Andrea Jiménez-Leiva, Raquel A Juárez-Martos, Juan J Cabrera, María J Torres, Socorro Mesa, María J Delgado
{"title":"RegSR 对大豆内生菌 Bradyrhizobium diazoefficiens 中一氧化氮还原的双重氧响应控制。","authors":"Andrea Jiménez-Leiva, Raquel A Juárez-Martos, Juan J Cabrera, María J Torres, Socorro Mesa, María J Delgado","doi":"10.1089/ars.2024.0710","DOIUrl":null,"url":null,"abstract":"<p><p><b><i>Aims:</i></b> To investigate the role of the RegSR-NifA regulatory cascade in the oxygen control of nitric oxide (NO) reduction in the soybean endosymbiont <i>Bradyrhizobium diazoefficiens</i>. <b><i>Results:</i></b> We have performed an integrated study of <i>norCBQD</i> expression and NO reductase activity in <i>regR</i>, <i>regS</i><sub>1</sub>, <i>regS</i><sub>2</sub>, <i>regS</i><sub>1/2</sub>, and <i>nifA</i> mutants in response to microoxia (2% O<sub>2</sub>) or anoxia. An activating role of RegR and NifA was observed under anoxia. In contrast, under microaerobic conditions, RegR acts as a repressor by binding to a RegR box located between the -10 and -35 regions within the <i>norCBQD</i> promoter. In addition, both RegS<sub>1</sub> and RegS<sub>2</sub> sensors cooperated with RegR in repressing <i>norCBQD</i> genes. <b><i>Innovation:</i></b> NO is a reactive gas that, at high levels, acts as a potent inhibitor of symbiotic nitrogen fixation. In this paper, we report new insights into the regulation of NO reductase, the major enzyme involved in NO removal in rhizobia. This knowledge will be crucial for the development of new strategies and management practices in agriculture, in particular, for improving legume production. <b><i>Conclusion:</i></b> Our results demonstrate, for the first time, a dual control of the RegSR two-component regulatory system on <i>norCBQD</i> genes control in response to oxygen levels. <i>Antioxid. Redox Signal.</i> 42, 408-420.</p>","PeriodicalId":8011,"journal":{"name":"Antioxidants & redox signaling","volume":" ","pages":"408-420"},"PeriodicalIF":5.9000,"publicationDate":"2025-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Dual Oxygen-Responsive Control by RegSR of Nitric Oxide Reduction in the Soybean Endosymbiont <i>Bradyrhizobium diazoefficiens</i>.\",\"authors\":\"Andrea Jiménez-Leiva, Raquel A Juárez-Martos, Juan J Cabrera, María J Torres, Socorro Mesa, María J Delgado\",\"doi\":\"10.1089/ars.2024.0710\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p><b><i>Aims:</i></b> To investigate the role of the RegSR-NifA regulatory cascade in the oxygen control of nitric oxide (NO) reduction in the soybean endosymbiont <i>Bradyrhizobium diazoefficiens</i>. <b><i>Results:</i></b> We have performed an integrated study of <i>norCBQD</i> expression and NO reductase activity in <i>regR</i>, <i>regS</i><sub>1</sub>, <i>regS</i><sub>2</sub>, <i>regS</i><sub>1/2</sub>, and <i>nifA</i> mutants in response to microoxia (2% O<sub>2</sub>) or anoxia. An activating role of RegR and NifA was observed under anoxia. In contrast, under microaerobic conditions, RegR acts as a repressor by binding to a RegR box located between the -10 and -35 regions within the <i>norCBQD</i> promoter. In addition, both RegS<sub>1</sub> and RegS<sub>2</sub> sensors cooperated with RegR in repressing <i>norCBQD</i> genes. <b><i>Innovation:</i></b> NO is a reactive gas that, at high levels, acts as a potent inhibitor of symbiotic nitrogen fixation. In this paper, we report new insights into the regulation of NO reductase, the major enzyme involved in NO removal in rhizobia. This knowledge will be crucial for the development of new strategies and management practices in agriculture, in particular, for improving legume production. <b><i>Conclusion:</i></b> Our results demonstrate, for the first time, a dual control of the RegSR two-component regulatory system on <i>norCBQD</i> genes control in response to oxygen levels. <i>Antioxid. 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Dual Oxygen-Responsive Control by RegSR of Nitric Oxide Reduction in the Soybean Endosymbiont Bradyrhizobium diazoefficiens.
Aims: To investigate the role of the RegSR-NifA regulatory cascade in the oxygen control of nitric oxide (NO) reduction in the soybean endosymbiont Bradyrhizobium diazoefficiens. Results: We have performed an integrated study of norCBQD expression and NO reductase activity in regR, regS1, regS2, regS1/2, and nifA mutants in response to microoxia (2% O2) or anoxia. An activating role of RegR and NifA was observed under anoxia. In contrast, under microaerobic conditions, RegR acts as a repressor by binding to a RegR box located between the -10 and -35 regions within the norCBQD promoter. In addition, both RegS1 and RegS2 sensors cooperated with RegR in repressing norCBQD genes. Innovation: NO is a reactive gas that, at high levels, acts as a potent inhibitor of symbiotic nitrogen fixation. In this paper, we report new insights into the regulation of NO reductase, the major enzyme involved in NO removal in rhizobia. This knowledge will be crucial for the development of new strategies and management practices in agriculture, in particular, for improving legume production. Conclusion: Our results demonstrate, for the first time, a dual control of the RegSR two-component regulatory system on norCBQD genes control in response to oxygen levels. Antioxid. Redox Signal. 42, 408-420.
期刊介绍:
Antioxidants & Redox Signaling (ARS) is the leading peer-reviewed journal dedicated to understanding the vital impact of oxygen and oxidation-reduction (redox) processes on human health and disease. The Journal explores key issues in genetic, pharmaceutical, and nutritional redox-based therapeutics. Cutting-edge research focuses on structural biology, stem cells, regenerative medicine, epigenetics, imaging, clinical outcomes, and preventive and therapeutic nutrition, among other areas.
ARS has expanded to create two unique foci within one journal: ARS Discoveries and ARS Therapeutics. ARS Discoveries (24 issues) publishes the highest-caliber breakthroughs in basic and applied research. ARS Therapeutics (12 issues) is the first publication of its kind that will help enhance the entire field of redox biology by showcasing the potential of redox sciences to change health outcomes.
ARS coverage includes:
-ROS/RNS as messengers
-Gaseous signal transducers
-Hypoxia and tissue oxygenation
-microRNA
-Prokaryotic systems
-Lessons from plant biology
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