Volume- 8
Issue- 6
Year- 2021
DOI: 10.55524/ijirem.2021.8.6.124 | DOI URL: https://doi.org/10.55524/ijirem.2021.8.6.124
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0) (http://creativecommons.org/licenses/by/4.0)
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Sachin Kishore , Rahat Ashraf
Phytochemical screening is an important step in detecting bioactive principles contained in therapeutic plants, and it might lead to the development of new therapeutics. The main phytoconstituents of chosen herbal plants were discovered in this study in order to link their presence to the bioactivities of the plants. The presence of steroids, alkaloids, flavonoids, carbohydrates, amino acids, and protein was detected using conventional techniques during the screening of the plants. The occurrence of these phytochemicals can be associated with a plant's therapeutic potential. The collecting of plants, the extraction of active compounds from diverse sections of plants, and the qualitative and quantitative analysis of phytochemicals are the primary topics of this article. More research on these plants is needed to assess their pharmacological potentials, isolate, describe, and clarify the structures of the bioactive chemicals that are responsible for their actions, as well as additional medical applications.
[1] Bandiola TM. Screening of medicinal plants for. Int J Pharm. 2018;8(1):137–43.
[2] Krishnaiah Bono DRSA. Phytochemical antioxidants for health and medicine - A move towards nature. Biotechnol Mol Biol rfeview Vol 1 pp097-104, Sept 2007. 2007;1(INKO 4):97–104.
[3] Savithramma N, Rao ML, Ankanna S. Screening of traditional medicinal plants for secondary metabolites. 2011;2(4):643–7.
[4] Nostro A, Germanò MP, D’Angelo V, Marino A, Cannatelli MA. Extraction methods and bioautography for evaluation of medicinal plant antimicrobial activity. Lett Appl Microbiol. 2000;30(5):379–84.
[5] Doernhoefer M. JavaScript. ACM SIGSOFT Softw Eng Notes. 2006;
[6] Eimhjellen IS. Web technologies in practice: the integration of web technologies by environmental organizations. Media, Cult Soc. 2014;
[7] Marburg A, Hayes MP, Bainbridge-Smith A. A machine vision extension to the Ruby programming language using OpenCV and FFI. In: International Conference Image and Vision Computing New Zealand. 2013.
[8] Mair P, Chamberlain S. Web technologies task view. R Journal. 2014.
[9] Mandava A, Antony S. A review and analysis of technologies for developing web applications. 2015;(March 2012).
[10] Verma R, Tapwal A, Puri S. Phytochemical Profiling and GCMS Study of Adhatoda vasica Nees. an Ethnomedicinal Plant of North Western Himalaya. 2016;8(2):268–73.
[11] Sant DG, Gujarathi TR, Harne SR, Ghosh S, Kitture R, Kale S, et al. Adiantum philippense L. Frond Assisted Rapid Green Synthesis of Gold and Silver Nanoparticles . J Nanoparticles. 2013;2013:1–9.
[12] Shravya S, Vinod BN, Sunil C. Pharmacological and phytochemical studies of Alangium salvifolium Wang. – A review. Bull Fac Pharmacy, Cairo Univ. 2017;55(2):217–22.
[13] Gnanaraja R, Prakash V, Peter S, Mahendraverman M. Qualitative and quantitative phytochemicals analysis of selected fabaceae medicinal plants from Allahabad region. ~ 53 ~ Pharma Innov J. 2014;3(7):53–6.
[14] Wadood A. Phytochemical Analysis of Medicinal Plants Occurring in Local Area of Mardan. Biochem Anal Biochem. 2013;02(04):2–5.
[15] Hickson I. HTML Microdata. W3C Work Gr Note 29. 2013;
[16] Kuhn RM, Haussler D, James Kent W. The UCSC genome browser and associated tools. Brief Bioinform. 2013;
[17] Django Software Foundation. Django: The Web framework for perfectionists with deadlines. DjangoprojectCom. 2013;
[18] Nolde N, Parker G. Stochastic analysis of life insurance surplus. Insur Math Econ. 2014;
[19] Global policy directions for maternal and child health in the SDG era. J Natl Inst Public Heal. 2017;
[20] Morsy N. Phytochemical analysis of biologically active constituents of medicinal plants. Main Gr Chem. 2014;13(1):7–21.
[21] Nag S, Paul A, Dutta R. Phytochemical Analysis of Methanolic Extracts of Leaves of Some Medicinal Plants. 2013;3(4):1–5.
[22] Banu KS, Cathrine L. General Techniques Involved in Phytochemical Analysis. Int J Adv Res Chem Sci. 2015;2(4):25–32.
[23] Anderson EW, Sullivan MW. The Antecedents and Consequences of Customer Satisfaction for Firms. Mark Sci. 1993;
[24] Leonard DJ. Exploring customer service through hospital management strategies. Diss Abstr Int Sect B Sci Eng. 2018;
[25] Hartono M, Raharjo H. Exploring the mediating role of affective and cognitive satisfaction on the effect of service quality on loyalty. Total Qual Manag Bus Excell. 2015;
[26] Murugesan R. A comparative analysis on preference and satisfaction of life insurance policy holders in dharmapuri district. 2014.
[27] Vijay Anand S, Selvaraj M. Evaluation of service quality and its impact on customer satisfaction in indian banking sector - A Comparative study using SERVPERF. Life Sci J. 2013;
RIMT University, Mandi Gobindgarh, Punjab, India Email Id- sachinkishore@rimt.ac.in
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