Einfluß der Cu<sup>++</sup>‐Ionen auf den morphologischen, cytologischen und physiologischen Zustand von <i>Candida utilis</i>‐Zellen bei kontinuierlicher Kultivierung

Khovrytchev, M. P.; Strunk, Christa; Schuhmann, Edith; Lirova, S A; Rabotnova, I L

doi:10.1002/jobm.19770170105

J of Basic Microbiology

1977

DOI: 10.1002/jobm.19770170105

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Einfluß der Cu⁺⁺‐Ionen auf den morphologischen, cytologischen und physiologischen Zustand von Candida utilis‐Zellen bei kontinuierlicher Kultivierung

M. P. Khovrytchev¹,

Christa Strunk²,

Edith Schuhmann³

et al.

Abstract: A discussion of the experimental data is presented.Cells of Candida utilis grown in continuous culture under the influence of rather high concentrations of copper ions have been studied biochemically, morphologically, and cytologically. Although under these conditions a new steady state has been adjusted, the population is much more differentiated than under control conditions. With regard to their size, structure, and viability the cells have been arranged into 4 groups. Generally, the „copper cells”︁ in comp… Show more

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Cited by 3 publications

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Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Mühlig

Strunk

Kühne

1977

J of Basic Microbiology

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The ultrastructural alterations in cells of Candida utilis caused by the influence of copper ions have been studied by means of quantitative image analysis. A model has been proposed which presents the following informations: The main effect of the copper ions is represented by an increase of the volume of the whole cell and of that part of the cell which consists of nucleus, vacuoles, and inclusions (particles and globules). Nevertheless, neither the absolute volume of mitochondria, nor the density of mitochondria are influenced by high concentrations of copper ions in the culture medium.

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Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Mühlig

Strunk

Kühne

1977

J of Basic Microbiology

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Effect of the Copper Content of Distillery Spent Wash on its Utilization for Single‐cell Protein Production by Geotrichum candidum, Hansenula anomala and Candida kruzei

Quinn

Barker

Marchant

1981

Journal of Applied Bacteriology

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Geotrichum candidum, Hansenula anomala and Candida kruzei were grown in batch and continuous culture on samples of the spent wash from a malt whiskey distillery containing levels of dissolved copper up to 22 mg/l. In batch culture some inhibition of growth at the higher copper concentrations and as much as a sixfold accumulation of copper in the biomass were observed. In Geotrichum candidum this accumulation occurred in three distinct phases during the period of batch growth. Although biomass yields in mixed continuous culture declined with increasing dilution rate there was a corresponding increase in cell copper concentration such that total copper removal from the medium remained approximately constant.

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Optimization by response surface methodology for production of β-galactosidase from Enterococcus faecium using recycled medium

Silva

Calaça

Porto

et al. 2020

RSD

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In this study, recycled medium from three photosynthetic microorganisms (Chlorella vulgaris, Dunaliella tertiolecta and Arthrospira platensis) was evaluated for use in producing β-galactosidase, an enzyme traditionally used to degrade lactose in dairy products. Recycled medium from Chlorella vulgaris was selected to optimize culture medium to be used to produce β-galactosidase by Enterococcus faecium in submerged fermentation. Response Surface Methodology (RSM) was used to optimize the levels of the variables: temperature (30-40°C), lactose concentration (0-5%), fermentation time (12-24h), pH (6-8) and their interaction. All variables studied had a statistically significant effect on the production of β-galactosidase. The optimal conditions for producing the enzyme were achieved: temperature of 31ºC, lactose concentration of 5.34%, fermentation time of 12h and pH of 8.0. Under these conditions, the β-galactosidase activity was 29.85 U/mL which was quite close to the predicted value (30.83 U/mL). Finally, it can be concluded that recycled medium from optimized C. vulgaris supernatant may well be important for the biotechnology industry as it is an abundant low-cost source for producing β-galactosidase by Enterococcus faecium.

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Einfluß der Cu⁺⁺‐Ionen auf den morphologischen, cytologischen und physiologischen Zustand von Candida utilis‐Zellen bei kontinuierlicher Kultivierung

Cited by 3 publications

References 9 publications

Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Effect of the Copper Content of Distillery Spent Wash on its Utilization for Single‐cell Protein Production by Geotrichum candidum, Hansenula anomala and Candida kruzei

Optimization by response surface methodology for production of β-galactosidase from Enterococcus faecium using recycled medium

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Resources

About

Einfluß der Cu++‐Ionen auf den morphologischen, cytologischen und physiologischen Zustand von Candida utilis‐Zellen bei kontinuierlicher Kultivierung

Cited by 3 publications

References 9 publications

Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Vergleichende morphologische Untersuchungen an Hefezellen mit Hilfe der automatischen Bildanalyse

Effect of the Copper Content of Distillery Spent Wash on its Utilization for Single‐cell Protein Production by Geotrichum candidum, Hansenula anomala and Candida kruzei

Optimization by response surface methodology for production of β-galactosidase from Enterococcus faecium using recycled medium

Contact Info

Product

Resources

About

Einfluß der Cu⁺⁺‐Ionen auf den morphologischen, cytologischen und physiologischen Zustand von Candida utilis‐Zellen bei kontinuierlicher Kultivierung