Latest News on Gloriosa Superba Research: Oct – 2019

Green synthesis of CuO nanoparticles using Gloriosa superba L. extract and their antibacterial activity

The investigation aims at the synthesis of oxide nanoparticles (CuO Nps) exploitation climbing lily L. plant extract as fuel by resolution combustion synthesis, their characterization and studies on medication activities against elite unhealthful microorganism. diffraction studies showed that the particles area unit monoclinic in nature. The UV–visible spectrum of CuO Nps indicates the blue shift with increase of concentration of plant extract. SEM pictures reveal that the particles area unit spherical in nature. TEM image indicates that as-formed CuO Nps area unit spherical in form, and also the size is found to be within the vary 5–10 nm. [1]

Colchicine cardiotoxicity following ingestion of Gloriosa superba tubers

The clinical options of colchicine toxicity in a very patient following activity of glory lily tubers are represented. intestinal flu, acute failure, cardiotoxicity and hematological abnormalities were the most cyanogenetic manifestations. There was no cardiovascular disease and no medical specialty manifestations. medical instrument changes were noteworthy and haven’t been reportable antecedently. [2]

Green synthesis of silver nanoparticles from Gloriosa superba L. leaf extract and their catalytic activity

The present work focuses the utilization of binary compound extract of gloriosa Linn. (Glory Lily) for manufacturing silver nanoparticles (AgNPs) from caustic solution. Phytochemical analysis of the extract unconcealed the presence of organic compound, amino acids, carbohydrates and proteins within the extract and that they function effective reducing and capping agents for changing caustic to silver nanoparticles. The nanoparticles were characterized by actinic radiation (Ultra violet), FT-IR (Fourier rework Infrared), XRD (X-ray diffraction), TEM (Transmission negatron Microscope) SEM-EDX (Scanning negatron Microscopy-Energy Dispersive X-ray), and PL (Photoluminescence) studies. Moreover, the chemical change activity of synthesized AgNPs within the reduction of thiazine was studied by UV-vis photometer. [3]

Vascular Supply of the Stamens and Ovules of Gloriosa superba

THE study of Tai tube anatomy of the flower of glory lily Linn., a bulbous plant common in Bharat and close tropical countries, has disclosed the incidence of anatomical structure within the stamens and ovules, that is each uncommon among angiosperms and of abundant organic process significance. [4]

Molecular and Agro-Morphological Genetic Diversity Assessment of Gloriosa superba Mutants

Glory lily (Gloriosa superba L.), a high worth medicative crop cultivated in state for its valuable seeds and tubers. This crop belongs to the Colchicaceae. The active principle Colchicine and Colchicoside gift in seeds and tubers cures gouty arthritis and rheumatism. The genetic variability is also low as a result of the continued  vegetative propagation through tubers. there’s associate pressing got to explore the chances for developing variability during this species with high seed yield and improved colchicine content through evoked mutations. Mutation breeding was settled involving physical and chemical mutagens viz., gamma rays, ethyl group alkyl group salt (EMS) and Diethyl sulfate (DES). [5]

Reference

[1] Naika, H.R., Lingaraju, K., Manjunath, K., Kumar, D., Nagaraju, G., Suresh, D. and Nagabhushana, H., 2015. Green synthesis of CuO nanoparticles using Gloriosa superba L. extract and their antibacterial activity. Journal of Taibah University for Science, 9(1), (Web Link)

[2] Mendis, S., 1989. Colchicine cardiotoxicity following ingestion of Gloriosa superba tubers. Postgraduate medical journal, 65(768), (Web Link)

[3] Ashokkumar, S., Ravi, S. and Velmurugan, S., 2013. Green synthesis of silver nanoparticles from Gloriosa superba L. leaf extract and their catalytic activity. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, 115, (Web Link)

[4] Vascular Supply of the Stamens and Ovules of Gloriosa superba
A. C. JOSHI
Naturevolume 143, page437 (1939) (Web Link)

[5] Selvarasu, A. and Kandhasamy, R. (2017) “Molecular and Agro-Morphological Genetic Diversity Assessment of Gloriosa superba Mutants”, European Journal of Medicinal Plants, 21(1), (Web Link)

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