Biopigments Produced by Monascus purpureus Through Solid State Fermentation: HPTLC Finger Printing Analysis

SVOA Microbiology Pub Date : 2023-02-20 DOI:10.58624/svoamb.2023.04.024

B. Panda, Makhmur Ahmad

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Abstract

The current study aims to conduct HPTLC finger printing analysis of various extracts of Monascus purpureus biopig-ments (water extract, acetone extract, chloroform extract, acetonitrile extract, petroleum ether extract, methanol extract, ethanol extract, hexane extract). Natural and synthetic pigments both play an important roles as biocolourants in the food and pharmaceutical industries. The most recent HPTLC technique helps useful fingerprint analysis to determine the identity and composition of natural phytomolecules. Solid state fermentation was carried out with the help of a production medium contains long grain, unripe basmati rice. Water, acetone, chloroform, petroleum ether, acetonitrile, ethanol, methanol, and hexane were used to extract fermented rice (5g), which was then analysed at 485 nm. For scanning at different wavelengths of 370 nm (yellow pigment), 420 nm (red pigment), 470 nm (orange pigment), 500 nm, and 530 nm (red pigment), various mobile phases have been developed. When chromatographed with mobile phase 5 (ethyl acetate: isopropanol: water - 8.0:1.0:1.0 v/v), an acetone extract of Monascus biopigment showed good resolution.

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红曲霉固态发酵生产的生物色素:HPTLC指纹图谱分析

本研究旨在对红曲霉生物色素的各种提取物(水提取物、丙酮提取物、氯仿提取物、乙腈提取物、石油醚提取物、甲醇提取物、乙醇提取物、己烷提取物)进行HPTLC指纹图谱分析。天然色素和合成色素在食品和制药工业中都扮演着重要的生物着色剂角色。最新的HPTLC技术有助于有用的指纹分析来确定天然植物分子的身份和组成。固体发酵是在含有长粒未成熟的印度香米的生产介质的帮助下进行的。用水、丙酮、氯仿、石油醚、乙腈、乙醇、甲醇和己烷提取发酵大米(5g)，然后在485 nm处进行分析。针对370 nm(黄色色素)、420 nm(红色色素)、470 nm(橙色色素)、500 nm和530 nm(红色色素)不同波长的扫描，开发了各种流动相。用流动相5(乙酸乙酯:异丙醇:水- 8.0:1.0:1.0 v/v)色谱，红曲霉生物色素丙酮提取物具有较好的分辨率。

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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SVOA Microbiology

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