Publications in VIVO

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Bhatnagar-Mathur, P Person

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- Emerging Roles of Salicylic Acid and Jasmonates in Plant Abiotic Stress Responses 2020
- Functional characterization of the promoter of pearl millet heat shock protein 10 (PgHsp10) in response to abiotic stresses in transgenic tobacco plants.. International Journal of Biological Macromolecules. 156:103-110. 2020
- Advances in Crop Improvement and Delivery Research for Nutritional Quality and Health Benefits of Groundnut (Arachis hypogaea L.).. Frontiers in Plant Science. 11:29. 2020
- An update and perspectives on the use of promoters in plant genetic engineering.. Journal of Biosciences. 45:1-24. 2020
- Isolation and functional characterization of three abiotic stress-inducible (Apx, Dhn and Hsc70) promoters from pearl millet (Pennisetum glaucum L.). Molecular Biology Reports. 46:6039-6052. 2019
- Hydrogen Sulfide in Plant Abiotic Stress Tolerance 2019
- Biotechnological Strategies for Development of Aflatoxin-Free Crops 2019
- Heat Shock Proteins (Hsps) Mediated Signalling Pathways During Abiotic Stress Conditions 2019
- Insights Into the Nitric Oxide Mediated Stress Tolerance in Plants 2019
- Insights into Insect Resistance in Pulse Crops: Problems and Preventions 2018
- Comprehensive evaluation of candidate reference genes for real-time quantitative PCR (RT-qPCR) data normalization in nutri-cereal finger millet [Eleusine Coracana (L.)]. PLOS ONE. 13. 2018
- Peanuts that keep aflatoxin at bay: a threshold that matters. Plant Biotechnology Journal. 16:1024-1033. 2018
- A novel mitochondrial orf147 causes cytoplasmic male sterility in pigeonpea by modulating aberrant anther dehiscence. Plant Molecular Biology. 97:131-147. 2018
- Nitric Oxide (NO) in Plant Heat Stress Tolerance: Current Knowledge and Perspectives.. Frontiers in Plant Science. 8:1582-1582. 2017
- Heat responsive proteome changes reveal molecular mechanisms underlying heat tolerance in chickpea. Environmental and Experimental Botany. 141:132-144. 2017
- Molecular characterization and expression analysis of pearl millet plasma membrane proteolipid 3 (Pmp3) genes in response to abiotic stress conditions. Plant Gene. 10:37-44. 2017
- Interaction of Nitric Oxide with Phytohormones under Drought Stress. Journal of Plant Studies. 6:58. 2017
- Genetic engineering approaches for drought tolerance in grain legumes: progress and prospects 2017
- Three FLOWERING LOCUS T‐like genes function as potential florigens and mediate photoperiod response in sorghum. New Phytologist. 210:946-959. 2016
- Evaluation of Sorghum [Sorghum bicolor (L.)] Reference Genes in Various Tissues and under Abiotic Stress Conditions for Quantitative Real-Time PCR Data Normalization.. Frontiers in Plant Science. 7:529-529. 2016
- Identification and Validation of Reference Genes and Their Impact on Normalized Gene Expression Studies across Cultivated and Wild Cicer Species.. PLOS ONE. 11. 2016
- Accomplishments and challenges of pigeonpea breeding research in India 2016
- NO to drought-multifunctional role of nitric oxide in plant drought: Do we have all the answers?. Plant Science. 239:44-55. 2015
- Biotechnological advances for combating Aspergillus flavus and aflatoxin contamination in crops. Plant Science. 234:119-132. 2015
- Cloning and validation of reference genes for normalization of gene expression studies in pearl millet [Pennisetum glaucum (L.) R. Br.] by quantitative real-time PCR. Plant Gene. 1:35-42. 2015
- DREB1A overexpression in transgenic chickpea alters key traits influencing plant water budget across water regimes.. Plant Cell Reports. 34:199-210. 2015
- Changes in timing of water uptake and phenology favours yield gain in terminal water stressed chickpea AtDREB1A transgenics 2015
- Rapid, accurate and routine HPLC method for large-scale screening of pro-vitamin A carotenoids in oilseeds. Journal of Plant Biochemistry and Biotechnology. 24:84-92. 2015
- Transgenic peanut overexpressing the DREB1A transcription factor has higher yields under drought stress. Molecular Breeding. 33:327-340. 2014
- Biotech Approaches for Crop Improvement in the Semi-arid Tropics 2014
- Horizontal Gene Transfer Through Genetic Transformation 2014
- Isolation and Functional Characterization of a Novel Seed-Specific Promoter Region from Peanut. Applied Biochemistry and Biotechnology. 172:325-339. 2014
- Towards Enriching Genomic Resources in Legumes 2014
- Transgenic Interventions in Peanut Crop Improvement 2014
- Evaluation and Validation of Reference Genes for Normalization of Quantitative Real-Time PCR Based Gene Expression Studies in Peanut. PLOS ONE. 8. 2013
- Overexpression of a chitinase gene in transgenic peanut confers enhanced resistance to major soil borne and foliar fungal pathogens. Journal of Plant Biochemistry and Biotechnology. 22:222-233. 2013
- DREB1A promotes root development in deep soil layers and increases water extraction under water stress in groundnut. Plant Biology. 15:45-52. 2013
- Pathogen-derived resistance using a viral nucleocapsid gene confers only partial non-durable protection in peanut against peanut bud necrosis virus. Archives of Virology. 158:133-143. 2013
- Grain Legumes: Biotechnological Interventions in Crop Improvement for Adverse Environments 2012
- Genetic Management of Virus Diseases in Peanut. Plant Breeding Reviews. 36:293-356. 2012
- Grain Legumes (Soybean, Chickpea, and Peanut): Omics Approaches to Enhance Abiotic Stress Tolerance 2012
- Seeding Success through Innovation & Technology:Role of Innovations in Transforming Indian Agriculture 2012
- Relationships Between Transpiration Efficiency and Its Surrogate Traits in the rd29A:DREB1A Transgenic Lines of Groundnut. Journal of Agronomy and Crop Science. 197:272-283. 2011
- Crop biofortification through genetic engineering : present status and future directions 2011
- Genetic engineering of groundnut for crop improvement: Current status and future prospects 2011
- An efficient method for the production of marker-free transgenic plants of peanut (Arachis hypogaea L.). Plant Cell Reports. 29:495-502. 2010
- Potential of Transgenic Grain Legumes for Pest Management and Sustainable Crop Production 2010
- Transgenic strategies for improved drought tolerance in legumes of semi-arid tropics.. Journal of Crop Improvement. 24:92-111. 2009
- Genetic engineering of chickpea (Cicer arietinum L.) with the P5CSF129A gene for osmoregulation with implications on drought tolerance. Molecular Breeding. 23:591-606. 2009
- Transgenic approaches for abiotic stress tolerance in plants: retrospect and prospects.. Plant Cell Reports. 27:411-424. 2008
- Genetic engineering of groundnut for crop improvement: Current status and future prospects 2008
- Pigeonpea 2008
- Tackling toxins 2008
- Stress-inducible expression of At DREB1A in transgenic peanut (Arachis hypogaea L.) increases transpiration efficiency under water-limiting conditions.. Plant Cell Reports. 26:2071-2082. 2007
- DREB1A allows for more water uptake in groundnut by a large modification in the root/shoot ratio under water deficit 2007
- Exploiting the functionality of root systems for dry, saline, and nutrient deficient environments in a changing climate 2007
- Chickpea (Cicer arietinum L.) 2006
- Chickpea (Cicer arietinum L.).. Methods of Molecular Biology. 343:313-324. 2006
- Genetic engineering of groundnut for crop improvement 2006
- Peanut (Arachis hypogaea L.).. Methods of Molecular Biology. 343:347-358. 2006
- Studies on the development of abiotic stress tolerance in a groundnut (Arachis hypogaea L.) by genetic transformation 2006
- Genetic transformation technology: Status and problems. In Vitro Cellular & Developmental Biology – Plant. 41:102-112. 2005
- Evaluation of transgenic groundnut lines under water limited conditions 2004
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