2012
DOI: 10.1088/1009-0630/14/4/06
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The Mutation Breeding and Mutagenic Effect of Air Plasma onPenicillium Chrysogenum

Abstract: Low temperature air plasma was used as the mutation tool for penicillin-producing strain P enicillium chrysogenum. The discharge conditions were RF power of 360 W, temperature of 40 o C in a sealed chamber, and pressure of 10 Pa to 30 Pa. The result showed that the kinetics of the survival rate followed a typical saddle-shaped curve. Based on a statistic analysis, at the treating duration of 10 min, the positive mutation rate was as high as 37.5% while the negative mutation rate was low. The colonial morpholog… Show more

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Cited by 2 publications
(3 citation statements)
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“…It requires only a small amount of energy input to generate stable plasma discharge at atmospheric pressure and excite a plasma jet with high concentrations of reactive particles (excited helium atoms, hydrogen atoms, and oxygen atoms), 34,35 playing an important role in the field of microbial mutagenesis. In addition to this, the use of gases such as argon, air, oxygen, and helium has also been reported elsewhere 17,18,36 . In general, the generated reactive species in plasma discharge depend to a large extent on the composition of the working gases.…”
Section: Artpmentioning
confidence: 89%
See 1 more Smart Citation
“…It requires only a small amount of energy input to generate stable plasma discharge at atmospheric pressure and excite a plasma jet with high concentrations of reactive particles (excited helium atoms, hydrogen atoms, and oxygen atoms), 34,35 playing an important role in the field of microbial mutagenesis. In addition to this, the use of gases such as argon, air, oxygen, and helium has also been reported elsewhere 17,18,36 . In general, the generated reactive species in plasma discharge depend to a large extent on the composition of the working gases.…”
Section: Artpmentioning
confidence: 89%
“…In addition to this, the use of gases such as argon, air, oxygen, and helium has also been reported elsewhere. 17,18,36 In general, the generated reactive species in plasma discharge depend to a large extent on the composition of the working gases. The addition of nitrogen or oxygen to the inert gases increases the variety of reactive chemicals, 37 ), nitric oxide (NO) and ozone (O 3 ).…”
Section: Diagnosis Of Reactive Species Generated By Artpmentioning
confidence: 99%
“…Plasma, which is an equal density of negative and positive particles ionized gas, belongs to the fourth state of matter and is composed of charged particles (electrons and ions), atoms, radicals, molecules in ground and excited states, and photons [1,2]. Plasma has been widely used in many fields, such as plasma-assisted combustion (PAC) [3], plasma surface modification [4], plasma sterilization [5], plasma active flow control [6], and plasma mutation breeding [7]. Among these, PAC is a remarkable solution to enlarging stable combustion boundary, improving combustion stability and combustion efficiency, and lowering nitric oxide emissions; it addresses these issues at a low energy cost, as put forward and studied by numerous relevant experts [8][9][10][11].…”
Section: Introductionmentioning
confidence: 99%