Preparation and process optimization of microbial organic copper as a feed additive

Preparation and process optimization of microbial organic copper as a feed additive

ABSTRACT As an essential trace element for animals, copper significantly contributes to the growth and health of animals. Compared to inorganic trace elements, organic trace elements are better supplements; notably, they are acquired through microbial transformation. Therefore, we screened for copper-enriched microorganisms from high copper content soil to obtain organic copper. Sodium diethyldithio carbamate trihydrate was applied as a chromogenic agent for determining micro amounts of intracellular copper through spectrophotometry. In total, 50 fungi were isolated after the successful application of the screening platform for copper-rich microbes. Following morphological and molecular biology analyses, the N-2 strain, identified as Aspergillus niger sp. demonstrated showed better copper enrichment potential than others. Notably, the strain tolerance to copper was nearly thrice that of Saccharomyces cerevisiae, up to 1600mg/L. The content of the organic bound copper was 22.84mg Cu/g dry cell. Using the Central Composite Design (CCD) response surface method, we optimized the fermentation condition (inoculation amount, 13%; temperature, 28(C; pH, 5.0). Compared to the original strain results under the single factor fermentation condition, we reported an increase by 24.18% under the optimized conditions. Collectively, these findings provide a reference for uncovering new and low-cost organic copper additives.

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Main Authors: Wei,Y.R., Wei,G.X., Wang,Z.Y., Xie,D.D., Fan,X.Y., Jia,Z.P., Zhang,J., Zhang,X.G.
Format: Digital revista
Language:English
Published: Universidade Federal de Minas Gerais, Escola de Veterinária 2021
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352021000601225
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spelling oai:scielo:S0102-093520210006012252021-11-03Preparation and process optimization of microbial organic copper as a feed additiveWei,Y.R.Wei,G.X.Wang,Z.Y.Xie,D.D.Fan,X.Y.Jia,Z.P.Zhang,J.Zhang,X.G. organic copper screening identification process optimization ABSTRACT As an essential trace element for animals, copper significantly contributes to the growth and health of animals. Compared to inorganic trace elements, organic trace elements are better supplements; notably, they are acquired through microbial transformation. Therefore, we screened for copper-enriched microorganisms from high copper content soil to obtain organic copper. Sodium diethyldithio carbamate trihydrate was applied as a chromogenic agent for determining micro amounts of intracellular copper through spectrophotometry. In total, 50 fungi were isolated after the successful application of the screening platform for copper-rich microbes. Following morphological and molecular biology analyses, the N-2 strain, identified as Aspergillus niger sp. demonstrated showed better copper enrichment potential than others. Notably, the strain tolerance to copper was nearly thrice that of Saccharomyces cerevisiae, up to 1600mg/L. The content of the organic bound copper was 22.84mg Cu/g dry cell. Using the Central Composite Design (CCD) response surface method, we optimized the fermentation condition (inoculation amount, 13%; temperature, 28(C; pH, 5.0). Compared to the original strain results under the single factor fermentation condition, we reported an increase by 24.18% under the optimized conditions. Collectively, these findings provide a reference for uncovering new and low-cost organic copper additives.info:eu-repo/semantics/openAccessUniversidade Federal de Minas Gerais, Escola de VeterináriaArquivo Brasileiro de Medicina Veterinária e Zootecnia v.73 n.5 20212021-10-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352021000601225en10.1590/1678-4162-12216
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Wei,Y.R.
Wei,G.X.
Wang,Z.Y.
Xie,D.D.
Fan,X.Y.
Jia,Z.P.
Zhang,J.
Zhang,X.G.
spellingShingle Wei,Y.R.
Wei,G.X.
Wang,Z.Y.
Xie,D.D.
Fan,X.Y.
Jia,Z.P.
Zhang,J.
Zhang,X.G.
Preparation and process optimization of microbial organic copper as a feed additive
author_facet Wei,Y.R.
Wei,G.X.
Wang,Z.Y.
Xie,D.D.
Fan,X.Y.
Jia,Z.P.
Zhang,J.
Zhang,X.G.
author_sort Wei,Y.R.
title Preparation and process optimization of microbial organic copper as a feed additive
title_short Preparation and process optimization of microbial organic copper as a feed additive
title_full Preparation and process optimization of microbial organic copper as a feed additive
title_fullStr Preparation and process optimization of microbial organic copper as a feed additive
title_full_unstemmed Preparation and process optimization of microbial organic copper as a feed additive
title_sort preparation and process optimization of microbial organic copper as a feed additive
description ABSTRACT As an essential trace element for animals, copper significantly contributes to the growth and health of animals. Compared to inorganic trace elements, organic trace elements are better supplements; notably, they are acquired through microbial transformation. Therefore, we screened for copper-enriched microorganisms from high copper content soil to obtain organic copper. Sodium diethyldithio carbamate trihydrate was applied as a chromogenic agent for determining micro amounts of intracellular copper through spectrophotometry. In total, 50 fungi were isolated after the successful application of the screening platform for copper-rich microbes. Following morphological and molecular biology analyses, the N-2 strain, identified as Aspergillus niger sp. demonstrated showed better copper enrichment potential than others. Notably, the strain tolerance to copper was nearly thrice that of Saccharomyces cerevisiae, up to 1600mg/L. The content of the organic bound copper was 22.84mg Cu/g dry cell. Using the Central Composite Design (CCD) response surface method, we optimized the fermentation condition (inoculation amount, 13%; temperature, 28(C; pH, 5.0). Compared to the original strain results under the single factor fermentation condition, we reported an increase by 24.18% under the optimized conditions. Collectively, these findings provide a reference for uncovering new and low-cost organic copper additives.
publisher Universidade Federal de Minas Gerais, Escola de Veterinária
publishDate 2021
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352021000601225
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