| Bioengineered plant-microbe interaction system comprises one genetically engineered microbial strain having genetic modifications to incorporate pollutant-degrading genes, enabling degradation of an environmental contaminant, where engineered microbes include genes for nitrogen fixation | |
| 2024-12-26 | |
| 专利权人 | ANANTH B J M (ANAN-Individual) ; DINO A A (DINO-Individual) ; SAKTHIVEL B (SAKT-Individual) ; DEVI R B (DEVI-Individual) ; DAMODAR P (DAMO-Individual) ; SOWMYA K (SOWM-Individual) ; RAJENDAR G (RAJE-Individual) ; KHATANA K (KHAT-Individual) ; SAGWAL A (SAGW-Individual) ; NARAYAN R (NARA-Individual) |
| 申请日期 | 2024-12-26 |
| 专利号 | IN202441105346-A |
| 成果简介 | NOVELTY - Bioengineered plant-microbe interaction system comprises genetically engineered microbial strain having genetic modifications to incorporate pollutant-degrading genes, enabling the degradation of an environmental contaminant. USE - Bioengineered plant-microbe interaction system for degradation of\nenvironmental pollutants. ADVANTAGE - The system, adaptable to various application methods like seed coating and soil treatments, enhances crop yields, improves soil health, and restores ecological balance, offering a scalable solution to modern agricultural and environmental challenges. The microbial strain is modified to enhance plant growth by improving nutrient uptake, increasing stress resistance, and producing biofilms for colonization stability, and the microbial strain is further engineered to produce exopolysaccharides to enhance biofilm formation and improve tolerance to abiotic stressors such as drought or salinity. The microbial inoculant is delivered via seed coating, soil application, or hydroponic nutrient solutions, designed to express inducible genes activated by specific root exudates from the target plant, and enhances soil structure and increases water retention in addition to nutrient cycling. The bioengineered plant-microbe interactions enhance plant growth, improve stress resilience, and enable environmental remediation by leveraging genetically modified microorganisms capable of nutrient cycling, pollutant degradation, and symbiotic integration with plant systems. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for method of promoting plant growth and environmental remediation, which involves: (1) applying a genetically modified microbial inoculant to the rhizosphere of a target plant, where the inoculant contains microbes engineered to overexpress nutrient assimilation and pollutant-degradation genes; and (2) facilitating microbial colonization through enhanced root-microbe interaction mechanisms. |
| IPC 分类号 | A01C-001/06 ; A01N-063/20 ; C02F-003/34 ; C05F-011/08 ; C12N-001/20 |
| 国家 | 印度 |
| 专业领域 | 化学化工 |
| 语种 | 英语 |
| 成果类型 | 专利 |
| 文献类型 | 科技成果 |
| 条目标识符 | http://119.78.100.226:8889/handle/3KE4DYBR/13799 |
| 专题 | 中国科学院新疆生态与地理研究所 |
| 作者单位 | 1.ANANTH B J M (ANAN-Individual) 2.DINO A A (DINO-Individual) 3.SAKTHIVEL B (SAKT-Individual) 4.DEVI R B (DEVI-Individual) 5.DAMODAR P (DAMO-Individual) 6.SOWMYA K (SOWM-Individual) 7.RAJENDAR G (RAJE-Individual) 8.KHATANA K (KHAT-Individual) 9.SAGWAL A (SAGW-Individual) 10.NARAYAN R (NARA-Individual) |
| 推荐引用方式 GB/T 7714 | ANANTH B J M,DINO A A,SAKTHIVEL B,et al. Bioengineered plant-microbe interaction system comprises one genetically engineered microbial strain having genetic modifications to incorporate pollutant-degrading genes, enabling degradation of an environmental contaminant, where engineered microbes include genes for nitrogen fixation. IN202441105346-A[P]. 2024. |
| 条目包含的文件 | 条目无相关文件。 | |||||
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