Ibm spss statistics 21 step by step pdf12/21/2023 ![]() Halder M, Sarkar S, Jha S (2019) Elicitation: a biotechnological tool for enhanced production of secondary metabolites in hairy root cultures. Gadzovska Simic S, Tusevski O, Maury S, Hano C, Delaunay A, Chabbert B, Lamblin F, Laine E, Joseph C, Hagege D (2015) Fungal elicitor-mediated enhancement in phenylpropanoid and naphtodianthrone contents of Hypericum perforatum L. įofana B, McNally DJ, Labbé C, Boulanger R, Benhamou N, Seguin A, Belanger RR (2002) Milsana-induced resistance in powdery mildew-infected cucumber plants correlates with the induction of chalcone synthase and chalcone isomerase. įaisal M, Siddique I, Anis M (2006) An efficient plant regeneration system for Mucuna pruriens L. ĭixon RA, Achnine L, Kota P, Liu CJ, Reddy MSS, Wang L (2002) The phenylpropanoid pathway and plant defence - a genomics perspective. ĭhawan SS, Rai GK, Darokar MP, Lal RK, Misra HO, Khanuja SPS (2011) Comparative genetic analysis of trichome-less and normal pod genotypes of Mucuna pruriens (Fabaceae). ![]() (03)00286-3ĭhanani T, Singh R, Shah S, Kumari P, Kumar S (2015) Comparison of green extraction methods with conventional extraction method for extract yield, L-DOPA concentration and antioxidant activity of Mucuna pruriens seed. ĭe Ascensao ARFDC, Dubery IA (2003) Soluble and wall-bound phenolics and phenolic polymers in Musa acuminata roots exposed to elicitors from Fusarium oxysporum f.sp. Ĭluzet S, Torregrosa C, Jacquet C, Lafitte C, Fournier J, Mercier L, Salamagne S, Briand X, Esquerré-Tugayé MT, Dumas B (2004) Gene expression profiling and protection of Medicago truncatula against a fungal infection in response to an elicitor from green algae Ulva spp. Ĭhattopadhyay S, Datta SK, Mahato SB (2011) Rapid micropropagation for Mucuna pruriens f. īhaskar R, Xavier LSE, Udayakumaran G, Kumar DS, Venkatesh R, Nagella P (2021) Biotic elicitors: a boon for the in-vitro production of plant secondary metabolites. Int J Res Pharm Sci 1:417–420īerrocal-Lobo M, Molina A (2008) Arabidopsis defense response against Fusarium oxysporum. Īrulkumar S, Sabesan M (2010) Biosynthesis and characterization of gold nanoparticle using antiparkinsonian drug Mucuna pruriens plant extract. Īrman M, Qader SAU (2012) Structural analysis of kappa-carrageenan isolated from Hypnea musciformis (red algae) and evaluation as an elicitor of plant defense mechanism. On the whole, it was noted that fungal extracts showed better results than algae.Īngelova Z, Georgiev S, Roos W (2006) Elicitation of plants. The elicitors, which showed a significant increase, are as follows: CO > AS > PE > CH > AA > KS > GF > SL. Based on productivity (L-DOPA concentration × biomass × volume), it was observed that Cordyceps showed the best result and enhanced both biomass and metabolite to a greater scale. pruriens cell cultures with the use of various algal and fungal elicitors. This is the first report demonstrating the enhancement of biomass and L-DOPA from M. Aqueous extracts of algae, fungus, and polysaccharide solution were exposed to the cell cultures for 3, 6, and 9 d, respectively, and their effect on biomass and L-DOPA production was noted. cell cultures, has been reported in the present study. Thus, an attempt of using the biotic elicitors for enhancing L-DOPA production, the anti-Parkinson’s drug from Mucuna pruriens (L.) DC. Whereas, strategies such as precursor feeding, elicitation, increases the metabolite content several-fold. Plant tissue culture techniques play a prominent role in mass multiplication of the plant. With the emerging rise in the need for drugs extracted from various plant sources, there also arises the need for the optimum production of the drugs on a larger scale and conservation of those medicinal plants using different in vitro techniques and biotechnological approaches.
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