Characterization of Yellow Pigments Produced by Pencillium sp. under Solid State Cultivation

Journal of biotechnology & biomaterials Pub Date : 2017-06-02 DOI:10.4172/2155-952X.1000259

Supreet Kaur, N. Arora, Sawinder Kaur

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引用次数: 7

Abstract

Solid state fermentation was carried out for the production of pigments by using agricultural wastes. Yellow pigments were produced; the absorbance maxima of Pigment extract was measured by spectral analysis. Out of these agricultural wastes broken wheat (0.996 OD) was best for the pigment production. The maximum pigment yield (137.8 U/g) was seen at 12th day. The study revealed that the addition of nitrogen source improves the metabolic activity of the organism. Monosodium glutamate and ammonium nitrate improved the growth than other supplements. Various parameters were optimized to check the pigment stability. Pigments showed high stability at low temperatures (30-60°C) and become low at high temperature (above 60°C) and high stability at near-neutrality pH values (8.0) when compared to acidic pH values (4.0-6.0). FTIR analysis was performed to determine the chemical bonds in a molecule by infrared absorption spectra of Pigments. IR indicated that it is a phenolic compound and has broad stretching OH, C=C and C-H groups of the aromatic ring. It can be concluded that the microbial pigment produced can find application in the areas of textile, pharmaceuticals and food industries.

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铅笔属植物固体栽培生产黄色色素的特性研究

利用农业废弃物进行固体发酵生产色素。生产黄色颜料;通过光谱分析测定了色素提取液的吸光度最大值。其中碎小麦(OD值为0.996)最适合生产色素。第12天色素产量最高，为137.8 U/g。研究表明，氮源的添加提高了生物体的代谢活性。谷氨酸钠和硝酸铵比其他添加物对生长有促进作用。通过优化各项参数来考察颜料的稳定性。与酸性pH值(4.0-6.0)相比，颜料在低温(30-60°C)下表现出高稳定性，在高温(60°C以上)下变低，在接近中性pH值(8.0)下表现出高稳定性。利用色素的红外吸收光谱，对分子中的化学键进行了FTIR分析。红外光谱表明它是一种酚类化合物，芳香环上有宽伸展的OH、C=C和C- h基团。由此可见，所制备的微生物色素在纺织、医药、食品等领域具有广泛的应用前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of biotechnology & biomaterials

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