Identification and characterization of the GmRD26 soybean promoter in response to abiotic stresses: potential tool for biotechnological application
Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate...
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| Published in | BMC biotechnology Vol. 19; no. 1; pp. 79 - 14 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
BioMed Central Ltd
20.11.2019
BioMed Central BMC |
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| Abstract | Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses.
This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the β-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment.
The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. |
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| AbstractList | Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses.
This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the β-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment.
The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses. Results This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the β-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment. Conclusions The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses. This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the [beta]-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment. The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Abstract Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses. Results This study aimed to identify and characterize the GmRD26 promoter (p GmRD26 ), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of p GmRD26 :: GUS (2.054 bp) and two promoter modules, p GmRD26A :: GUS (909 pb) and p GmRD26B :: GUS (435 bp), controlling the expression of the β-glucuronidase ( uidA ) gene. Analysis of GUS activity has demonstrated that p GmRD26 and p GmRD26A induce strong reporter gene expression, as the p AtRD29 positive control promoter under ABA and PEG treatment. Conclusions The full-length promoter p GmRD26 and the p GmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that p GmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Abstract Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses. Results This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the β-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment. Conclusions The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently, considerable losses in the agricultural sector. When plants are exposed to stressful conditions, such as drought and high salinity, they modulate the expression of genes that lead to developmental, biochemical, and physiological changes, which help to overcome the deleterious effects of adverse circumstances. Thus, the search for new specific gene promoter sequences has proved to be a powerful biotechnological strategy to control the expression of key genes involved in water deprivation or multiple stress responses. Results This study aimed to identify and characterize the GmRD26 promoter (pGmRD26), which is involved in the regulation of plant responses to drought stress. The expression profile of the GmRD26 gene was investigated by qRT-PCR under normal and stress conditions in Williams 82, BR16 and Embrapa48 soybean-cultivars. Our data confirm that GmRD26 is induced under water deficit with different induction folds between analyzed cultivars, which display different genetic background and physiological behaviour under drought. The characterization of the GmRD26 promoter was performed under simulated stress conditions with abscisic acid (ABA), polyethylene glycol (PEG) and drought (air dry) on A. thaliana plants containing the complete construct of pGmRD26::GUS (2.054 bp) and two promoter modules, pGmRD26A::GUS (909 pb) and pGmRD26B::GUS (435 bp), controlling the expression of the [beta]-glucuronidase (uidA) gene. Analysis of GUS activity has demonstrated that pGmRD26 and pGmRD26A induce strong reporter gene expression, as the pAtRD29 positive control promoter under ABA and PEG treatment. Conclusions The full-length promoter pGmRD26 and the pGmRD26A module provides an improved uidA transcription capacity when compared with the other promoter module, especially in response to polyethylene glycol and drought treatments. These data indicate that pGmRD26A may become a promising biotechnological asset with potential use in the development of modified drought-tolerant plants or other plants designed for stress responses. Keywords: Stress-responsive promoter, Drought tolerance, Abscisic acid, Promoter modules analysis, Gene-promoter characterization |
| ArticleNumber | 79 |
| Audience | Academic |
| Author | Melo, Bruno P Freitas, Elinea O Lisei-de-Sá, Maria E Arraes, Fabrício B M Morgante, Carolina V Amorim, Regina M Fontes, Elizabeth P B Costa, Julia A Ferreira, Márcio A Leite, Ana G B Faheem, Muhammad Lourenço-Tessutti, Isabela T Grossi-de-Sa, Maria F |
| Author_xml | – sequence: 1 givenname: Elinea O surname: Freitas fullname: Freitas, Elinea O organization: Federal University of Brasília, Brasília, DF, Brazil – sequence: 2 givenname: Bruno P surname: Melo fullname: Melo, Bruno P organization: Federal University of Viçosa, Viçosa, MG, Brazil – sequence: 3 givenname: Isabela T surname: Lourenço-Tessutti fullname: Lourenço-Tessutti, Isabela T organization: Embrapa Genetic Resources and Biotechnology, Brasília, DF, Brazil – sequence: 4 givenname: Fabrício B M surname: Arraes fullname: Arraes, Fabrício B M organization: Federal University of Rio Grande do Sul, Porto Alegre, RS, Brazil – sequence: 5 givenname: Regina M surname: Amorim fullname: Amorim, Regina M organization: Embrapa Genetic Resources and Biotechnology, Brasília, DF, Brazil – sequence: 6 givenname: Maria E orcidid: 0000-0002-2710-1368 surname: Lisei-de-Sá fullname: Lisei-de-Sá, Maria E organization: Agricultural Research Company of Minas Gerais State, Uberaba, MG, Brazil – sequence: 7 givenname: Julia A surname: Costa fullname: Costa, Julia A organization: Catholic University of Brasilia - Post-Graduation Program in Genomic Sciences and Biotechnology, Brasília, DF, Brazil – sequence: 8 givenname: Ana G B surname: Leite fullname: Leite, Ana G B organization: Federal University of Brasília, Brasília, DF, Brazil – sequence: 9 givenname: Muhammad surname: Faheem fullname: Faheem, Muhammad organization: National University of Medical Sciences, Rawalpindi, Punjab, Pakistan – sequence: 10 givenname: Márcio A surname: Ferreira fullname: Ferreira, Márcio A organization: Federal University of Rio de Janeiro, Rio Janeiro, RJ, Brazil – sequence: 11 givenname: Carolina V surname: Morgante fullname: Morgante, Carolina V organization: Embrapa Semi-Arid, Petrolina, PE, Brazil – sequence: 12 givenname: Elizabeth P B surname: Fontes fullname: Fontes, Elizabeth P B organization: Federal University of Viçosa, Viçosa, MG, Brazil – sequence: 13 givenname: Maria F surname: Grossi-de-Sa fullname: Grossi-de-Sa, Maria F email: mariafatimagrossidesa@gmail.com, mariafatimagrossidesa@gmail.com organization: Catholic University of Brasilia - Post-Graduation Program in Genomic Sciences and Biotechnology, Brasília, DF, Brazil. mariafatimagrossidesa@gmail.com |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31747926$$D View this record in MEDLINE/PubMed |
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| Keywords | Abscisic acid Stress-responsive promoter Promoter modules analysis Drought tolerance Gene-promoter characterization |
| Language | English |
| License | Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. |
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| Snippet | Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and, consequently,... Abstract Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops... Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops and,... Abstract Background Drought is one of the most harmful abiotic stresses for plants, leading to reduced productivity of several economically important crops... |
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| SubjectTerms | Abiotic stress Abscisic acid Abscisic Acid - pharmacology Agricultural industry Agronomy Amino acids Arabidopsis thaliana Biochemistry Biotechnology - methods Cultivars Displays (Marketing) Drought Drought resistance Drought tolerance Droughts Gene expression Gene Expression Regulation, Plant - drug effects Gene Expression Regulation, Plant - genetics Gene sequencing Gene-promoter characterization Genes Genetic research Genomes Genomics Glycine max - drug effects Glycine max - genetics Glycols (Class of compounds) Lead Modules Phylogenetics Physiological aspects Physiological effects Physiology Plant hormones Polyethylene glycol Polyols Production management Promoter modules analysis Promoter Regions, Genetic - drug effects Promoter Regions, Genetic - genetics Promoters (Genetics) Reporter gene Salinity Senescence Signal transduction Soybeans Stress response Stress, Physiological - genetics Stress, Physiological - physiology Stress-responsive promoter Stresses Transcription Transcription factors Water deficit Water deprivation |
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| Title | Identification and characterization of the GmRD26 soybean promoter in response to abiotic stresses: potential tool for biotechnological application |
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