Impact of aeration and agitation on metabolic heat and protease secretion of Aspergillus tamarii in a real-time biological reaction calorimeter

Dhandapani, Balaji; Surianarayanan, M.; Dhilipkumar, Sathish Sundar; Rajkumar, Suseela; Mandal, Asit Baran

doi:10.1007/s00253-012-3974-7

Cited by 9 publications

(1 citation statement)

References 36 publications

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“…In another study performed by Dhandapani et al [24] a selection of microorganisms isolated from leather tannery, Aspergillus tamarii was selected as the best producer of alkaline protease in a bioreactor, showing protease activity of 1.61 U/mL.…”

Section: Screening Of Aspergillus For Protease Productionmentioning

confidence: 99%

Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Silva¹,

Oliveira²,

Souza-Motta³

et al. 2016

AER

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This study reports the protease production from Aspergillus tamarii using agroindustrial residues as substrate for solid-state fermentation (SSF) and biochemical characterization. The highest protease production was obtained using wheat bran as substrate at 72 h fermentation with maximum proteolytic activity of 401.42 U/mL, collagenase of 243.0 U/mL and keratinase of 19.1 U/mL. The protease exhibited K M = 18.7 mg/mL and Vmax = 28.5 mg/mL/min. The optimal pH was 8.0 and stable in a wide pH range (5.0 -11.0) during 24 h. The optimum temperature was 40˚C. The proteolytic activity was inhibited by Cu 2+ (33.98%) and Hg 2+ (22.69%). The enzyme was also inhibited by PMSF (65.11%), indicating that is a Serine Protease. These properties suggest that alkaline protease from A. tamarii URM4634 is suitable for application in food industries and leather processing. Additionally, the present findings opened new vistas in the utilization of wheat bran and other effective agroindustrial wastes as substrates for SSF.

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Section: Screening Of Aspergillus For Protease Productionmentioning

confidence: 99%

Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Silva¹,

Oliveira²,

Souza-Motta³

et al. 2016

AER

View full text Add to dashboard Cite

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Better One-Eyed than Blind—Challenges and Opportunities of Biomass Measurement During Solid-State Fermentation of Basidiomycetes

Steudler

Bley

2015

Advances in Biochemical Engineering/Biotechnology

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Filamentous fungi, especially basidiomycetes, produce a wide range of metabolites, many of which have potential biotechnological and industrial applications. Solid-state fermentation (SSF) is very suitable for the cultivation of basidiomycetes since it mimics the natural habitat of these fungi. Some of the major advantages of SSF are the robustness of the process, the use of low-cost residual materials as substrates, and the reduced usage of water. However, monitoring key variables is difficult, which makes process control a challenge. Specifically, it is very difficult to determine the biomass during SSF process involving basidiomycetes. This is problematic, as the biomass is normally a key variable in mass and energy balance equations. Further, the success of fungal SSF processes is often evaluated, in part, based on the growth of the fungus. Direct determination of the dry weight of biomass is impossible and indirect quantification techniques must be used. Over the years, various determination techniques have been developed for the quantification of fungal biomass in SSF processes. The current review gives an overview of various direct and indirect biomass determination methods, discussing their advantages and disadvantages.

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Effect of aeration and agitation on yeast inulinase production: a biocalorimetric investigation

Santharam

Easwaran

Mohanakrishnan

et al. 2019

Bioprocess Biosyst Eng

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Impact of aeration and agitation on metabolic heat and protease secretion of Aspergillus tamarii in a real-time biological reaction calorimeter

Cited by 9 publications

References 36 publications

Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Better One-Eyed than Blind—Challenges and Opportunities of Biomass Measurement During Solid-State Fermentation of Basidiomycetes

Effect of aeration and agitation on yeast inulinase production: a biocalorimetric investigation

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Impact of aeration and agitation on metabolic heat and protease secretion of Aspergillus tamarii in a real-time biological reaction calorimeter

Cited by 9 publications

References 36 publications

Novel Protease from &lt;i&gt;Aspergillus tamarii&lt;/i&gt; URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Novel Protease from &lt;i&gt;Aspergillus tamarii&lt;/i&gt; URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Better One-Eyed than Blind—Challenges and Opportunities of Biomass Measurement During Solid-State Fermentation of Basidiomycetes

Effect of aeration and agitation on yeast inulinase production: a biocalorimetric investigation

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Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation

Novel Protease from <i>Aspergillus tamarii</i> URM4634: Production and Characterization Using Inexpensive Agroindustrial Substrates by Solid-State Fermentation