Kristina Ehrich scite author profile

Microparticle-enhanced cultivation (MPEC) was applied as a novel method for improved biomass and product formation during cultivation of filamentous microorganisms. Exemplarily, chloroperoxidase (CPO) formation by Caldariomyces fumago was analyzed in the presence and absence of microparticles of different size. Particles of $500 mm in diameter had no effect on growth morphology or productivity of CPO formation by C. fumago. In contrast particles of 42 mm in diameter led to the dispersion of the C. fumago mycelia up to the level of single hyphae. Under these conditions the maximum specific productivity of CPO formation was enhanced about fivefold and an accumulated CPO activity in the culture supernatant of more than 1,000 U mL À1 was achieved after 10-12 days of cultivation. In addition, the novel cultivation method also showed a positive effect on growth characteristics of other filamentous microorganisms proven by the stimulation of single hyphae/ cell formation.

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Over-expression of chloroperoxidase in Caldariomyces fumago

Buchhaupt

Ehrich

Hüttmann

et al. 2011

Biotechnol Lett

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The filamentous fungus Caldariomyces fumago secretes a chloroperoxidase (CPO). To increase its production, we integrated a CPO-expression cassette into the non-transcribed spacer regions of the rDNA in C. fumago. One strain was obtained that had twice the CPO activity when grown in shake-flask and bioreactor compared to the wild-type. The highest CPO activity from the bioreactor cultivation was 3,236 U ml(-1). This is the highest value reported so far.

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Überexpression von Chloroperoxidase in Caldariomyces fumago

Buchhaupt

Hüttmann

Ehrich

et al. 2010

Chemie Ingenieur Technik

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Kristina Ehrich

Microparticle‐enhanced cultivation of filamentous microorganisms: Increased chloroperoxidase formation by Caldariomyces fumago as an example

Over-expression of chloroperoxidase in Caldariomyces fumago

Überexpression von Chloroperoxidase in Caldariomyces fumago

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