraints, host–pathogen interaction, natural selection, Biology (General), QH301-705.5

Abstract

Zinc binuclear cluster proteins (ZBC; Zn(II)2Cys6) are unique to the fungi kingdom and associated with a series of functions, viz., the utilization of macromolecules, stress tolerance, and most importantly, host–pathogen interactions by imparting virulence to the pathogen. Codon usage bias (CUB) is the phenomenon of using synonymous codons in a non-uniform fashion during the translation event, which has arisen because of interactions among evolutionary forces. The Zn(II)2Cys6 coding sequences from nine Ascomycetes plant pathogenic species and model system yeast were analysed for compositional and codon usage bias patterns. The clustering analysis diverged the Ascomycetes fungi into two clusters. The nucleotide compositional and relative synonymous codon usage (RSCU) analysis indicated GC biasness toward Ascomycetes fungi compared with the model system S. cerevisiae, which tends to be AT-rich. Further, plant pathogenic Ascomycetes fungi belonging to cluster-2 showed a higher number of GC-rich high-frequency codons than cluster-1 and was exclusively AT-rich in S. cerevisiae. The current investigation also showed the mutual effect of the two evolutionary forces, viz. natural selection and compositional constraints, on the CUB of Zn(II)2Cys6 genes. The perseverance of GC-rich codons of Zn(II)2Cys6 in Ascomycetes could facilitate the invasion process. The findings of the current investigation show the role of CUB and nucleotide composition in the evolutionary divergence of Ascomycetes plant pathogens and paves the way to target specific codons and sequences to modulate host–pathogen interactions through genome editing and functional genomics tools.

Published

2022

3. Precision Genome Editing Toolbox: Applications and Approaches for Improving Rice’s Genetic Resistance to Pathogens

Author

Anirudha Chattopadhyay, Jyotika Purohit, Sahil Mehta, Hemangini Parmar, Sangeetha Karippadakam, Afreen Rashid, Alexander Balamurugan, Shilpi Bansal, Ganesan Prakash, V. Mohan Murali Achary, and Malireddy K. Reddy

Subjects

food security, rice, biotic stress, CRISPR/Cas systems, susceptibility gene, Agriculture

Abstract

In the present scenario of a looming food crisis, improving per hectare rice productivity at a greater pace is among the topmost priorities of scientists and breeders. In the past decades, conventional, mutational, and marker-assisted breeding techniques have played a significant role in developing multiple desired rice varieties. However, due to certain limitations, these techniques cannot furnish the projected food security of the 2050 population’s aching stomachs. One of the possible options would be precise crop genome editing using various tools, viz., TALENs and CRISPR/Cas9 to resolve this multifaceted crisis. Initially, the potentiality of these technologies was tested only in the rice protoplasts. Later, the techniques were employed to edit calli with help of modified vectors, CRISPR variants, cassette cloning systems, and delivery methods. With the continuous technological advancements such as base editing, multiplexing, etc., the precision, rapidness, efficiency, reliability, potency, and range of applications of these platforms have increased and even been used for gene function studies. This leads to a revolution in the field of the rice improvement program, especially the stress tolerance against various pests and pathogens in which the susceptibility factors located within the rice genome are targeted through genome editing tools. Therefore, in this current article, we have summarized the advancements in the rice genome editing tools during the last decade concerning enhanced biotic stress tolerance. Additionally, we have focused on the regulatory aspects of genome editing with associated risks and limitations, and the prospects to reshape the rice genome for durable resistance to complex biotic stress.

Published

2022

4. HMG-CoA reductase from Camphor Tulsi (Ocimum kilimandscharicum) regulated MVA dependent biosynthesis of diverse terpenoids in homologous and heterologous plant systems

Author

Shilpi Bansal, Lokesh Kumar Narnoliya, Bhawana Mishra, Muktesh Chandra, Ritesh Kumar Yadav, and Neelam Singh Sangwan

Subjects

Medicine, Science

Abstract

Abstract Ocimum kilimandscharicum is unique in possessing terpenoids whereas other Ocimum species are renowned for phenylpropanoids as major constituents of essential oil. The key enzyme of MVA/terpenoid metabolic pathway viz 3-hydroxy-3-methylglutaryl Co-A reductase (OkHMGR) of 1.7-Kb ORF encoding ~60-kDa protein was cloned from O. kilimandscharicum and its kinetic characteristics revealed the availability of HMG-CoA as a control point of MVA-pathway. Transcript profiling of the OkHMGR elucidated tissue-specific functions of the gene in flower and leaf tissues in accumulation of terpenoidal essential oil. OkHMGR was differentially regulated in response to exposure to methyl-jasmonate, salicylic-acid, and stress conditions such-as salt and temperature stress, demonstrating its key role in managing signaling and stress-responses. To elucidate its functional role, OkHMGR was transiently over-expressed in homologous and heterologous plants such as O. sanctum, O. basilicum, O. gratissimum, Withania somnifera and Artemisia annua. The over-expression and inhibition dual strategy revealed that the additional OkHMGR in-planta could afford endogenous flow of isoprenoid units towards synthesis of terpenoids. The present study provides in-depth insight of OkHMGR in regulation of biosynthesis of non-plastidal isoprenoids. This is first report on any gene of MVA/isoprenoid pathway from under-explored Camphor Tulsi belonging to genus Ocimum. Studies also suggested that OkHMGR could be a potential tool for attempting metabolic engineering for enhancing medicinally important terpenoidal metabolites in plants.

Published

2018

5. RNAi and Homologous Over-Expression Based Functional Approaches Reveal Triterpenoid Synthase Gene-Cycloartenol Synthase Is Involved in Downstream Withanolide Biosynthesis in Withania somnifera.

Author

Smrati Mishra, Shilpi Bansal, Bhawana Mishra, Rajender Singh Sangwan, Asha, Jyoti Singh Jadaun, and Neelam S Sangwan

Subjects

Medicine, Science

Abstract

Withania somnifera Dunal, is one of the most commonly used medicinal plant in Ayurvedic and indigenous medicine traditionally owing to its therapeutic potential, because of major chemical constituents, withanolides. Withanolide biosynthesis requires the activities of several enzymes in vivo. Cycloartenol synthase (CAS) is an important enzyme in the withanolide biosynthetic pathway, catalyzing cyclization of 2, 3 oxidosqualene into cycloartenol. In the present study, we have cloned full-length WsCAS from Withania somnifera by homology-based PCR method. For gene function investigation, we constructed three RNAi gene-silencing constructs in backbone of RNAi vector pGSA and a full-length over-expression construct. These constructs were transformed in Agrobacterium strain GV3101 for plant transformation in W. somnifera. Molecular and metabolite analysis was performed in putative Withania transformants. The PCR and Southern blot results showed the genomic integration of these RNAi and overexpression construct(s) in Withania genome. The qRT-PCR analysis showed that the expression of WsCAS gene was considerably downregulated in stable transgenic silenced Withania lines compared with the non-transformed control and HPLC analysis showed that withanolide content was greatly reduced in silenced lines. Transgenic plants over expressing CAS gene displayed enhanced level of CAS transcript and withanolide content compared to non-transformed controls. This work is the first full proof report of functional validation of any metabolic pathway gene in W. somnifera at whole plant level as per our knowledge and it will be further useful to understand the regulatory role of different genes involved in the biosynthesis of withanolides.

Published

2016

6. An insight into structural and functional characteristics of 3-hydoxy 3-methyl glutarylCoA reductase from Ocimum species

Author

Shilpi Bansal and Neelam Singh Sangwan

Subjects

Biotechnology, TP248.13-248.65

Abstract

Secondary metabolites, the biological compounds secreted by plants as an aid to support their growth and development under stress conditions or as a part of their defense mechanism, now hold equal importance for mankind who employs it immensely for medication, flavorings, aroma, etc. Wide applicability of these compounds instigates one to understand the biosynthesis, structure and regulation of these bioactive molecules. Terpenoids form the largest group of secondary metabolites which comprise of a wide range of structurally and functionally distinct metabolites synthesized either via mevalonate pathway or non-mevalonate pathway. Targeting a key regulatory enzyme of this pathway, modulation of which would alter the carbon flux would be beneficial to enhance our knowledge about the above issue. For this the transcriptome (from SRA) of different Ocimum species was mined out for important pathway genes using various bioinformatics approaches. Amongst them 3-hydoxy 3-methyl glutaryl CoA reductase (HMGR) was selected which is the rate limiting enzyme in mevalonate pathway which controls the conversion of HMG-CoA to mevalonic acid. Isolation, cloning, protein expression, purification, etc. would be discussed in detail in the meeting. Full length protein was also characterized through bioinformatics tools to study its structure, properties, conserved domains, etc. Increase in secondary metabolite production by alteration of HMGR pool along with transcript modulation studies in planta revealed that HMGR gene governs the biosynthesis of secondary metabolites. Transcriptome mapping of different HMGR homologs which on comparison within member of same genus revealed its divergent nature which could account to its multifunctional role in different plants. Besides, providing a deep insight about the enzyme function combination of such molecular, transgenic and bioinformatics tools would help to develop strategies to engineer the HMGR mediated flux and also valuable metabolites in plants.

Published

2017

7. HMG-CoA reductase from Camphor Tulsi (Ocimum kilimandscharicum) regulated MVA dependent biosynthesis of diverse terpenoids in homologous and heterologous plant systems

Author

Ritesh Kumar Yadav, Neelam S. Sangwan, Bhawana Mishra, Muktesh Chandra, Lokesh Kumar Narnoliya, and Shilpi Bansal

Subjects

0106 biological sciences, 0301 basic medicine, Science, Cyclopentanes, Acetates, Artemisia annua, Withania, Reductase, Biology, Withania somnifera, Salt Stress, 01 natural sciences, Article, law.invention, 03 medical and health sciences, Camphor, chemistry.chemical_compound, Gene Expression Regulation, Plant, law, Oils, Volatile, Oxylipins, Essential oil, Multidisciplinary, Ocimum kilimandscharicum, Terpenes, fungi, food and beverages, Ocimum, biology.organism_classification, Terpenoid, Metabolic pathway, 030104 developmental biology, Biochemistry, chemistry, Medicine, Hydroxymethylglutaryl CoA Reductases, Acyl Coenzyme A, Salicylic Acid, 010606 plant biology & botany

Abstract

Ocimum kilimandscharicum is unique in possessing terpenoids whereas other Ocimum species are renowned for phenylpropanoids as major constituents of essential oil. The key enzyme of MVA/terpenoid metabolic pathway viz 3-hydroxy-3-methylglutaryl Co-A reductase (OkHMGR) of 1.7-Kb ORF encoding ~60-kDa protein was cloned from O. kilimandscharicum and its kinetic characteristics revealed the availability of HMG-CoA as a control point of MVA-pathway. Transcript profiling of the OkHMGR elucidated tissue-specific functions of the gene in flower and leaf tissues in accumulation of terpenoidal essential oil. OkHMGR was differentially regulated in response to exposure to methyl-jasmonate, salicylic-acid, and stress conditions such-as salt and temperature stress, demonstrating its key role in managing signaling and stress-responses. To elucidate its functional role, OkHMGR was transiently over-expressed in homologous and heterologous plants such as O. sanctum, O. basilicum, O. gratissimum, Withania somnifera and Artemisia annua. The over-expression and inhibition dual strategy revealed that the additional OkHMGR in-planta could afford endogenous flow of isoprenoid units towards synthesis of terpenoids. The present study provides in-depth insight of OkHMGR in regulation of biosynthesis of non-plastidal isoprenoids. This is first report on any gene of MVA/isoprenoid pathway from under-explored Camphor Tulsi belonging to genus Ocimum. Studies also suggested that OkHMGR could be a potential tool for attempting metabolic engineering for enhancing medicinally important terpenoidal metabolites in plants.

Published

2018

8. RNAi and Homologous Over-Expression Based Functional Approaches Reveal Triterpenoid Synthase Gene-Cycloartenol Synthase Is Involved in Downstream Withanolide Biosynthesis in Withania somnifera

Author

Jyoti Singh Jadaun, Neelam S. Sangwan, Smrati Mishra, Shilpi Bansal, Asha, Rajender S. Sangwan, and Bhawana Mishra

Subjects

0106 biological sciences, 0301 basic medicine, Agricultural Biotechnology, lcsh:Medicine, Artificial Gene Amplification and Extension, Plant Science, 01 natural sciences, Genetically Modified Plants, Biochemistry, Polymerase Chain Reaction, chemistry.chemical_compound, RNA interference, Gene Expression Regulation, Plant, Gene expression, lcsh:Science, Intramolecular Transferases, Genetics, Multidisciplinary, biology, Genetically Modified Organisms, Withania, Agriculture, Plants, Plants, Genetically Modified, Nucleic acids, Withanolide, Genetic interference, Epigenetics, Genetic Engineering, Sequence Analysis, Research Article, Biotechnology, Agrobacterium, Withania somnifera, Research and Analysis Methods, Biosynthesis, 03 medical and health sciences, Sequence Motif Analysis, Molecular Biology Techniques, Sequencing Techniques, Molecular Biology, Withanolides, lcsh:R, Organisms, Biology and Life Sciences, Vector Cloning, biology.organism_classification, Biosynthetic Pathways, 030104 developmental biology, chemistry, Cycloartenol synthase, biology.protein, Cycloartenol, RNA, Plant Biotechnology, lcsh:Q, 010606 plant biology & botany, Cloning

Abstract

Withania somnifera Dunal, is one of the most commonly used medicinal plant in Ayurvedic and indigenous medicine traditionally owing to its therapeutic potential, because of major chemical constituents, withanolides. Withanolide biosynthesis requires the activities of several enzymes in vivo. Cycloartenol synthase (CAS) is an important enzyme in the withanolide biosynthetic pathway, catalyzing cyclization of 2, 3 oxidosqualene into cycloartenol. In the present study, we have cloned full-length WsCAS from Withania somnifera by homology-based PCR method. For gene function investigation, we constructed three RNAi gene-silencing constructs in backbone of RNAi vector pGSA and a full-length over-expression construct. These constructs were transformed in Agrobacterium strain GV3101 for plant transformation in W. somnifera. Molecular and metabolite analysis was performed in putative Withania transformants. The PCR and Southern blot results showed the genomic integration of these RNAi and overexpression construct(s) in Withania genome. The qRT-PCR analysis showed that the expression of WsCAS gene was considerably downregulated in stable transgenic silenced Withania lines compared with the non-transformed control and HPLC analysis showed that withanolide content was greatly reduced in silenced lines. Transgenic plants over expressing CAS gene displayed enhanced level of CAS transcript and withanolide content compared to non-transformed controls. This work is the first full proof report of functional validation of any metabolic pathway gene in W. somnifera at whole plant level as per our knowledge and it will be further useful to understand the regulatory role of different genes involved in the biosynthesis of withanolides.

Published

2016

9. Implementation of Neural Network in Cost Factors of E-Advertisement

Author

Shilpi Bansal and B. K. Sharma

Subjects

Service (business), Factor cost, Artificial neural network, business.industry, Computer science, media_common.quotation_subject, The Internet, Advertising, business, Payment, Backpropagation, Financial services, media_common

Abstract

E-Advertisements have made possible to allow marketers for approaching target segments in the most measurable, interactive and more essentially, cost-effective ways. However, Neural Network is a forecasting tool for dynamic and changing market environments. A Strong advantage of neural networks is that a properly trained network can be considered experts with regard to the particular output project for which it was designed to examine. This paper gives brief view about various e-advertisement Payment trends. Various sector wise e-advertisement related data from 2008 to 2013 have been collected from IAB (Internet Advertisement Bureau) and applied the Back Propagation technique of Neural Network for predicting ratio of cost models in E-advertisements. Effective use of data mining will ear mark of E-advertisement in various industries like consumer service, retail, auto, travel, computing, media, financial service, telecommunication etc.

Published

2014

10. K-Medoids Clustering Technique using Bat Algorithm

Author

Shilpi Bansal and Monica Sood

Subjects

ComputingMethodologies_PATTERNRECOGNITION, Computer science, Cluster (physics), Data analysis, Initial value problem, Data mining, Cluster analysis, computer.software_genre, Object (computer science), computer, Bat algorithm, Field (computer science), Data reduction

Abstract

Clustering is one of the data analysis methods that are widely used in data mining. In this method, we partitioned the data into different subset which is known as cluster. Cluster analysis is the data reduction toll for classifying a “mountain‟ of information into manageable meaningful piles. This method is vast research area in the field of data mining. In this paper, a partitioning clustering method that is K-Medoids algorithm is used with Bat algorithm. We proposed a new algorithm based on the echolocation behaviour of bats to know the initial value to overcome the K-Medoids issues. In this algorithm, we can find the initial representative object easily with the help of using Bat algorithm. They provide us better cluster analysis and we can achieve efficiency. This paper introduces the combination of K-Medoids clustering algorithm and Bat Algorithm. In this paper we show the difference between K-Medoid Clustering Technique with Bat Algorithm & K-medoid itself.

Published

2013

11. An insight into structural and functional characteristics of 3-hydoxy 3-methyl glutarylCoA reductase from Ocimum species

Author

Neelam S. Sangwan and Shilpi Bansal

Subjects

biology, Biochemistry, Chemistry, lcsh:Biotechnology, lcsh:TP248.13-248.65, General Medicine, Reductase, Ocimum, biology.organism_classification

Abstract

Secondary metabolites, the biological compounds secreted by plants as an aid to support their growth and development under stress conditions or as a part of their defense mechanism, now hold equal importance for mankind who employs it immensely for medication, flavorings, aroma, etc. Wide applicability of these compounds instigates one to understand the biosynthesis, structure and regulation of these bioactive molecules. Terpenoids form the largest group of secondary metabolites which comprise of a wide range of structurally and functionally distinct metabolites synthesized either via mevalonate pathway or non-mevalonate pathway. Targeting a key regulatory enzyme of this pathway, modulation of which would alter the carbon flux would be beneficial to enhance our knowledge about the above issue. For this the transcriptome (from SRA) of different Ocimum species was mined out for important pathway genes using various bioinformatics approaches. Amongst them 3-hydoxy 3-methyl glutaryl CoA reductase (HMGR) was selected which is the rate limiting enzyme in mevalonate pathway which controls the conversion of HMG-CoA to mevalonic acid. Isolation, cloning, protein expression, purification, etc. would be discussed in detail in the meeting. Full length protein was also characterized through bioinformatics tools to study its structure, properties, conserved domains, etc. Increase in secondary metabolite production by alteration of HMGR pool along with transcript modulation studies in planta revealed that HMGR gene governs the biosynthesis of secondary metabolites. Transcriptome mapping of different HMGR homologs which on comparison within member of same genus revealed its divergent nature which could account to its multifunctional role in different plants. Besides, providing a deep insight about the enzyme function combination of such molecular, transgenic and bioinformatics tools would help to develop strategies to engineer the HMGR mediated flux and also valuable metabolites in plants.

Published

2017