Your search keyword '"REVERSE phase liquid chromatography"' showing total 2 results

1. Ecological niche modelling guided chemotypic analysis of Ageratum conyzoides L. from varied geography of India.

Author

Kumar, Bhanu, Sharma, Sonu, Singh, Satyendra Pratap, Adhikari, Dibyendu, Kumar, Satyanshu, and Srivastava, Sharad

Subjects

*ECOLOGICAL models, *ECOLOGICAL niche, *REVERSE phase liquid chromatography, *WEED competition, *NOXIOUS weeds, *TICK infestations, *GEOGRAPHY

Abstract

Ageratum conyzoides L., recognized globally as a noxious weed, holds significant value in traditional medicine, particularly in treating cuts, wounds, and tick infestations. This study focuses on identifying specific germplasms of this plant, rich in therapeutically valuable metabolites, across various phytogeographical zones in India. Using the Reverse Phase High-Performance Liquid Chromatography with Photodiode Array Detection (RP-HPLC-PDA) method, we analyzed 110 samples to quantify five key bioactive markers: Precocene-I (PRC-I), Coumarin (CM), Caryophyllene (CAR), Caryophyllene Oxide (CAO), and Humulene (HUM). Our findings revealed distinct geographical variations in these compounds. The highest concentrations of PRC-I (7.86±1.36 %) was found in sample NAC-12, CM (1.50±0.46 %) and HUM (0.0099±0.0004 %) in NAC-104, while CAR (6.33±0.87 %) and CAO (6.23±0.18 %) were predominant in NAC-01 and NAC-02, respectively. Ecological Niche Modelling (ENM) was used to predict the climatic suitability of regions for high yield of these metabolites. The ENM results showed that annual precipitation (Bio 12), precipitation of the coldest quarter (Bio 19) and minimum temperature of coldest month (Bio 6) were the principal climatic factors influencing metabolite content. Geographically, the Indo-Gangetic plain, Indus plain, and Central India were identified as suitable for higher content of PRC-I, CAO, CAR, whereas the North Eastern region favoured high content of CM and HUM. This study underscores the importance of bioactive marker-based assessment in understanding chemotypic diversity and demonstrates the effective use of ENM in predicting optimal habitats for harvesting specific chemotypes. These insights pave the way for location-specific cultivation strategies and targeted procurement of metabolite-rich germplasms, contributing to sustainable sourcing and conservation efforts, as well as to the advancement of herbal product standardization and efficacy. [Display omitted] • Five bioactive markers were quantified in 110 Ageratum conyzoides samples. • Precocene I was in maximum concentration followed by caryophyllene. • Central India region was favorable for precocene and caryophyllenes. • North Eastern region of India favoured high content of coumarin and humulene. [ABSTRACT FROM AUTHOR]

Published

2024

2. Traditional Horticulture Practices Increase the Production of Selected Withanolides in Withania Somnifera (L.) Dunal—A RP-UFLC Analysis.

Author

Ankad, Gireesh M, Pai, Sandeep R, Hiremath, Jagadishchandra, and Hegde, Harsha V

Subjects

*WITHANIA somnifera, *REVERSE phase liquid chromatography, *WITHANOLIDES, *FARM manure, *LIFE sciences, *PRODUCTION increases

Abstract

The study evaluates the effect of two traditional horticulture treatments mentioned in Vrikshayurveda, a text from ancient India on the science of plant life, namely Kunapa jala (KJ) and Pancha gavya (PG) on the production of Withaferin A (WFA), withanolide A (WIA) and Withanolide B (WIB) in Withania somnifera (L) Dunal. Leaves and roots of W. somnifera were collected from different treated groups viz. control, KJ, PG, farmyard manure (FYM) and inorganic fertilizer (NPK). Reverse phase ultra-flow liquid chromatography (RP-UFLC) method was developed, validated for simultaneous detection of WFA, WIA and WIB. Statistical analysis of data was performed by ANOVA and tested for significance by the Dunnett multiple comparison test and data were expressed as mean ± standard deviation (SD). Results revealed, leaves possessed highest WFA content and roots possessed highest content of WIA and WIB. PG treated leaves were observed highest WFA (18.29 mg/g) and roots were observed highest WIA (19.63 mg/g) and WIB (1.36 mg/g). Conclusively, RP-UFLC method for simultaneous detection of withanolides has been developed and validated to evaluate the effect of traditional horticulture treatments. It is concluded that the enhanced production of withanolides can be achieved by the application of PG when compared to NPK application. [ABSTRACT FROM AUTHOR]

Published

2020