Effect of the Interaction between Elevated Carbon Dioxide and Iron Limitation on Proteomic Profiling of Soybean

Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol−1) an...

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Published inInternational journal of molecular sciences Vol. 23; no. 21; p. 13632
Main Authors Soares, José C., Osório, Hugo, Pintado, Manuela, Vasconcelos, Marta W.
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 07.11.2022
MDPI
Subjects
Bioavailability
Biomass
Carbon dioxide
Carbon Dioxide - metabolism
Cell cycle
Enzymes
Fabaceae - metabolism
Flowers & plants
Gene expression
Glycine max - metabolism
Iron - metabolism
Metabolism
Metabolites
Photosynthesis
Plant growth
Plant Leaves - metabolism
Protein synthesis
Proteins
Proteomics
Soybeans
Sugars - metabolism
soybean
proteomic profiling
iron limitation
elevated CO2
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Abstract Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol−1) and eCO2 (800 μmol mol−1) in hydroponic solutions. Elevated CO2 increased biomass from 2.14 to 3.14 g plant−1 and from 1.18 to 2.91 g plant−1 under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW−1 in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW−1 of Fe-limited plants after exposure to eCO2. In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW−1 and from 34.80 to 46.70 μmol g FW−1 in Fe-sufficient and Fe-limited conditions, respectively, under eCO2. However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO2, at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO2 and negatively impacted soybean production.
AbstractList Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol-1) and eCO2 (800 μmol mol-1) in hydroponic solutions. Elevated CO2 increased biomass from 2.14 to 3.14 g plant-1 and from 1.18 to 2.91 g plant-1 under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW-1 in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW-1 of Fe-limited plants after exposure to eCO2. In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW-1 and from 34.80 to 46.70 μmol g FW-1 in Fe-sufficient and Fe-limited conditions, respectively, under eCO2. However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO2, at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO2 and negatively impacted soybean production.Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol-1) and eCO2 (800 μmol mol-1) in hydroponic solutions. Elevated CO2 increased biomass from 2.14 to 3.14 g plant-1 and from 1.18 to 2.91 g plant-1 under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW-1 in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW-1 of Fe-limited plants after exposure to eCO2. In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW-1 and from 34.80 to 46.70 μmol g FW-1 in Fe-sufficient and Fe-limited conditions, respectively, under eCO2. However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO2, at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO2 and negatively impacted soybean production.
Elevated atmospheric CO (eCO ) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol ) and eCO (800 μmol mol ) in hydroponic solutions. Elevated CO increased biomass from 2.14 to 3.14 g plant and from 1.18 to 2.91 g plant under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW of Fe-limited plants after exposure to eCO . In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW and from 34.80 to 46.70 μmol g FW in Fe-sufficient and Fe-limited conditions, respectively, under eCO . However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO , at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO and negatively impacted soybean production.
Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol−1) and eCO2 (800 μmol mol−1) in hydroponic solutions. Elevated CO2 increased biomass from 2.14 to 3.14 g plant−1 and from 1.18 to 2.91 g plant−1 under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW−1 in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW−1 of Fe-limited plants after exposure to eCO2. In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW−1 and from 34.80 to 46.70 μmol g FW−1 in Fe-sufficient and Fe-limited conditions, respectively, under eCO2. However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO2, at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO2 and negatively impacted soybean production.
Elevated atmospheric CO 2 (eCO 2 ) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In this study, soybean plants treated under Fe-limited (0.5 mM) and Fe-sufficient (20 mM) conditions were grown at ambient (400 μmol mol −1 ) and eCO 2 (800 μmol mol −1 ) in hydroponic solutions. Elevated CO 2 increased biomass from 2.14 to 3.14 g plant −1 and from 1.18 to 2.91 g plant −1 under Fe-sufficient and Fe-limited conditions, respectively, but did not affect leaf photosynthesis. Sugar concentration increased from 10.92 to 26.17 μmol g FW −1 in roots of Fe-sufficient plants and from 8.75 to 19.89 μmol g FW −1 of Fe-limited plants after exposure to eCO 2 . In leaves, sugar concentration increased from 33.62 to 52.22 μmol g FW −1 and from 34.80 to 46.70 μmol g FW −1 in Fe-sufficient and Fe-limited conditions, respectively, under eCO 2 . However, Fe-limitation decreases photosynthesis and biomass. Pathway enrichment analysis showed that cell wall organization, glutathione metabolism, photosynthesis, stress-related proteins, and biosynthesis of secondary compounds changed in root tissues to cope with Fe-stress. Moreover, under eCO 2 , at sufficient or limited Fe supply, it was shown an increase in the abundance of proteins involved in glycolysis, starch and sucrose metabolism, biosynthesis of plant hormones gibberellins, and decreased levels of protein biosynthesis. Our results revealed that proteins and metabolic pathways related to Fe-limitation changed the effects of eCO 2 and negatively impacted soybean production.
Author Vasconcelos, Marta W.
Osório, Hugo
Pintado, Manuela
Soares, José C.
AuthorAffiliation 3 Ipatimup—Institute of Molecular Pathology and Immunology of the University of Porto, University of Porto, 4200-135 Porto, Portugal
1 CBQF—Centro de Biotecnologia e Química Fina—Laboratório Associado, Escola Superior de Biotecnologia, Universidade Católica Portuguesa, Rua Diogo Botelho 1327, 4169-005 Porto, Portugal
2 i3S—Instituto de Investigação e Inovação em Saúde, Universidade do Porto, 4200-135 Porto, Portugal
AuthorAffiliation_xml – name: 3 Ipatimup—Institute of Molecular Pathology and Immunology of the University of Porto, University of Porto, 4200-135 Porto, Portugal
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/36362418$$D View this record in MEDLINE/PubMed
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Keywords soybean
proteomic profiling
iron limitation
elevated CO2
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Snippet Elevated atmospheric CO2 (eCO2) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants....
Elevated atmospheric CO (eCO ) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop plants. In...
Elevated atmospheric CO 2 (eCO 2 ) and iron (Fe) availability are important factors affecting plant growth that may impact the proteomic profile of crop...
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StartPage 13632
SubjectTerms Bioavailability
Biomass
Carbon dioxide
Carbon Dioxide - metabolism
Cell cycle
Enzymes
Fabaceae - metabolism
Flowers & plants
Gene expression
Glycine max - metabolism
Iron - metabolism
Metabolism
Metabolites
Photosynthesis
Plant growth
Plant Leaves - metabolism
Protein synthesis
Proteins
Proteomics
Soybeans
Sugars - metabolism
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Title Effect of the Interaction between Elevated Carbon Dioxide and Iron Limitation on Proteomic Profiling of Soybean
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Volume 23
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