Sucrose utilization during somatic embryo development in black spruce: involvement of apoplastic invertase in the tissue and of extracellular invertase in the medium

The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce ( Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv act...

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Published inJournal of plant physiology Vol. 162; no. 1; pp. 115 - 124
Main Authors Iraqi, Driss, Quy Le, Van, Lamhamedi, Mohammed S., Tremblay, Francine M.
Format Journal Article
LanguageEnglish
Published Jena Elsevier GmbH 01.01.2005
Elsevier
Elsevier Science Ltd
Subjects
beta-fructofuranosidase
beta-Fructofuranosidase - metabolism
bioaccumulation
Biological and medical sciences
Black spruce
Carbohydrates
culture media
drug effects
Embryo development
embryology
Embryos
enzyme activity
enzymology
forest trees
Fructose
Fructose - metabolism
Fundamental and applied biological sciences. Psychology
Glucose
Glucose - metabolism
Glucosyltransferases
Glucosyltransferases - metabolism
growth & development
hexoses
hydrolysis
Invertase
metabolism
pharmacology
Picea
Picea - drug effects
Picea - embryology
Picea - enzymology
Picea mariana
Plant physiology and development
Plant Proteins
plant tissues
Radioactivity
Seeds
Seeds - drug effects
Seeds - growth & development
Seeds - metabolism
somatic embryogenesis
somatic embryos
starch
Starch - metabolism
sucrose
Sucrose - metabolism
Sucrose - pharmacology
sucrose synthase
Sucrose utilization
Tissue cultures, protoplasts
Tissues
Sucrose utilization
Embryo development
Black spruce
Invertase
Enzyme
Starch
Transferases
β-Fructofuranosidase
Glycosyltransferases
Cell wall
Somatic embryo
Glycosidases
Gymnospermae
Development
Hydrolases
Coniferales
Hexosyltransferases
Spermatophyta
Carbohydrate
Sucrose synthase
O-Glycosidases
Picea mariana
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Abstract The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce ( Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv activity and amount in embryogenic tissues. This was accompanied by a decrease in the hexose pool that resulted in a lower starch deposition and protein amount in embryogenic tissues together with a lower embryo production. Conversely, SuSy activity was stable during maturation regardless of the sucrose concentration used in the medium. The presence of an extracellular enzyme responsible for sucrose hydrolysis in the maturation medium was also verified. An immunodetection experiment with anti-acid invertase antibodies revealed the presence of an active 53 kDa polypeptide in the medium, which had a similar molecular mass to that of the Ap Inv polypeptide found in embryogenic tissues. Utilization of sucrose from the medium by the tissues was also studied using labelled 14C-sucrose. Distribution of the radioactivity between tissular sucrose, glucose, and fructose showed that sucrose was diffused into the cell wall of embryogenic tissues and partly hydrolyzed by Ap Inv. These results show that the utilization of sucrose from the medium, the Ap Inv activity in embryogenic tissues, and the release of an active invertase into the medium operate together for the utilization of the carbohydrates during somatic embryo development in black spruce.
AbstractList The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce (Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv activity and amount in embryogenic tissues. This was accompanied by a decrease in the hexose pool that resulted in a lower starch deposition and protein amount in embryogenic tissues together with a lower embryo production. Conversely, SuSy activity was stable during maturation regardless of the sucrose concentration used in the medium. The presence of an extracellular enzyme responsible for sucrose hydrolysis in the maturation medium was also verified. An immunodetection experiment with anti-acid invertase antibodies revealed the presence of an active 53 kDa polypeptide in the medium, which had a similar molecular mass to that of the Ap Inv polypeptide found in embryogenic tissues. Utilization of sucrose from the medium by the tissues was also studied using labelled 14C-sucrose. Distribution of the radioactivity between tissular sucrose, glucose, and fructose showed that sucrose was diffused into the cell wall of embryogenic tissues and partly hydrolyzed by Ap Inv. These results show that the utilization of sucrose from the medium, the Ap Inv activity in embryogenic tissues, and the release of an active invertase into the medium operate together for the utilization of the carbohydrates during somatic embryo development in black spruce.
The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce ( Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv activity and amount in embryogenic tissues. This was accompanied by a decrease in the hexose pool that resulted in a lower starch deposition and protein amount in embryogenic tissues together with a lower embryo production. Conversely, SuSy activity was stable during maturation regardless of the sucrose concentration used in the medium. The presence of an extracellular enzyme responsible for sucrose hydrolysis in the maturation medium was also verified. An immunodetection experiment with anti-acid invertase antibodies revealed the presence of an active 53 kDa polypeptide in the medium, which had a similar molecular mass to that of the Ap Inv polypeptide found in embryogenic tissues. Utilization of sucrose from the medium by the tissues was also studied using labelled 14C-sucrose. Distribution of the radioactivity between tissular sucrose, glucose, and fructose showed that sucrose was diffused into the cell wall of embryogenic tissues and partly hydrolyzed by Ap Inv. These results show that the utilization of sucrose from the medium, the Ap Inv activity in embryogenic tissues, and the release of an active invertase into the medium operate together for the utilization of the carbohydrates during somatic embryo development in black spruce.
The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce (Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv activity and amount in embryogenic tissues. This was accompanied by a decrease in the hexose pool that resulted in a lower starch deposition and protein amount in embryogenic tissues together with a lower embryo production. Conversely, SuSy activity was stable during maturation regardless of the sucrose concentration used in the medium. The presence of an extracellular enzyme responsible for sucrose hydrolysis in the maturation medium was also verified. An immunodetection experiment with anti-acid invertase antibodies revealed the presence of an active 53 kDa polypeptide in the medium, which had a similar molecular mass to that of the Ap Inv polypeptide found in embryogenic tissues. Utilization of sucrose from the medium by the tissues was also studied using labelled 14C-sucrose. Distribution of the radioactivity between tissular sucrose, glucose, and fructose showed that sucrose was diffused into the cell wall of embryogenic tissues and partly hydrolyzed by Ap Inv. These results show that the utilization of sucrose from the medium, the Ap Inv activity in embryogenic tissues, and the release of an active invertase into the medium operate together for the utilization of the carbohydrates during somatic embryo development in black spruce.The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce (Picea mariana) was investigated under different maturation conditions. Replacing 6% sucrose with 3% or 1% sucrose in the maturation medium drastically decreased Ap Inv activity and amount in embryogenic tissues. This was accompanied by a decrease in the hexose pool that resulted in a lower starch deposition and protein amount in embryogenic tissues together with a lower embryo production. Conversely, SuSy activity was stable during maturation regardless of the sucrose concentration used in the medium. The presence of an extracellular enzyme responsible for sucrose hydrolysis in the maturation medium was also verified. An immunodetection experiment with anti-acid invertase antibodies revealed the presence of an active 53 kDa polypeptide in the medium, which had a similar molecular mass to that of the Ap Inv polypeptide found in embryogenic tissues. Utilization of sucrose from the medium by the tissues was also studied using labelled 14C-sucrose. Distribution of the radioactivity between tissular sucrose, glucose, and fructose showed that sucrose was diffused into the cell wall of embryogenic tissues and partly hydrolyzed by Ap Inv. These results show that the utilization of sucrose from the medium, the Ap Inv activity in embryogenic tissues, and the release of an active invertase into the medium operate together for the utilization of the carbohydrates during somatic embryo development in black spruce.
Author Quy Le, Van
Iraqi, Driss
Lamhamedi, Mohammed S.
Tremblay, Francine M.
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Issue 1
Keywords Sucrose utilization
Embryo development
Black spruce
Invertase
Enzyme
Starch
Transferases
β-Fructofuranosidase
Glycosyltransferases
Cell wall
Somatic embryo
Glycosidases
Gymnospermae
Development
Hydrolases
Coniferales
Hexosyltransferases
Spermatophyta
Carbohydrate
Sucrose synthase
O-Glycosidases
Picea mariana
Language English
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Snippet The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce ( Picea mariana) was...
The involvement of apoplastic invertase (Ap Inv) and sucrose synthase (SuSy) in the somatic embryo development of black spruce (Picea mariana) was investigated...
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SubjectTerms beta-fructofuranosidase
beta-Fructofuranosidase - metabolism
bioaccumulation
Biological and medical sciences
Black spruce
Carbohydrates
culture media
drug effects
Embryo development
embryology
Embryos
enzyme activity
enzymology
forest trees
Fructose
Fructose - metabolism
Fundamental and applied biological sciences. Psychology
Glucose
Glucose - metabolism
Glucosyltransferases
Glucosyltransferases - metabolism
growth & development
hexoses
hydrolysis
Invertase
metabolism
pharmacology
Picea
Picea - drug effects
Picea - embryology
Picea - enzymology
Picea mariana
Plant physiology and development
Plant Proteins
plant tissues
Radioactivity
Seeds
Seeds - drug effects
Seeds - growth & development
Seeds - metabolism
somatic embryogenesis
somatic embryos
starch
Starch - metabolism
sucrose
Sucrose - metabolism
Sucrose - pharmacology
sucrose synthase
Sucrose utilization
Tissue cultures, protoplasts
Tissues
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Title Sucrose utilization during somatic embryo development in black spruce: involvement of apoplastic invertase in the tissue and of extracellular invertase in the medium
URI https://dx.doi.org/10.1016/j.jplph.2003.06.001
https://www.ncbi.nlm.nih.gov/pubmed/15700426
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Volume 162
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