Enhanced activity of ADP glucose pyrophosphorylase and formation of starch induced by Azospirillum brasilense in Chlorella vulgaris

•Azospirillum brasilense increased activity of AGPase in Chlorella vulgaris under heterotrophic conditions.•This yielded a higher quantity of starch in the microalgae–bacteria interaction.•Either with sufficient or starvation conditions of nitrogen or phosphorus, C. vulgaris responded similarly to A...

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Published inJournal of biotechnology Vol. 177; pp. 22 - 34
Main Authors Choix, Francisco J., Bashan, Yoav, Mendoza, Alberto, de-Bashan, Luz E.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 10.05.2014
Subjects
adenosine diphosphate
AGPase
Algal Proteins - metabolism
Alginates - metabolism
Azospirillum
Azospirillum brasilense
Azospirillum brasilense - growth & development
Azospirillum brasilense - metabolism
bacteria
biosynthesis
Biotechnology - methods
carbon
Cells, Immobilized - metabolism
Chlorella
Chlorella vulgaris
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Coculture Techniques
Culture Media - chemistry
enzyme activity
freshwater
glucose
Glucose - metabolism
glucose-1-phosphate adenylyltransferase
Glucose-1-Phosphate Adenylyltransferase - metabolism
Heterotrophy
microalgae
Microalgae growth-promoting bacteria
nitrogen
phosphorus
Sodium Acetate - metabolism
starch
Starch - metabolism
starvation
AGPase
Microalgae growth-promoting bacteria
Chlorella
Heterotrophy
Azospirillum
Online AccessGet full text
ISSN0168-1656
1873-4863
1873-4863
DOI10.1016/j.jbiotec.2014.02.014

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Abstract •Azospirillum brasilense increased activity of AGPase in Chlorella vulgaris under heterotrophic conditions.•This yielded a higher quantity of starch in the microalgae–bacteria interaction.•Either with sufficient or starvation conditions of nitrogen or phosphorus, C. vulgaris responded similarly to A. brasilense.•Using either d-glucose or sodium acetate as carbon sources yields similar effects.•Under conditions of starvation of nitrogen or phosphorus, A. brasilense reduces nutrient stress for C. vulgaris and increases its cell density. ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium Azospirillum brasilense on AGPase activity in the freshwater microalga Chlorella vulgaris and formation of starch. This was done by immobilizing both microorganisms in alginate beads, either replete with or deprived of nitrogen or phosphorus and all under heterotrophic conditions, using d-glucose or Na-acetate as the carbon source. AGPase activity during the first 72h of incubation was higher in C. vulgaris when immobilized with A. brasilense. This happened simultaneously with higher starch accumulation and higher carbon uptake by the microalgae. Either carbon source had similar effects on enzyme activity and starch accumulation. Starvation either by N or P had the same pattern on AGPase activity and starch accumulation. Under replete conditions, the population of C. vulgaris immobilized alone was higher than when immobilized together, but under starvation conditions A. brasilense induced a larger population of C. vulgaris. In summary, adding A. brasilense enhanced AGPase activity, starch formation, and mitigation of stress in C. vulgaris.
AbstractList ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium Azospirillum brasilense on AGPase activity in the freshwater microalga Chlorella vulgaris and formation of starch. This was done by immobilizing both microorganisms in alginate beads, either replete with or deprived of nitrogen or phosphorus and all under heterotrophic conditions, using d-glucose or Na-acetate as the carbon source. AGPase activity during the first 72h of incubation was higher in C. vulgaris when immobilized with A. brasilense. This happened simultaneously with higher starch accumulation and higher carbon uptake by the microalgae. Either carbon source had similar effects on enzyme activity and starch accumulation. Starvation either by N or P had the same pattern on AGPase activity and starch accumulation. Under replete conditions, the population of C. vulgaris immobilized alone was higher than when immobilized together, but under starvation conditions A. brasilense induced a larger population of C. vulgaris. In summary, adding A. brasilense enhanced AGPase activity, starch formation, and mitigation of stress in C. vulgaris.
ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium Azospirillum brasilense on AGPase activity in the freshwater microalga Chlorella vulgaris and formation of starch. This was done by immobilizing both microorganisms in alginate beads, either replete with or deprived of nitrogen or phosphorus and all under heterotrophic conditions, using d-glucose or Na-acetate as the carbon source. AGPase activity during the first 72h of incubation was higher in C. vulgaris when immobilized with A. brasilense. This happened simultaneously with higher starch accumulation and higher carbon uptake by the microalgae. Either carbon source had similar effects on enzyme activity and starch accumulation. Starvation either by N or P had the same pattern on AGPase activity and starch accumulation. Under replete conditions, the population of C. vulgaris immobilized alone was higher than when immobilized together, but under starvation conditions A. brasilense induced a larger population of C. vulgaris. In summary, adding A. brasilense enhanced AGPase activity, starch formation, and mitigation of stress in C. vulgaris.ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium Azospirillum brasilense on AGPase activity in the freshwater microalga Chlorella vulgaris and formation of starch. This was done by immobilizing both microorganisms in alginate beads, either replete with or deprived of nitrogen or phosphorus and all under heterotrophic conditions, using d-glucose or Na-acetate as the carbon source. AGPase activity during the first 72h of incubation was higher in C. vulgaris when immobilized with A. brasilense. This happened simultaneously with higher starch accumulation and higher carbon uptake by the microalgae. Either carbon source had similar effects on enzyme activity and starch accumulation. Starvation either by N or P had the same pattern on AGPase activity and starch accumulation. Under replete conditions, the population of C. vulgaris immobilized alone was higher than when immobilized together, but under starvation conditions A. brasilense induced a larger population of C. vulgaris. In summary, adding A. brasilense enhanced AGPase activity, starch formation, and mitigation of stress in C. vulgaris.
•Azospirillum brasilense increased activity of AGPase in Chlorella vulgaris under heterotrophic conditions.•This yielded a higher quantity of starch in the microalgae–bacteria interaction.•Either with sufficient or starvation conditions of nitrogen or phosphorus, C. vulgaris responded similarly to A. brasilense.•Using either d-glucose or sodium acetate as carbon sources yields similar effects.•Under conditions of starvation of nitrogen or phosphorus, A. brasilense reduces nutrient stress for C. vulgaris and increases its cell density. ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium Azospirillum brasilense on AGPase activity in the freshwater microalga Chlorella vulgaris and formation of starch. This was done by immobilizing both microorganisms in alginate beads, either replete with or deprived of nitrogen or phosphorus and all under heterotrophic conditions, using d-glucose or Na-acetate as the carbon source. AGPase activity during the first 72h of incubation was higher in C. vulgaris when immobilized with A. brasilense. This happened simultaneously with higher starch accumulation and higher carbon uptake by the microalgae. Either carbon source had similar effects on enzyme activity and starch accumulation. Starvation either by N or P had the same pattern on AGPase activity and starch accumulation. Under replete conditions, the population of C. vulgaris immobilized alone was higher than when immobilized together, but under starvation conditions A. brasilense induced a larger population of C. vulgaris. In summary, adding A. brasilense enhanced AGPase activity, starch formation, and mitigation of stress in C. vulgaris.
Author de-Bashan, Luz E.
Bashan, Yoav
Mendoza, Alberto
Choix, Francisco J.
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  surname: Bashan
  fullname: Bashan, Yoav
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  organization: Environmental Microbiology Group, Northwestern Center for Biological Research (CIBNOR), Av. Instituto Politécnico Nacional 195, Col. Playa Palo de Santa Rita Sur, La Paz, B.C.S. 23096, Mexico
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Keywords AGPase
Microalgae growth-promoting bacteria
Chlorella
Heterotrophy
Azospirillum
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Snippet •Azospirillum brasilense increased activity of AGPase in Chlorella vulgaris under heterotrophic conditions.•This yielded a higher quantity of starch in the...
ADP-glucose pyrophosphorylase (AGPase) regulates starch biosynthesis in higher plants and microalgae. This study measured the effect of the bacterium...
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SubjectTerms adenosine diphosphate
AGPase
Algal Proteins - metabolism
Alginates - metabolism
Azospirillum
Azospirillum brasilense
Azospirillum brasilense - growth & development
Azospirillum brasilense - metabolism
bacteria
biosynthesis
Biotechnology - methods
carbon
Cells, Immobilized - metabolism
Chlorella
Chlorella vulgaris
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Coculture Techniques
Culture Media - chemistry
enzyme activity
freshwater
glucose
Glucose - metabolism
glucose-1-phosphate adenylyltransferase
Glucose-1-Phosphate Adenylyltransferase - metabolism
Heterotrophy
microalgae
Microalgae growth-promoting bacteria
nitrogen
phosphorus
Sodium Acetate - metabolism
starch
Starch - metabolism
starvation
Title Enhanced activity of ADP glucose pyrophosphorylase and formation of starch induced by Azospirillum brasilense in Chlorella vulgaris
URI https://dx.doi.org/10.1016/j.jbiotec.2014.02.014
https://www.ncbi.nlm.nih.gov/pubmed/24576433
https://www.proquest.com/docview/1514425205
https://www.proquest.com/docview/2000141690
Volume 177
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