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Main Authors: Laporte, Daniel, Campos, Danko, Guisti, Ian, Osorio, Héctor, Maldonado, Jonathan E, González, Alberto, Moenne, Alejandra
Format: Artículo científico
Language:en
Published: Plant molecular biology 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40699372/
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author Laporte, Daniel
Campos, Danko
Guisti, Ian
Osorio, Héctor
Maldonado, Jonathan E
González, Alberto
Moenne, Alejandra
author_facet Laporte, Daniel
Campos, Danko
Guisti, Ian
Osorio, Héctor
Maldonado, Jonathan E
González, Alberto
Moenne, Alejandra
Laporte, Daniel
Campos, Danko
Guisti, Ian
Osorio, Héctor
Maldonado, Jonathan E
González, Alberto
Moenne, Alejandra
collection PubMed - marine biology
contents Oligo-carrageenan kappa and oligo-ulvans stimulate growth in Arabidopsis thaliana by increasing the expression of proteins involved in primary metabolism, phytohormones synthesis and cell division. Laporte, Daniel Campos, Danko Guisti, Ian Osorio, Héctor Maldonado, Jonathan E González, Alberto Moenne, Alejandra Arabidopsis Plant Growth Regulators Gene Expression Regulation, Plant Carrageenan Cell Division Arabidopsis Proteins Plant Leaves Plant Roots Carrageenan kappa (CK), a polysaccharide obtained from marine red algae, oligo-carragenan kappa (OCK), an oligosaccharide obtained by acid hydrolysis of CK, and oligo-ulvans (OU), an oligosaccharide obtained by acid hydrolysis of ulvans from marine green algae, were sprayed on leaves of Arabidopsis thaliana at a concentration of 1 mg mL, five times, every two days, and plants were cultivated for ten additional days. Plants treated with water (control) or with an aqueous solution of CK, OCK and OU showed an increase in fresh weight (FW) and dry weight (DW), mainly in those treated with OCK and OU. Plants treated with OCK and OU showed an increase in rosette diameter and length of the primary root, but not those treated with CK. Plants treated with OCK and OU showed an increase in the level of transcripts encoding enzymes such as rubisco, glutamine synthase and O-acetyl thiol lyase, but not those treated with CK. Plants treated with CK, OCK and OU showed an increase in transcripts encoding an enzyme involved in gibberellin A synthesis whereas plants treated with OCK and OU showed increased transcript encoding an enzyme involved in epi-brassinolide synthesis, but not those treated with CK. Plants treated with OCK and OU showed increased transcripts encoding cyclin A, cyclin D and CDPKB, which regulate the cell cycle, but not those treated with CK. Plants treated with OCK and OU showed an increase in the number of cells per leaf area and in the content of total proteins. Thus, OCK and OU better stimulate growth of A. thaliana compared to CK by increasing the expression of genes involved in primary metabolism, phytohormone synthesis and cell division and act on different cellular pathways compared with CK. Therefore, these oligosaccharides can be useful for biotechnological purposes by increasing plant growth and productivity.
format Artículo científico
id pubmed_40699372
institution PubMed
language en
publishDate 2025
publisher Plant molecular biology
record_format pubmed
spellingShingle Oligo-carrageenan kappa and oligo-ulvans stimulate growth in Arabidopsis thaliana by increasing the expression of proteins involved in primary metabolism, phytohormones synthesis and cell division.
Laporte, Daniel
Campos, Danko
Guisti, Ian
Osorio, Héctor
Maldonado, Jonathan E
González, Alberto
Moenne, Alejandra
Arabidopsis
Plant Growth Regulators
Gene Expression Regulation, Plant
Carrageenan
Cell Division
Arabidopsis Proteins
Plant Leaves
Plant Roots
Oligo-carrageenan kappa and oligo-ulvans stimulate growth in Arabidopsis thaliana by increasing the expression of proteins involved in primary metabolism, phytohormones synthesis and cell division. Laporte, Daniel Campos, Danko Guisti, Ian Osorio, Héctor Maldonado, Jonathan E González, Alberto Moenne, Alejandra Arabidopsis Plant Growth Regulators Gene Expression Regulation, Plant Carrageenan Cell Division Arabidopsis Proteins Plant Leaves Plant Roots Carrageenan kappa (CK), a polysaccharide obtained from marine red algae, oligo-carragenan kappa (OCK), an oligosaccharide obtained by acid hydrolysis of CK, and oligo-ulvans (OU), an oligosaccharide obtained by acid hydrolysis of ulvans from marine green algae, were sprayed on leaves of Arabidopsis thaliana at a concentration of 1 mg mL, five times, every two days, and plants were cultivated for ten additional days. Plants treated with water (control) or with an aqueous solution of CK, OCK and OU showed an increase in fresh weight (FW) and dry weight (DW), mainly in those treated with OCK and OU. Plants treated with OCK and OU showed an increase in rosette diameter and length of the primary root, but not those treated with CK. Plants treated with OCK and OU showed an increase in the level of transcripts encoding enzymes such as rubisco, glutamine synthase and O-acetyl thiol lyase, but not those treated with CK. Plants treated with CK, OCK and OU showed an increase in transcripts encoding an enzyme involved in gibberellin A synthesis whereas plants treated with OCK and OU showed increased transcript encoding an enzyme involved in epi-brassinolide synthesis, but not those treated with CK. Plants treated with OCK and OU showed increased transcripts encoding cyclin A, cyclin D and CDPKB, which regulate the cell cycle, but not those treated with CK. Plants treated with OCK and OU showed an increase in the number of cells per leaf area and in the content of total proteins. Thus, OCK and OU better stimulate growth of A. thaliana compared to CK by increasing the expression of genes involved in primary metabolism, phytohormone synthesis and cell division and act on different cellular pathways compared with CK. Therefore, these oligosaccharides can be useful for biotechnological purposes by increasing plant growth and productivity.
title Oligo-carrageenan kappa and oligo-ulvans stimulate growth in Arabidopsis thaliana by increasing the expression of proteins involved in primary metabolism, phytohormones synthesis and cell division.
topic Arabidopsis
Plant Growth Regulators
Gene Expression Regulation, Plant
Carrageenan
Cell Division
Arabidopsis Proteins
Plant Leaves
Plant Roots
url https://pubmed.ncbi.nlm.nih.gov/40699372/