Sesamum indicum Oleosin L improves oil packaging in Nicotiana benthamiana leaves
Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in...
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| Published in | Plant direct Vol. 5; no. 9; pp. e343 - n/a |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
John Wiley & Sons, Inc
01.09.2021
John Wiley and Sons Inc Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2475-4455 2475-4455 |
| DOI | 10.1002/pld3.343 |
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| Abstract | Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3‐fold when we co‐expressed Sesamum indicum Oleosin L with AtWRI1 and AtDGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. |
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| AbstractList | Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3‐fold when we co‐expressed Sesamum indicum Oleosin L with AtWRI1 and AtDGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3‐fold when we co‐expressed Sesamum indicum Oleosin L with At WRI1 and At DGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. Abstract Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3‐fold when we co‐expressed Sesamum indicum Oleosin L with AtWRI1 and AtDGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in leaf tissue. We observed further increases in leaf oil content of up to 2.3-fold when we co-expressed Oleosin L with WRI1 and DGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3-fold when we co-expressed Sesamum indicum Oleosin L with AtWRI1 and AtDGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets.Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with elevated oil content. We recently showed that the expression of Arabidopsis thaliana WRI1 and DGAT1 genes increase oil content by up to 15% in leaf dry weight tissue. However, triacylglycerols in leaf tissue are subject to degradation during senescence. In order to better package the oil, we expressed a series of lipid droplet proteins isolated from bacterial and plant sources in Nicotiana benthamiana leaf tissue. We observed further increases in leaf oil content of up to 2.3-fold when we co-expressed Sesamum indicum Oleosin L with AtWRI1 and AtDGAT1. Biochemical assays and lipid droplet visualization with confocal microscopy confirmed the increase in oil content and revealed a significant change in the size and abundance of lipid droplets. |
| Author | Petrie, James R. Yee, Suyan Vanhercke, Thomas Shrestha, Pushkar Singh, Surinder P. Rolland, Vivien Ma, Lina Reynolds, Kyle B. El Tahchy, Anna |
| AuthorAffiliation | 1 Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food Acton ACT Australia 2 Research School of Biology The Australian National University Canberra ACT Australia |
| AuthorAffiliation_xml | – name: 1 Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food Acton ACT Australia – name: 2 Research School of Biology The Australian National University Canberra ACT Australia |
| Author_xml | – sequence: 1 givenname: Suyan orcidid: 0000-0001-5196-7500 surname: Yee fullname: Yee, Suyan email: suyan.yee@anu.edu.au organization: The Australian National University – sequence: 2 givenname: Vivien orcidid: 0000-0002-9232-1287 surname: Rolland fullname: Rolland, Vivien email: vivien.rolland@csiro.au organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 3 givenname: Kyle B. surname: Reynolds fullname: Reynolds, Kyle B. organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 4 givenname: Pushkar orcidid: 0000-0001-9642-6636 surname: Shrestha fullname: Shrestha, Pushkar organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 5 givenname: Lina surname: Ma fullname: Ma, Lina organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 6 givenname: Surinder P. surname: Singh fullname: Singh, Surinder P. organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 7 givenname: Thomas surname: Vanhercke fullname: Vanhercke, Thomas organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 8 givenname: James R. surname: Petrie fullname: Petrie, James R. organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food – sequence: 9 givenname: Anna orcidid: 0000-0002-5480-7059 surname: El Tahchy fullname: El Tahchy, Anna organization: Commonwealth Scientific and Industrial Research Organisation, Agriculture and Food |
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| CitedBy_id | crossref_primary_10_1111_pbi_13943 crossref_primary_10_1021_acs_jafc_4c03614 crossref_primary_10_3390_plants14050814 crossref_primary_10_1007_s00299_023_03066_x crossref_primary_10_1007_s00299_024_03390_w crossref_primary_10_1016_j_algal_2023_103253 crossref_primary_10_1111_nph_19548 crossref_primary_10_1016_j_ijbiomac_2024_136273 crossref_primary_10_1080_21655979_2022_2051856 |
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| Copyright | 2021 The Commonwealth Scientific and Industrial Research Organisation. published by American Society of Plant Biologists and the Society for Experimental Biology and John Wiley & Sons Ltd. 2021 The Commonwealth Scientific and Industrial Research Organisation. Plant Direct published by American Society of Plant Biologists and the Society for Experimental Biology and John Wiley & Sons Ltd. 2021. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| Keywords | Nicotiana benthamiana oleosin triacylglycerol storage leaf oil lipid biosynthesis oil increase lipid droplet protein |
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| Snippet | Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass plants with... Abstract Plant oil production has been increasing continuously in the past decade. There has been significant investment in the production of high biomass... |
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| SubjectTerms | Arabidopsis thaliana Biodegradation biomass Biosynthesis Cloning Confocal microscopy droplets Genes leaf dry mass leaf oil Leaves lipid biosynthesis lipid content lipid droplet protein Lipids Metabolism Nicotiana benthamiana Oil oil increase Oleosin Original Research plant fats and oils Plasmids Proteins Seeds Senescence Sesamum indicum triacylglycerol storage triacylglycerols |
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| Title | Sesamum indicum Oleosin L improves oil packaging in Nicotiana benthamiana leaves |
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