An efficient and improved methodology for the screening of industrially valuable xylano-pectino-cellulolytic microbes.

Q2 Biochemistry, Genetics and Molecular Biology Enzyme Research Pub Date : 2015-01-01 Epub Date: 2015-01-26 DOI:10.1155/2015/725281
Avtar Singh, Amanjot Kaur, Anita Dua, Ritu Mahajan
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引用次数: 23

Abstract

Xylano-pectino-cellulolytic enzymes are valuable enzymes of the industrial sector. In our earlier study, we have reported a novel and cost effective methodology for the qualitative screening of cellulase-free xylano-pectinolytic microorganisms by replacing the commercial, highly expensive substrates with agricultural residues, but the microorganisms with xylanolytic, pectinolytic, cellulolytic, xylano-pectinolytic, xylano-cellulolytic, pectino-cellulolytic, and xylano-pectino-cellulolytic potential were obtained. The probability of getting the desired combination was low, so efforts were made to further improve this cost effective methodology for obtaining the high yield of the microbes capable of producing desired combination of enzymes. By inclusion of multiple enrichment steps in sequence, using only practically low cost substrates and without any nutrient media till primary screening stage, this improved novel protocol for screening gave only the desired microorganisms with xylano-pectino-cellulolytic activity. Using this rapid, efficient, cost effective, and improved methodology, microbes with required combination of enzymes can be obtained and the probability of getting the desired microorganisms is cent percent. This is the first report presenting the methodology for the isolation of xylano-pectino-cellulolytic positive microorganisms at low cost and consuming less time.

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筛选具有工业价值的木聚糖-果胶-纤维素分解微生物的有效改进方法。
木聚糖-果胶-纤维素水解酶是工业领域有价值的酶。在我们早期的研究中,我们已经报道了一种新的、具有成本效益的方法,通过用农业残留物取代商业的、昂贵的底物来定性筛选无纤维素酶的木聚糖-果胶水解微生物,但获得了具有木聚糖水解、果胶水解、纤维素水解、木聚糖-果胶水解、木聚糖-纤维素水解、果胶-纤维素水解和木聚糖-果胶-纤维素水解潜力的微生物。获得所需组合的概率很低,因此需要进一步改进这种具有成本效益的方法,以获得能够产生所需酶组合的微生物的高产率。通过包含多个富集步骤的顺序,在初级筛选阶段只使用几乎低成本的底物,并且不使用任何营养培养基,这种改进的新筛选方案只提供所需的具有木聚糖-果胶-纤维素水解活性的微生物。使用这种快速、高效、经济和改进的方法,可以获得具有所需酶组合的微生物,并且获得所需微生物的概率为%。本文首次报道了低成本、短时间分离木聚糖-果胶-纤维素分解阳性微生物的方法。
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来源期刊
Enzyme Research
Enzyme Research Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
4.60
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0.00%
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0
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