Enhanced accumulation of starch and total carbohydrates in alginate-immobilized Chlorella spp. induced by Azospirillum brasilense: II. Heterotrophic conditions

► Azospirillum-Chlorella interaction yielded accumulation of carbohydrates and starch under dark heterotrophic conditions. ► The use of d-glucose or Na-acetate as carbon sources yielded different amounts of accumulated carbohydrates. ► A. brasilense promotes accumulation of carbohydrates in Chlorell...

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Published inEnzyme and microbial technology Vol. 51; no. 5; pp. 300 - 309
Main Authors Choix, Francisco J., de-Bashan, Luz E., Bashan, Yoav
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 10.10.2012
Subjects
Alginates
Azospirillum
Azospirillum brasilense
Azospirillum brasilense - growth & development
Azospirillum brasilense - metabolism
bacteria
Biotechnology - methods
Carbohydrate Metabolism
Carbohydrates
carbon
Cells, Immobilized - metabolism
Chlorella
Chlorella - growth & development
Chlorella - metabolism
Chlorella vulgaris
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Coculture Techniques
Culture Media
glucose
Glucuronic Acid
Heterotrophic
Heterotrophic Processes
Hexuronic Acids
Indexing in process
microalgae
Microalgae growth-promoting bacteria
Plant growth-promoting bacteria
Starch
Starch - metabolism
Carbohydrates
Chlorella
Plant growth-promoting bacteria
Starch
Azospirillum
Microalgae growth-promoting bacteria
Heterotrophic
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Abstract ► Azospirillum-Chlorella interaction yielded accumulation of carbohydrates and starch under dark heterotrophic conditions. ► The use of d-glucose or Na-acetate as carbon sources yielded different amounts of accumulated carbohydrates. ► A. brasilense promotes accumulation of carbohydrates in Chlorella spp. under certain time–substrate combinations. ► The main production was starch. ► Azospirillum is a biological factor that can change the composition of compounds in microalgae. The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time–substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
AbstractList The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time–substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144 h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24 h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96 h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time-substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144 h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96 h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time-substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144 h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96 h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time-substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144 h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96 h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time-substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
► Azospirillum-Chlorella interaction yielded accumulation of carbohydrates and starch under dark heterotrophic conditions. ► The use of d-glucose or Na-acetate as carbon sources yielded different amounts of accumulated carbohydrates. ► A. brasilense promotes accumulation of carbohydrates in Chlorella spp. under certain time–substrate combinations. ► The main production was starch. ► Azospirillum is a biological factor that can change the composition of compounds in microalgae. The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and starch was studied under dark and heterotrophic conditions for 144h in synthetic growth medium supplemented with either d-glucose or Na-acetate as carbon sources. In all treatments, enhanced total carbohydrates and starch content per culture and per cell was obtained after 24h; only jointly immobilized C. vulgaris growing on d-glucose significantly increased total carbohydrates and starch content after 96h. Enhanced accumulation of carbohydrate and starch under jointly immobilized conditions was variable with time of sampling and substrate used. Similar results occurred when the microalgae was immobilized alone. In both microalgae growing on either carbon sources, the bacterium promoted accumulation of carbohydrates and starch; when the microalgae were immobilized alone, they used the carbon sources for cell multiplication. In jointly immobilized conditions with Chlorella spp., affinity to carbon source and volumetric productivity and yield were higher than when Chlorella spp. were immobilized alone; however, the growth rate was higher in microalgae immobilized alone. This study demonstrates that under heterotrophic conditions, A. brasilense promotes the accumulation of carbohydrates in two strains Chlorella spp. under certain time–substrate combinations, producing mainly starch. As such, this bacterium is a biological factor that can change the composition of compounds in microalgae in dark, heterotrophic conditions.
Author de-Bashan, Luz E.
Bashan, Yoav
Choix, Francisco J.
Author_xml – sequence: 1
  givenname: Francisco J.
  surname: Choix
  fullname: Choix, Francisco J.
  organization: Environmental Microbiology Group, Northwestern Center for Biological Research (CIBNOR), Av. Instituto Politecnico Nacional 195, Col. Playa Palo de Santa Rita, La Paz, B.C.S. 23096, Mexico
– sequence: 2
  givenname: Luz E.
  surname: de-Bashan
  fullname: de-Bashan, Luz E.
  organization: Environmental Microbiology Group, Northwestern Center for Biological Research (CIBNOR), Av. Instituto Politecnico Nacional 195, Col. Playa Palo de Santa Rita, La Paz, B.C.S. 23096, Mexico
– sequence: 3
  givenname: Yoav
  surname: Bashan
  fullname: Bashan, Yoav
  email: bashan@cals.arizona.edu, bashan@cibnor.mx
  organization: Environmental Microbiology Group, Northwestern Center for Biological Research (CIBNOR), Av. Instituto Politecnico Nacional 195, Col. Playa Palo de Santa Rita, La Paz, B.C.S. 23096, Mexico
BackLink https://www.ncbi.nlm.nih.gov/pubmed/22975129$$D View this record in MEDLINE/PubMed
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Issue 5
Keywords Carbohydrates
Chlorella
Plant growth-promoting bacteria
Starch
Azospirillum
Microalgae growth-promoting bacteria
Heterotrophic
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PublicationDecade 2010
PublicationPlace United States
PublicationPlace_xml – name: United States
PublicationTitle Enzyme and microbial technology
PublicationTitleAlternate Enzyme Microb Technol
PublicationYear 2012
Publisher Elsevier Inc
Publisher_xml – name: Elsevier Inc
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Snippet ► Azospirillum-Chlorella interaction yielded accumulation of carbohydrates and starch under dark heterotrophic conditions. ► The use of d-glucose or Na-acetate...
The effect of the bacterium Azospirillum brasilense jointly immobilized with Chlorella vulgaris or C. sorokiniana in alginate beads on total carbohydrates and...
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SubjectTerms Alginates
Azospirillum
Azospirillum brasilense
Azospirillum brasilense - growth & development
Azospirillum brasilense - metabolism
bacteria
Biotechnology - methods
Carbohydrate Metabolism
Carbohydrates
carbon
Cells, Immobilized - metabolism
Chlorella
Chlorella - growth & development
Chlorella - metabolism
Chlorella vulgaris
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Coculture Techniques
Culture Media
glucose
Glucuronic Acid
Heterotrophic
Heterotrophic Processes
Hexuronic Acids
Indexing in process
microalgae
Microalgae growth-promoting bacteria
Plant growth-promoting bacteria
Starch
Starch - metabolism
Title Enhanced accumulation of starch and total carbohydrates in alginate-immobilized Chlorella spp. induced by Azospirillum brasilense: II. Heterotrophic conditions
URI https://dx.doi.org/10.1016/j.enzmictec.2012.07.012
https://www.ncbi.nlm.nih.gov/pubmed/22975129
https://www.proquest.com/docview/1039887068
https://www.proquest.com/docview/1125231148
https://www.proquest.com/docview/2000064240
Volume 51
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