Increase in isoflavonoid content in Glycine max cells transformed by the constitutively active Ca2+ independent form of the AtCPK1 gene

Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses and is involved in the regulation of secondary metabolite biosynthesis. Our previous study showed that overexpression of the mutant constitu...

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Published inPhytochemistry (Oxford) Vol. 157; pp. 111 - 120
Main Authors Veremeichik, G.N., Grigorchuk, V.P., Silanteva, S.A., Shkryl, Y.N., Bulgakov, D.V., Brodovskaya, E.V., Bulgakov, V.P.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2019
Subjects
Calcium-dependent protein kinase
Callus culture
Glycine max
Isoflavones aglycones
Isoflavonoids
Leguminosae
Metabolic engineering
Prenylated isoflavonoids
Callus culture
Calcium-dependent protein kinase
Leguminosae
Prenylated isoflavonoids
Metabolic engineering
Isoflavonoids
Glycine max
Isoflavones aglycones
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Abstract Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses and is involved in the regulation of secondary metabolite biosynthesis. Our previous study showed that overexpression of the mutant constitutively active Ca2+ independent form of the AtCPK1 gene (AtCPK1-Ca) significantly increased the biosynthesis of anthraquinones and stilbenes in Rubia cordifolia L. and Vitis amurensis Rupr. transgenic cell cultures, respectively. Here, we have established transgenic calli of soybean plants Glycine max (L.) Merr. that express the AtCPK1-Ca gene. Heterologous expression of the AtCPK1-Ca gene provoked a 5.2-fold increase in total isoflavone production up to 208.09 mg/L, along with an increase in isoflavone aglycones production up to 6.60 mg/L, which is 3-fold greater than that of the control culture. The production of prenylated isoflavones significantly increased, reaching 3.78 mg/L, 13-fold higher than in the control culture. The expression levels of 4-coumarate:CoA ligases, isoflavone synthases, 2-hydroxyisoflavanone dehydratase, isoflavone dimethylallyltransferase, and coumestrol 4-dimethylallyltransferase genes in transgenic cell cultures significantly increased. Thus, heterologous expression of the AtCPK1-Ca gene can be used to bioengineer plant cell cultures that produce isoflavonoids. [Display omitted] •Overexpression of AtCPK1-Ca increased isoflavonoid biosynthesis in transgenic calli of G. max.•Expression of AtCPK1-Ca increased total isoflavone, aglycone and prenylated isoflavone production.•Branch-point gene expression of isoflavonoid biosynthetic pathways increased in transgenic callus cultures.•Overexpression of AtCPK1-Ca could be used in bioengineering of leguminous plants.
AbstractList Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses and is involved in the regulation of secondary metabolite biosynthesis. Our previous study showed that overexpression of the mutant constitutively active Ca2+ independent form of the AtCPK1 gene (AtCPK1-Ca) significantly increased the biosynthesis of anthraquinones and stilbenes in Rubia cordifolia L. and Vitis amurensis Rupr. transgenic cell cultures, respectively. Here, we have established transgenic calli of soybean plants Glycine max (L.) Merr. that express the AtCPK1-Ca gene. Heterologous expression of the AtCPK1-Ca gene provoked a 5.2-fold increase in total isoflavone production up to 208.09 mg/L, along with an increase in isoflavone aglycones production up to 6.60 mg/L, which is 3-fold greater than that of the control culture. The production of prenylated isoflavones significantly increased, reaching 3.78 mg/L, 13-fold higher than in the control culture. The expression levels of 4-coumarate:CoA ligases, isoflavone synthases, 2-hydroxyisoflavanone dehydratase, isoflavone dimethylallyltransferase, and coumestrol 4-dimethylallyltransferase genes in transgenic cell cultures significantly increased. Thus, heterologous expression of the AtCPK1-Ca gene can be used to bioengineer plant cell cultures that produce isoflavonoids.
Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses and is involved in the regulation of secondary metabolite biosynthesis. Our previous study showed that overexpression of the mutant constitutively active Ca2+ independent form of the AtCPK1 gene (AtCPK1-Ca) significantly increased the biosynthesis of anthraquinones and stilbenes in Rubia cordifolia L. and Vitis amurensis Rupr. transgenic cell cultures, respectively. Here, we have established transgenic calli of soybean plants Glycine max (L.) Merr. that express the AtCPK1-Ca gene. Heterologous expression of the AtCPK1-Ca gene provoked a 5.2-fold increase in total isoflavone production up to 208.09 mg/L, along with an increase in isoflavone aglycones production up to 6.60 mg/L, which is 3-fold greater than that of the control culture. The production of prenylated isoflavones significantly increased, reaching 3.78 mg/L, 13-fold higher than in the control culture. The expression levels of 4-coumarate:CoA ligases, isoflavone synthases, 2-hydroxyisoflavanone dehydratase, isoflavone dimethylallyltransferase, and coumestrol 4-dimethylallyltransferase genes in transgenic cell cultures significantly increased. Thus, heterologous expression of the AtCPK1-Ca gene can be used to bioengineer plant cell cultures that produce isoflavonoids. [Display omitted] •Overexpression of AtCPK1-Ca increased isoflavonoid biosynthesis in transgenic calli of G. max.•Expression of AtCPK1-Ca increased total isoflavone, aglycone and prenylated isoflavone production.•Branch-point gene expression of isoflavonoid biosynthetic pathways increased in transgenic callus cultures.•Overexpression of AtCPK1-Ca could be used in bioengineering of leguminous plants.
Author Veremeichik, G.N.
Shkryl, Y.N.
Silanteva, S.A.
Bulgakov, D.V.
Bulgakov, V.P.
Brodovskaya, E.V.
Grigorchuk, V.P.
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Keywords Callus culture
Calcium-dependent protein kinase
Leguminosae
Prenylated isoflavonoids
Metabolic engineering
Isoflavonoids
Glycine max
Isoflavones aglycones
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Snippet Calcium-dependent protein kinases (CDPKs) represent a class within a multigene family that plays an important role in biotic and abiotic plant stress responses...
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SubjectTerms Calcium-dependent protein kinase
Callus culture
Glycine max
Isoflavones aglycones
Isoflavonoids
Leguminosae
Metabolic engineering
Prenylated isoflavonoids
Title Increase in isoflavonoid content in Glycine max cells transformed by the constitutively active Ca2+ independent form of the AtCPK1 gene
URI https://dx.doi.org/10.1016/j.phytochem.2018.10.023
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