Hydrogen sulphide alleviates iron deficiency by promoting iron availability and plant hormone levels in Glycine max seedlings
Background Hydrogen sulphide (H 2 S) is involved in regulating physiological processes in plants. We investigated how H 2 S ameliorates iron (Fe) deficiency in soybean ( Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome meth...
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| Published in | BMC plant biology Vol. 20; no. 1; p. 383 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
BioMed Central
20.08.2020
BioMed Central Ltd BMC |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1471-2229 1471-2229 |
| DOI | 10.1186/s12870-020-02601-2 |
Cover
| Abstract | Background
Hydrogen sulphide (H
2
S) is involved in regulating physiological processes in plants. We investigated how H
2
S ameliorates iron (Fe) deficiency in soybean (
Glycine max
L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H
2
S role in regulating Fe availability in soybean seedlings.
Results
Our results showed that H
2
S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H
2
S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H
2
S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H
2
S-mediated alleviation of Fe deficiency in soybean seedlings.
Conclusion
Our results indicated that Fe deficiency was alleviated by H
2
S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. |
|---|---|
| AbstractList | Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H2S role in regulating Fe availability in soybean seedlings.BACKGROUNDHydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H2S role in regulating Fe availability in soybean seedlings.Our results showed that H2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H2S-mediated alleviation of Fe deficiency in soybean seedlings.RESULTSOur results showed that H2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H2S-mediated alleviation of Fe deficiency in soybean seedlings.Our results indicated that Fe deficiency was alleviated by H2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants.CONCLUSIONOur results indicated that Fe deficiency was alleviated by H2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Hydrogen sulphide (H.sub.2S) is involved in regulating physiological processes in plants. We investigated how H.sub.2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H.sub.2S role in regulating Fe availability in soybean seedlings. Our results showed that H.sub.2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H.sub.2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H.sub.2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H.sub.2S-mediated alleviation of Fe deficiency in soybean seedlings. Our results indicated that Fe deficiency was alleviated by H.sub.2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Background Hydrogen sulphide (H 2 S) is involved in regulating physiological processes in plants. We investigated how H 2 S ameliorates iron (Fe) deficiency in soybean ( Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H 2 S role in regulating Fe availability in soybean seedlings. Results Our results showed that H 2 S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H 2 S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H 2 S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H 2 S-mediated alleviation of Fe deficiency in soybean seedlings. Conclusion Our results indicated that Fe deficiency was alleviated by H 2 S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Background Hydrogen sulphide (H.sub.2S) is involved in regulating physiological processes in plants. We investigated how H.sub.2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H.sub.2S role in regulating Fe availability in soybean seedlings. Results Our results showed that H.sub.2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H.sub.2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H.sub.2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H.sub.2S-mediated alleviation of Fe deficiency in soybean seedlings. Conclusion Our results indicated that Fe deficiency was alleviated by H.sub.2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Keywords: Hydrogen sulphide (H.sub.2S), Iron assimilation, Iron deficiency, Organic acid, Plant hormones, Soybean (Glycine max) Hydrogen sulphide (H S) is involved in regulating physiological processes in plants. We investigated how H S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H S role in regulating Fe availability in soybean seedlings. Our results showed that H S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H S-mediated alleviation of Fe deficiency in soybean seedlings. Our results indicated that Fe deficiency was alleviated by H S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Background Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H2S role in regulating Fe availability in soybean seedlings. Results Our results showed that H2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H2S-mediated alleviation of Fe deficiency in soybean seedlings. Conclusion Our results indicated that Fe deficiency was alleviated by H2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. BACKGROUND: Hydrogen sulphide (H₂S) is involved in regulating physiological processes in plants. We investigated how H₂S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H₂S role in regulating Fe availability in soybean seedlings. RESULTS: Our results showed that H₂S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H₂S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H₂S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H₂S-mediated alleviation of Fe deficiency in soybean seedlings. CONCLUSION: Our results indicated that Fe deficiency was alleviated by H₂S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. Abstract Background Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in soybean (Glycine max L.) seedlings. Multidisciplinary approaches including physiological, biochemical and molecular, and transcriptome methods were used to investigate the H2S role in regulating Fe availability in soybean seedlings. Results Our results showed that H2S completely prevented leaf interveinal chlorosis and caused an increase in soybean seedling biomass under Fe deficiency conditions. Moreover, H2S decreased the amount of root-bound apoplastic Fe and increased the Fe content in leaves and roots by regulating the ferric-chelate reductase (FCR) activities and Fe homeostasis- and sulphur metabolism-related gene expression levels, thereby promoting photosynthesis in soybean seedlings. In addition, H2S changed the plant hormone concentrations by modulating plant hormone-related gene expression abundances in soybean seedlings grown in Fe-deficient solution. Furthermore, organic acid biosynthesis and related genes expression also played a vital role in modulating the H2S-mediated alleviation of Fe deficiency in soybean seedlings. Conclusion Our results indicated that Fe deficiency was alleviated by H2S through enhancement of Fe acquisition and assimilation, thereby regulating plant hormones and organic acid synthesis in plants. |
| ArticleNumber | 383 |
| Audience | Academic |
| Author | Lin, Xue-Yuan Pan, Qing Wei, Ge-Hong Zhang, Jian-Hua Shangguan, Zhouping Chen, Juan Zhang, Ni-Na |
| Author_xml | – sequence: 1 givenname: Juan surname: Chen fullname: Chen, Juan email: chenjuan@nwsuaf.edu.cn organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University, School of Life Sciences and State Key Laboratory of Agrobiotechnology, the Chinese University of Hong Kong – sequence: 2 givenname: Ni-Na surname: Zhang fullname: Zhang, Ni-Na organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University – sequence: 3 givenname: Qing surname: Pan fullname: Pan, Qing organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University – sequence: 4 givenname: Xue-Yuan surname: Lin fullname: Lin, Xue-Yuan organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University – sequence: 5 givenname: Zhouping surname: Shangguan fullname: Shangguan, Zhouping organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University – sequence: 6 givenname: Jian-Hua surname: Zhang fullname: Zhang, Jian-Hua organization: School of Life Sciences and State Key Laboratory of Agrobiotechnology, the Chinese University of Hong Kong, Department of Biology, Hong Kong Baptist University – sequence: 7 givenname: Ge-Hong surname: Wei fullname: Wei, Ge-Hong email: weigehong@nwsuaf.edu.cn organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Northwest A&F University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32819279$$D View this record in MEDLINE/PubMed |
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| Keywords | Hydrogen sulphide (H Iron assimilation S Organic acid ) Soybean Iron deficiency Plant hormones Hydrogen sulphide (H2S) Soybean (Glycine max) |
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| PublicationTitle | BMC plant biology |
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| PublicationTitleAlternate | BMC Plant Biol |
| PublicationYear | 2020 |
| Publisher | BioMed Central BioMed Central Ltd BMC |
| Publisher_xml | – name: BioMed Central – name: BioMed Central Ltd – name: BMC |
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| Snippet | Background
Hydrogen sulphide (H
2
S) is involved in regulating physiological processes in plants. We investigated how H
2
S ameliorates iron (Fe) deficiency in... Hydrogen sulphide (H S) is involved in regulating physiological processes in plants. We investigated how H S ameliorates iron (Fe) deficiency in soybean... Hydrogen sulphide (H.sub.2S) is involved in regulating physiological processes in plants. We investigated how H.sub.2S ameliorates iron (Fe) deficiency in... Background Hydrogen sulphide (H.sub.2S) is involved in regulating physiological processes in plants. We investigated how H.sub.2S ameliorates iron (Fe)... Background Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in... Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe) deficiency in soybean... BACKGROUND: Hydrogen sulphide (H₂S) is involved in regulating physiological processes in plants. We investigated how H₂S ameliorates iron (Fe) deficiency in... Abstract Background Hydrogen sulphide (H2S) is involved in regulating physiological processes in plants. We investigated how H2S ameliorates iron (Fe)... |
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| SubjectTerms | Agriculture Amino acids Availability Biomass Biomedical and Life Sciences Biosynthesis Chlorophyll Chlorophyll - metabolism Chlorosis EDTA ferric chelate reductases Ferric-chelate reductase Flowers & plants Gene expression Gene Expression Profiling Gene Expression Regulation, Plant Glycine max Glycine max - metabolism Homeostasis Homeostasis - genetics Hormones Hydrogen Hydrogen sulfide Hydrogen Sulfide - metabolism Hydrogen sulphide (H2S) Hypotheses Iron Iron - metabolism Iron assimilation Iron compounds Iron deficiency Leaves Life Sciences Morphology nutrient deficiencies Nutrient deficiency Organic acid Organic acids Photosynthesis Photosynthesis - genetics Photosynthesis - physiology Physiological aspects Physiology Phytohormones Plant biochemistry Plant Diseases - genetics Plant Growth Regulators - metabolism Plant hormones Plant Roots - metabolism Plant Sciences Plant-abiotic interactions Polyamines Reductases Research Article Seedlings Seedlings - metabolism Soybean (Glycine max) Soybeans Sulfides Sulfides - metabolism Sulfur Sulfur - metabolism transcriptome Tree Biology |
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| Title | Hydrogen sulphide alleviates iron deficiency by promoting iron availability and plant hormone levels in Glycine max seedlings |
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