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Do cultural conditions induce differential protein expression: profiling of extracellular proteome of Aspergillus terreus CM20
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View Archive Info| Field | Value | |
| Title |
Do cultural conditions induce differential protein expression: profiling of extracellular proteome of Aspergillus terreus CM20
Not Available |
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| Creator |
M Saritha, S Singh, R Tiwari, R Goel, L Nain
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| Subject |
Aspergillus terreus
Fermentation Extracellular proteome |
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| Description |
Not Available
The present study reports the diversity in extracellular proteins expressed by the filamentous fungus, Aspergillus terreus CM20 with respect to differential hydrolytic enzyme production profiles in submerged fermentation (SmF) and solid-state fermentation (SSF) conditions, and analysis of the extracellular proteome. The SSF method was superior in terms of increase in enzyme activities resulting in 1.5–3 fold enhancement as compared to SmF, which was explained by the difference in growth pattern of the fungus under the two culture conditions. As revealed by zymography, multiple isoforms of endo-β-glucanase, β-glucosidase and xylanase were expressed in SSF, but not in SmF. Extracellular proteome profiling of A. terreus CM20 under SSF condition using liquid chromatography coupled tandem mass spectrometry (LC–MS/MS) identified 63 proteins. Functional classification revealed the hydrolytic system to be composed of glycoside hydrolases (56%), proteases (16%), oxidases and dehydrogenases (6%), decarboxylases (3%), esterases (3%) and other proteins (16%). Twenty families of glycoside hydrolases (GH) (1, 3, 5, 7, 10, 11, 12, 15, 16, 28, 30, 32, 35, 43, 54, 62, 67, 72, 74 and 125), and one family each of auxiliary activities (AA7) and carbohydrate esterase (CE1) were detected, unveiling the vast diversity of synergistically acting biomass-cleaving enzymes expressed by the fungus. Saccharification of alkali-pretreated paddy straw with A. terreus CM20 proteins released high amounts of glucose (439.63 ± 1.50 mg/gds), xylose (121.04 ± 1.25 mg/gds) and arabinose (56.13 ± 0.56 mg/gds), thereby confirming the potential of the enzyme cocktail in bringing about considerable conversion of lignocellulosic polysaccharides to sugar monomers. Not Available |
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| Date |
2018-11-14T11:58:47Z
2018-11-14T11:58:47Z 2016-11-01 |
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| Type |
Research Paper
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| Identifier |
Not Available
http://krishi.icar.gov.in/Publication/handle/123456789/11335 |
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| Language |
English
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| Relation |
Not Available;
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| Publisher |
Elsevier
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