Sashidhar Rao Beedu scite author profile

BackgroundGum ghatti is a proteinaceous edible, exudate tree gum of India and is also used in traditional medicine. A facile and ecofriendly green method has been developed for the synthesis of silver nanoparticles from silver nitrate using gum ghatti (Anogeissus latifolia) as a reducing and stabilizing agent. The influence of concentration of gum and reaction time on the synthesis of nanoparticles was studied. UV–visible spectroscopy, transmission electron microscopy and X-ray diffraction analytical techniques were used to characterize the synthesized nanoparticles.ResultsBy optimizing the reaction conditions, we could achieve nearly monodispersed and size controlled spherical nanoparticles of around 5.7 ± 0.2 nm. A possible mechanism involved in the reduction and stabilization of nanoparticles has been investigated using Fourier transform infrared spectroscopy and Raman spectroscopy.ConclusionsThe synthesized silver nanoparticles had significant antibacterial action on both the Gram classes of bacteria. As the silver nanoparticles are encapsulated with functional group rich gum, they can be easily integrated for various biological applications.

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Comparative Analysis of Urinary Total Proteins by Bicinchoninic Acid and Pyrogallol Red Molybdate Methods

Yalamati

Bhongir

Karra

et al. 2015

JCDR

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Biogenic green synthesis of monodispersed gum kondagogu (Cochlospermum gossypium) iron nanocomposite material and its application in germination and growth of mung bean (Vigna radiata) as a plant model

Raju

Mehta

Beedu

2016

IET nanobiotechnol.

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An eco-friendly green and one-pot synthesis of highly monodispersed iron (Fe) nanoparticles (NPs) by using a natural biopolymer, gum kondagogu (GK) as reducing and capping agent is proposed. The NPs synthesised were characterised by ultra-violet-visible spectroscopy, transmission electron microscopy, scanning electron microscopy and X-ray diffraction. As the concentration of gum and time increases, the intensity of NPs formation increased. The NPs were highly monodispersed with uniform circular shapes of 2-6 nm in size. The formed NPs were crystalline in nature which was confirmed by diffraction analysis. The conversion ratio of Fe ionic form to NPs was 21% which was quantified by inductively coupled plasma mass spectroscopy (ICP-MS). Fe is essential for plant growth and development. A study was conducted to examine the effect of these NPs on the growth of mung bean (Vigna radiata). The radical length and biomass was increased in seeds exposed to Fe NPs than the ions. The uptake of Fe NPs by the sprouts was also quantified by ICP-MS, in which Fe was more in mung bean seeds exposed to NPs. The α-amylase activity was increased in the seeds exposed to NPs. The observed increase in the biomass by Fe NPs and seed germination may facilitate its application in the agriculture as an important cost-effective method for plant growth.

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Spectroscopic and biochemical correlations during the course of human lens aging

Ranjan

Beedu

2006

BMC Ophthalmol

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Background: With age, the human lens accumulates variety of substances that absorbs and fluorescence, which explains the color of yellow, brunescent and nigrescent cataract in terms of aging. The aim of this study was to assess lens fluorophores with properties comparable to those of advanced glycated end products (AGEs) in relation to age in human lenses. These fluorescent compounds are believed to be involved in the development of cataract.

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Biopolymer‐mediated synthesis and characterisation of platinum nanocomposite and its anti‐fungal activity against A. parasiticus and A. flavus

Godugu

Beedu

2018

Micro & Nano Letters

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The green synthesis of the platinum (Pt) nanocomposite was achieved using a natural biopolymer gum kondagogu (GK), a widely preferred reducing agent because of its biocompatible and biodegradable nature. The synthesised GK Pt nanoparticle (GKPtNP) were characterised by using different analytical techniques such as ultraviolet-visible spectrophotometer, transmission electron microscope, X-ray diffraction, and inductively coupled plasma mass spectroscopy (ICP-MS). The objective of the present work was to evaluate the anti-fungal activity of GKPtNP against two strains Aspergillus parasiticus and Aspergillus flavus for the first time. The results revealed that GKPtNP-treated fungal cell suspensions showed the minimum inhibitory concentration of 10 μg ml −1 for both the strains and exhibited IC 50 values as 37.2 and 29.4 μg ml −1 , against A. parasiticus and A. flavus. The mechanism of action of Pt nanocomposite on fungi outer membrane and generation of reactive oxygen species (ROS) was elucidated. It was observed that the interaction of GKPtNP caused destabilisation of fungal outer membrane signifying elevated levels of ROS leading to oxidative stress. In conclusion, the Pt nanocomposite materials acted as a fungicidal agent against A. parasiticus and A. flavus and give a significant scope in various biomedical applications.

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