Mingzhi Xu, Lin Li, Jianping Yan, Dayong Li, Yaling Liu, Wanjun Zhang, Yanrong Liu
{"title":"通过过表达 MIM396 来阻断 miR396 的活性,可提高开关草的分蘖数量和生物量产量。","authors":"Mingzhi Xu, Lin Li, Jianping Yan, Dayong Li, Yaling Liu, Wanjun Zhang, Yanrong Liu","doi":"10.1186/s13068-024-02514-4","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>MicroRNA396 (miR396) plays an important role in the regulation of plant growth and development by repressing the expression level of its target growth-regulating factor (GRF) family genes. In our previous study, we found that overexpression of miR396 negatively regulated both tillering and biomass yield in switchgrass (<i>Panicum virgatum</i> L.). We, therefore, speculated that blocking the expression of miR396 could enhance switchgrass tillering and biomass yield. Here, we produced transgenic switchgrass plants overexpressing a target mimicry form of miR396 (<i>MIM396</i>) in wild type (WT) and <i>Os-MIR319b</i> overexpressing switchgrass plant (with higher enzymatic hydrolysis efficiency, but reduced tillering), in which the expression of miR396 was blocked. The phenotype and biological yields of these plants were analyzed.</p><h3>Results</h3><p>Blocking miR396 to improve its target <i>PvGRFs</i> expression in switchgrass improved the tiller number and dry weight of transgenic plants. Further morphological analysis revealed that <i>MIM396</i> plants increased the number of aerial branches and basal tillers compared to those of wild-type plants. The enzymatic efficiency of <i>MIM396</i> plants was reduced; however, the total sugar production per plant was still significantly higher than that of wild-type plants due to the increase in biomass. In addition, blocking miR396 in a transgenic switchgrass plant overexpressing <i>Os-MIR319b</i> (TG21-Ms) significantly increased the <i>PvGRF1/3/5</i> expression level and tiller number and biomass yield. The miR156-target gene <i>PvSPL4</i>, playing a negative role in aerial and basal buds outgrowth, showed significant downregulated in <i>MIM396</i> and TG21-Ms. Those results indicate that miR396-<i>PvGRFs</i>, through disrupting the <i>PvSPL4</i> expression, are involved in miR319-<i>PvPCFs</i> in regulating tiller number, at least partly.</p><h3>Conclusions</h3><p><i>MIM396</i> could be used as a molecular tool to improving tiller number and biomass yield in switchgrass wild type and miR319b transgenic plants. This finding may be applied to other graminaceous plants to regulate plant biological yield.</p></div>","PeriodicalId":494,"journal":{"name":"Biotechnology for Biofuels","volume":"17 1","pages":""},"PeriodicalIF":6.1000,"publicationDate":"2024-05-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://biotechnologyforbiofuels.biomedcentral.com/counter/pdf/10.1186/s13068-024-02514-4","citationCount":"0","resultStr":"{\"title\":\"Blocking miR396 activity by overexpression MIM396 improved switchgrass tiller number and biomass yield\",\"authors\":\"Mingzhi Xu, Lin Li, Jianping Yan, Dayong Li, Yaling Liu, Wanjun Zhang, Yanrong Liu\",\"doi\":\"10.1186/s13068-024-02514-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>MicroRNA396 (miR396) plays an important role in the regulation of plant growth and development by repressing the expression level of its target growth-regulating factor (GRF) family genes. In our previous study, we found that overexpression of miR396 negatively regulated both tillering and biomass yield in switchgrass (<i>Panicum virgatum</i> L.). We, therefore, speculated that blocking the expression of miR396 could enhance switchgrass tillering and biomass yield. Here, we produced transgenic switchgrass plants overexpressing a target mimicry form of miR396 (<i>MIM396</i>) in wild type (WT) and <i>Os-MIR319b</i> overexpressing switchgrass plant (with higher enzymatic hydrolysis efficiency, but reduced tillering), in which the expression of miR396 was blocked. The phenotype and biological yields of these plants were analyzed.</p><h3>Results</h3><p>Blocking miR396 to improve its target <i>PvGRFs</i> expression in switchgrass improved the tiller number and dry weight of transgenic plants. Further morphological analysis revealed that <i>MIM396</i> plants increased the number of aerial branches and basal tillers compared to those of wild-type plants. The enzymatic efficiency of <i>MIM396</i> plants was reduced; however, the total sugar production per plant was still significantly higher than that of wild-type plants due to the increase in biomass. In addition, blocking miR396 in a transgenic switchgrass plant overexpressing <i>Os-MIR319b</i> (TG21-Ms) significantly increased the <i>PvGRF1/3/5</i> expression level and tiller number and biomass yield. The miR156-target gene <i>PvSPL4</i>, playing a negative role in aerial and basal buds outgrowth, showed significant downregulated in <i>MIM396</i> and TG21-Ms. Those results indicate that miR396-<i>PvGRFs</i>, through disrupting the <i>PvSPL4</i> expression, are involved in miR319-<i>PvPCFs</i> in regulating tiller number, at least partly.</p><h3>Conclusions</h3><p><i>MIM396</i> could be used as a molecular tool to improving tiller number and biomass yield in switchgrass wild type and miR319b transgenic plants. 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Blocking miR396 activity by overexpression MIM396 improved switchgrass tiller number and biomass yield
Background
MicroRNA396 (miR396) plays an important role in the regulation of plant growth and development by repressing the expression level of its target growth-regulating factor (GRF) family genes. In our previous study, we found that overexpression of miR396 negatively regulated both tillering and biomass yield in switchgrass (Panicum virgatum L.). We, therefore, speculated that blocking the expression of miR396 could enhance switchgrass tillering and biomass yield. Here, we produced transgenic switchgrass plants overexpressing a target mimicry form of miR396 (MIM396) in wild type (WT) and Os-MIR319b overexpressing switchgrass plant (with higher enzymatic hydrolysis efficiency, but reduced tillering), in which the expression of miR396 was blocked. The phenotype and biological yields of these plants were analyzed.
Results
Blocking miR396 to improve its target PvGRFs expression in switchgrass improved the tiller number and dry weight of transgenic plants. Further morphological analysis revealed that MIM396 plants increased the number of aerial branches and basal tillers compared to those of wild-type plants. The enzymatic efficiency of MIM396 plants was reduced; however, the total sugar production per plant was still significantly higher than that of wild-type plants due to the increase in biomass. In addition, blocking miR396 in a transgenic switchgrass plant overexpressing Os-MIR319b (TG21-Ms) significantly increased the PvGRF1/3/5 expression level and tiller number and biomass yield. The miR156-target gene PvSPL4, playing a negative role in aerial and basal buds outgrowth, showed significant downregulated in MIM396 and TG21-Ms. Those results indicate that miR396-PvGRFs, through disrupting the PvSPL4 expression, are involved in miR319-PvPCFs in regulating tiller number, at least partly.
Conclusions
MIM396 could be used as a molecular tool to improving tiller number and biomass yield in switchgrass wild type and miR319b transgenic plants. This finding may be applied to other graminaceous plants to regulate plant biological yield.
期刊介绍:
Biotechnology for Biofuels is an open access peer-reviewed journal featuring high-quality studies describing technological and operational advances in the production of biofuels, chemicals and other bioproducts. The journal emphasizes understanding and advancing the application of biotechnology and synergistic operations to improve plants and biological conversion systems for the biological production of these products from biomass, intermediates derived from biomass, or CO2, as well as upstream or downstream operations that are integral to biological conversion of biomass.
Biotechnology for Biofuels focuses on the following areas:
• Development of terrestrial plant feedstocks
• Development of algal feedstocks
• Biomass pretreatment, fractionation and extraction for biological conversion
• Enzyme engineering, production and analysis
• Bacterial genetics, physiology and metabolic engineering
• Fungal/yeast genetics, physiology and metabolic engineering
• Fermentation, biocatalytic conversion and reaction dynamics
• Biological production of chemicals and bioproducts from biomass
• Anaerobic digestion, biohydrogen and bioelectricity
• Bioprocess integration, techno-economic analysis, modelling and policy
• Life cycle assessment and environmental impact analysis
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