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    Publisher: Asian Network for Scientific Information
   
  Asian Journal of Plant Sciences is a high quality scientific journal publishes the original research in all areas of plant science and botany. Scope of the journal includes: Plant biotechnology, plant cell and tissue culture, plant gene transfer, development, growth regulation, molecular cell biology and genetics, signal transduction, photosynthesis, pathogen resistance, nutrition, water relations and gas exchange, symbiosis, stress physiology, population genetics, ecology and molecular systematic.

Asian Journal of Plant Sciences now accepting new submissions. Submit your best paper via online submission system.
  Editor-in-Chief:  Sayyada Khatoon
 
 
Chaitanya, K.S.K., S. Keshavkant and S.C. Naithani, 2000. Changes in total protein and protease in dehydrating recalcitrant sal (Shorea robusta) seeds. Silva Fennica, 34: 71-77.
Chandra, J. and S. Keshavkant, 2016. Physiological and biochemical changes during seed development and maturation in Madhuca latifolia Roxb. Bangladesh J. Bot., 45: 335-343.
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Chandra, J., M. Tandon and S. Keshavkant, 2015. Increased rate of drying reduces metabolic inequity and critical water content in radicles of Cicer arietinum L. Physiol. Mol. Biol. Plants, 21: 215-223.
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Chandrakar, V., A. Dubey and S. Keshavkant, 2016. Modulation of antioxidant enzymes by salicylic acid in arsenic exposed Glycine max L. J. Soil Sci. Plant Nutr., 16: 662-676.
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Chandrakar, V., B. Yadu, R.K. Meena, A. Dubey and S. Keshavkant, 2017. Arsenic-induced genotoxic responses and their amelioration by diphenylene iodonium, 24-epibrassinolide and proline in Glycine max L. Plant Physiol. Biochem., 112: 74-86.
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Chandrakar, V., S. Parkhey, A. Dubey and S. Keshavkant, 2017. Modulation in arsenic-induced lipid catabolism in Glycine max using proline, 24-epibrassinolide and diphenylene iodonium. Biologia, 72: 292-299.
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Chandrakar, V., S.C. Naithani and S. Keshavkant, 2016. Arsenic-induced metabolic disturbances and their mitigation mechanisms in crop plants: A review. Biol., 71: 367-377.
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Chauhan, R., A. Quraishi, S.K. Jadhav and S. Keshavkant, 2016. A comprehensive review on pharmacological properties and biotechnological aspects of genus Chlorophytum. Acta Physiologiae Plantarum, Vol. 38. 10.1007/s11738-016-2132-8.
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Chauhan, R., S. Keshavkant, S.K. Jadhav and A. Quraishi, 2016. In vitro slow growth storage of Chlorophytum borivilianum Sant et Fernand: a critically endangered herb. In Vitro Cell. Dev. Biol. Plant, 52: 315-321.
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Keshavkant, S. and S.C. Naithani, 2000. Low temperature stress induced changes in the phenolic contents and its regulatory enzymes in sal seedlings. Indian J. Plant Physiol., 12: 146-152.
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Keshavkant, S. and S.C. Naithani, 2001. Chilling-induced oxidative stress in young sal (Shorea robusta) seedlings. Acta Physiologiae Plantarum, 23: 457-466.
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Keshavkant, S. and S.C. Naithani, 2005. Low temperature induced alteration in growth pattern and J. Tree sci., 24: 69-78.
Keshavkant, S. and S.C. Naithani, 2007. Changes in sugar metabolism in response to chilling in Int. J. Plant Sci., 2: 161-168.
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Keshavkant, S. and S.C. Naithani, 2010. Chilling induced superoxide production, lipid peroxidation and leakage loss in Shorea robusta seedlings. Indian J. Plant Physiol., 15: 191-196.
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Keshavkant, S., B. Sahu and S. Parkhey, 2013. Artificial Ageing Induced Metabolic Changes in Cicer arietinum Seeds: ROS catabolism, lipid peroxidation, protein carbonylation, nucleic acid integrity and antioxidants. Lambert Academic, Germany, Pages: 116..
Keshavkant, S., D. Biswas and S.C. Naithani, 2010. Aluminium Stress on Germinating Seeds of Cicer arietinum: alterations in growth, ROS catabolism and lipid-protein oxidation. Lambert Academic, Germany, Pages: 96..
Keshavkant, S., J. Padhan, S. Parkhey and S.C. Naithani, 2012. Physiological and antioxidant responses of germinating Cicer arietinum seeds to salt stress. Russian J. Plant Physiol., 59: 206-211.
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Keshavkant, S., T. Sukhdev and S.C. Naithani, 2010. Antioxidants of Healing Herbs: Withania and Rauwolfia: antioxidant capacity, phenols and flavonoids. Lambert Academic, Germany, Pages: 64..
Keshavkant, S., T. Sukhdev, Ch. Srinivasarao and S.C. Naithani, 2008. Antioxidant activities, phenols and flavonoid contents of Withania somnifera and Rauwolfia serpentina . Indian J. Plant Physiol., 13: 394-399.
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Kulbhaje, S., N. Shweta and S. Keshavkant, 2017. Metalloid and insecticides-induced modifications in the key soil enzymes regulating biogeochemical cycling. J. Applied Environ. Biol. Sci., 7: 52-61.
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Naithani, R., B. Varghese, K.S. Keshav, M.E. Dulloo and S. Naithanp, 2006. Post harvest storage physiology of Gmeuna arborea roxb. seeds. Indian j. Plant Physiol., 11: 20-27.
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Naithani, S.C., N. Ranjana, B. Varghese, J.K. Godheja and K.K. Sahu, 2004. Conservation of Four Tropical Forest Tree Seeds from India. In: Comparative Storage Biology of Tropical Tree Seeds, Sacande, M., D. Joker, M.E. Dulloo and K.A. Thomsen (Eds.). IPGRI, Rome Italy, pp: 174-191.
Parkhey, S., S.C. Naithani and S. Keshavkant, 2012. ROS production and lipid catabolism in desiccating Shorea robusta seeds during aging. Plant Physiol. Biochem., 57: 261-267.
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Parkhey, S., S.C. Naithani and S. Keshavkant, 2014. Protein metabolism during natural ageing in desiccating recalcitrant seeds of Shorea robusta. Acta Physiologae Plantarum, 36: 1649-1659.
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Parkhey, S., V. Chandrakar, S.C. Naithani and S. Keshavkant, 2015. Efficient extraction of proteins from recalcitrant plant tissue for subsequent analysis by two- dimensional gel electrophoresis. J. Sep. Sci., 38: 3622-3628.
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Rughani, G., J. Chandra, V. Chandrakar and S. Keshavkant, 2015. Lipid peroxidation and in-situ localization of ROS in assorted seeds exposed to salinity and artificial ageing. Appl. Sci. Rep., 12: 123-127.
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Rughani, G., J. Chandra, V. Chandrakar and S. Keshavkant, 2016. Production and in situ localization of ROS in Pennisetum typhoideum indulged with heavy metal stress. CSVTU Int. J. Biotechnol. Bioinf. Biomed., .
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Sharma, P.K. and S. Keshavkant, 2008. Comparative study of antagonistic activity of Trichoderma species against Rhizoctonia solanii. Int. J. Plant Sci., 3: 163-165.
Sharma, P.K. and S. Keshavkant, 2008. Farm production of Trichoderma harzianum T-64 using different organic materials from Hilly Zones of Chhattisgarh. Adv. Plant Sci., 21: 39-41.
Sharma, P.K., M. Kukreja, S. Keshavkant and R. Gothalwal, 2007. Taxoethanobotanical values of some plants of Chhattisgarh. Adv. Biol. Sci., 6: 37-38.
Sharma, S., R. Naithani, B. Varghese, S. Keshavkant and S.C. Naithani, 2008. Effect of hot water treatment on seed germination of some fast growing tropical tree species. J. Trop. For., 24: 49-52.
Shweta, N., S. Kulbhaje and S. Keshavkant, 2016. Toxicity of single and joint application of metalloid and insecticides on soil dehydrogenase enzyme. Deccan Curr. Sci., 15: 113-121.
Suruchi Parkhey, Mamta Tandan, S. Keshavkant 2014. Salicylic Acid and Acquisition of Desiccation Tolerance in Pisum sativum Seeds Biotechnology, 13: 217-225.
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Xalxo, R. and S. Keshavkant, 2016. Simulated acid rain enforced ramifications in Trigonellafoenum graecum seedlings. Deccan Curr. Sci., 15: 106-112.
Yadu, B. and S. Keshavkant, 2016. Fluoride-induced abnormalities and its modulation in Cajanus cajan L. Deccan Curr. Sci., 15: 99-105.
Yadu, B., V. Chandrakar and S. Keshavkant, 2016. Responses of plants towards fluoride: an overview of oxidative stress and defense mechanisms. Fluoride, 49: 293-302.
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Yadu, B., V. Chandrakar, R.K. Meena and S. Keshavkant, 2017. Glycinebetaine reduces oxidative injury and enhances fluoride stress tolerance via improving antioxidant enzymes, proline and genomic template stability in Cajanus cajan L. S. Afr. J. Bot., 111: 68-75.
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Yadu, S., T.L. Dewangan, V. Chandrakar and S. Keshavkant, 2017. Imperative roles of salicylic acid and nitric oxide in improving salinity tolerance in Pisum sativum L. Physiol. Mol. Biol. Plants, 23: 43-58.
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