Anchalee Pengkit scite author profile

Application of plasma medicine has been actively explored during last several years. Treating every type of cancer remains a difficult task for medical personnel due to the wide variety of cancer cell selectivity. Research in advanced plasma physics has led to the development of different types of non-thermal plasma devices, such as plasma jets, and dielectric barrier discharges. Non-thermal plasma generates many charged particles and reactive species when brought into contact with biological samples. The main constituents include reactive nitrogen species, reactive oxygen species, and plasma ultra-violets. These species can be applied to synthesize biologically important nanomaterials or can be used with nanomaterials for various kinds of biomedical applications to improve human health. This review reports recent updates on plasma-based synthesis of biologically important nanomaterials and synergy of plasma with nanomaterials for various kind of biological applications.

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Assessment of the Effects of Nitrogen Plasma and Plasma‐Generated Nitric Oxide on Early Development of Coriandum sativum

Kim

Panngom

et al. 2015

Plasma Processes & Polymers

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Potentiality of non‐thermal atmospheric pressure plasma in activating plant development has been evaluated in this study. Seed germination rate of Coriander sativum, a herbaceous plant with slow germination rate, has been significantly increased over time compared to control after micro DBD (dielectric barrier discharge) plasma treatment with N2 feeding gas. No more increase in seed germination has been observed when the transferred energy dose was over 0.65 J per seed during plasma generation, regardless of feeding gases. Germination and seedling growth have been also elevated by plasma‐generated nitric oxide (PGNO) produced from microwave plasma torch in dose dependent manner and a threshold concentration of nitric oxide (NO) activating coriander development has been observed. Our data indicate that plasma energy transferred to seeds or PGNO can activate developmental processes in plant.

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Differential Inactivation of Fungal Spores in Water and on Seeds by Ozone and Arc Discharge Plasma

et al. 2015

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Seed sterilization is essential for preventing seed borne fungal diseases. Sterilization tools based on physical technologies have recently received much attention. However, available information is very limited in terms of efficiency, safety, and mode of action. In this study, we have examined antifungal activity of ozone and arc discharge plasma, potential tools for seed sterilization. In our results, ozone and arc discharge plasma have shown differential antifungal effects, depending on the environment associated with fungal spores (freely submerged in water or infected seeds). Ozone inactivates Fusarium fujikuroi (fungus causing rice bakanae disease) spores submerged in water more efficiently than arc discharge plasma. However, fungal spores associated with or infecting rice seeds are more effectively deactivated by arc discharge plasma. ROS generated in water by ozone may function as a powerful fungicidal factor. On the other hand, shockwave generated from arc discharge plasma may have greatly contributed to antifungal effects on fungus associated with rice seeds. In support of this notion, addition of ultrasonic wave in ozone generating water has greatly increased the efficiency of seed disinfection.

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Identification and functional analysis of endogenous nitric oxide in a filamentous fungus

Pengkit

Jeon

Son

et al. 2016

Sci Rep

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In spite of its prevalence in animals and plants, endogenous nitric oxide (NO) has been rarely reported in fungi. We present here our observations on production of intracellular NO and its possible roles during development of Neurospora crassa, a model filamentous fungus. Intracellular NO was detected in hypha 8–16 hours after incubation in Vogel’s minimal liquid media and conidiophores during conidiation using a fluorescent indicator (DAF-FM diacetate). Treatment with cPTIO, an NO scavenger, significantly reduced fluorescence levels and hindered hyphal growth in liquid media and conidiation, whereas exogenous NO enhanced hyphal extension on VM agar media and conidia formation. NO scavenging also dramatically diminished transcription of con-10 and con-13, genes preferentially expressed during conidiation. Our results suggest that intracellular NO is generated in young hypha growing in submerged culture and during conidia development and regulate mycelial development and conidia formation.

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