Cargando…
Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination
Traditional rice landraces are treasures for novel genes to develop climate-resilient cultivars. Seed viability and germination determine rice productivity under moisture stress. The present study evaluated 100 rice genotypes, including 85 traditional landraces and 15 improved cultivars from various...
| Autores principales: | , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
MDPI
2022
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8955497/ https://www.ncbi.nlm.nih.gov/pubmed/35336657 http://dx.doi.org/10.3390/plants11060775 |
| _version_ | 1784676350401970176 |
|---|---|
| author | Binodh, Asish Kanakaraj Thankappan, Sugitha Ravichandran, Anupriya Mitra, Debasis Alagarsamy, Senthil Panneerselvam, Periyasamy Senapati, Ansuman Sami, Rokayya Al-Mushhin, Amina A. M. Aljahani, Amani H. Alyamani, Amal Alqurashi, Mohammed |
| author_facet | Binodh, Asish Kanakaraj Thankappan, Sugitha Ravichandran, Anupriya Mitra, Debasis Alagarsamy, Senthil Panneerselvam, Periyasamy Senapati, Ansuman Sami, Rokayya Al-Mushhin, Amina A. M. Aljahani, Amani H. Alyamani, Amal Alqurashi, Mohammed |
| author_sort | Binodh, Asish Kanakaraj |
| collection | PubMed |
| description | Traditional rice landraces are treasures for novel genes to develop climate-resilient cultivars. Seed viability and germination determine rice productivity under moisture stress. The present study evaluated 100 rice genotypes, including 85 traditional landraces and 15 improved cultivars from various agro-ecological zones of Tamil Nadu, along with moisture-stress-susceptible (IR 64) and moisture-stress-tolerant (IR 64 Drt1) checks. The landraces were screened over a range of osmotic potentials, namely (−) 1.0 MPa, (−) 1.25 MPa and (−) 1.5 MPa, for a period of 5 days in PEG-induced moisture stress. Physio-morphological traits, such as rate of germination, root and shoot length, vigor index, R/S ratio and relative water content (RWC), were assessed during early moisture stress at the maximum OP of (−) 1.5 MPa. The seed macromolecules, phytohormones (giberellic acid, auxin (IAA), cytokinin and abscisic acid), osmolytes and enzymatic antioxidants (catalase and superoxide dismutase) varied significantly between moisture stress and control treatments. The genotype Kuliyadichan registered more IAA and giberellic acid (44% and 35%, respectively, over moisture-stress-tolerant check (IR 64 Drt1), whereas all the landraces showed an elevated catalase activity, thus indicating that the tolerant landraces effectively eliminate oxidative damages. High-performance liquid chromatography analysis showed a reduction in cytokinin and an increase in ABA level under induced moisture stress. Hence, the inherent moisture-stress tolerance of six traditional landraces, such as Kuliyadichan, Rajalakshmi, Sahbhagi Dhan, Nootripathu, Chandaikar and Mallikar, was associated with metabolic responses, such as activation of hydrolytic enzymes, hormonal crosstalk, ROS signaling and antioxidant enzymes (especially catalase), when compared to the susceptible check, IR 64. Hence, these traditional rice landraces can serve as potential donors for introgression or pyramiding moisture-stress-tolerance traits toward developing climate-resilient rice cultivars. |
| format | Online Article Text |
| id | pubmed-8955497 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| publisher | MDPI |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-89554972022-03-26 Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination Binodh, Asish Kanakaraj Thankappan, Sugitha Ravichandran, Anupriya Mitra, Debasis Alagarsamy, Senthil Panneerselvam, Periyasamy Senapati, Ansuman Sami, Rokayya Al-Mushhin, Amina A. M. Aljahani, Amani H. Alyamani, Amal Alqurashi, Mohammed Plants (Basel) Article Traditional rice landraces are treasures for novel genes to develop climate-resilient cultivars. Seed viability and germination determine rice productivity under moisture stress. The present study evaluated 100 rice genotypes, including 85 traditional landraces and 15 improved cultivars from various agro-ecological zones of Tamil Nadu, along with moisture-stress-susceptible (IR 64) and moisture-stress-tolerant (IR 64 Drt1) checks. The landraces were screened over a range of osmotic potentials, namely (−) 1.0 MPa, (−) 1.25 MPa and (−) 1.5 MPa, for a period of 5 days in PEG-induced moisture stress. Physio-morphological traits, such as rate of germination, root and shoot length, vigor index, R/S ratio and relative water content (RWC), were assessed during early moisture stress at the maximum OP of (−) 1.5 MPa. The seed macromolecules, phytohormones (giberellic acid, auxin (IAA), cytokinin and abscisic acid), osmolytes and enzymatic antioxidants (catalase and superoxide dismutase) varied significantly between moisture stress and control treatments. The genotype Kuliyadichan registered more IAA and giberellic acid (44% and 35%, respectively, over moisture-stress-tolerant check (IR 64 Drt1), whereas all the landraces showed an elevated catalase activity, thus indicating that the tolerant landraces effectively eliminate oxidative damages. High-performance liquid chromatography analysis showed a reduction in cytokinin and an increase in ABA level under induced moisture stress. Hence, the inherent moisture-stress tolerance of six traditional landraces, such as Kuliyadichan, Rajalakshmi, Sahbhagi Dhan, Nootripathu, Chandaikar and Mallikar, was associated with metabolic responses, such as activation of hydrolytic enzymes, hormonal crosstalk, ROS signaling and antioxidant enzymes (especially catalase), when compared to the susceptible check, IR 64. Hence, these traditional rice landraces can serve as potential donors for introgression or pyramiding moisture-stress-tolerance traits toward developing climate-resilient rice cultivars. MDPI 2022-03-14 /pmc/articles/PMC8955497/ /pubmed/35336657 http://dx.doi.org/10.3390/plants11060775 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). |
| spellingShingle | Article Binodh, Asish Kanakaraj Thankappan, Sugitha Ravichandran, Anupriya Mitra, Debasis Alagarsamy, Senthil Panneerselvam, Periyasamy Senapati, Ansuman Sami, Rokayya Al-Mushhin, Amina A. M. Aljahani, Amani H. Alyamani, Amal Alqurashi, Mohammed Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title | Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title_full | Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title_fullStr | Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title_full_unstemmed | Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title_short | Synergistic Modulation of Seed Metabolites and Enzymatic Antioxidants Tweaks Moisture Stress Tolerance in Non-Cultivated Traditional Rice Genotypes during Germination |
| title_sort | synergistic modulation of seed metabolites and enzymatic antioxidants tweaks moisture stress tolerance in non-cultivated traditional rice genotypes during germination |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8955497/ https://www.ncbi.nlm.nih.gov/pubmed/35336657 http://dx.doi.org/10.3390/plants11060775 |
| work_keys_str_mv | AT binodhasishkanakaraj synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT thankappansugitha synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT ravichandrananupriya synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT mitradebasis synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT alagarsamysenthil synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT panneerselvamperiyasamy synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT senapatiansuman synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT samirokayya synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT almushhinaminaam synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT aljahaniamanih synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT alyamaniamal synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination AT alqurashimohammed synergisticmodulationofseedmetabolitesandenzymaticantioxidantstweaksmoisturestresstoleranceinnoncultivatedtraditionalricegenotypesduringgermination |