Optimizing Synergistic Metabolism in Xenobiotic Biodegradation: Engineering a Pseudomonas Putida Based Microbial Consortium

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Author(s): Moiz Ahmed; Hamza Tariq; Fizza Haroon; Tanzila Ejaz; Maheen Tajwar
Source:
American Journal of Life Science and Innovation. 3:1-7
Subject Terms:
Advanced Techniques in Bioimage Analysis and Microscopy; Microorganism; Biophysics; Organic chemistry; Biochemistry; Engineering; Contamination; Biochemistry, Genetics and Molecular Biology; Genetics; Xenobiotic; Metabolomics; Molecular Biology; Biology; Microbial Metabolism; Chromatography; Bacteria; Ecology; Pseudomonas putida; Metabolic Engineering and Synthetic Biology; Environmental remediation; Life Sciences; Microbial consortium; Biochemical engineering; Chemistry; Computational Theory and Mathematics; Metabolic Engineering; Enzyme; FOS: Biological sciences; Computer Science; Physical Sciences; Environmental chemistry; Biodegradation; Metabolic engineering; Bioremediation; Microbial biodegradation; Computational Methods in Drug Discovery; Biotechnology
Document Type:
Article
Other literature type

Additional Information
- Publication Information:
  E-palli, 2023.
- Publication Date:
  2023
- Abstract:
  This study focuses on the engineering of a microbial consortium, incorporating Pseudomonas putida and selected members, to enhance synergistic metabolism for xenobiotic biodegradation. The aim is to explore the potential of microbial interactions in environmental remediation. The engineered consortium underwent iterative optimization to fine-tune microbial ratios. Metabolomic and transcriptomic analyses were employed to investigate metabolic interactions within the consortium. Xenobiotic biodegradation efficiency was evaluated through controlled laboratory experiments. The engineered microbial consortium exhibited a significant synergistic effect, demonstrating enhanced biodegradation capabilities compared to individual monocultures. The iterative optimization process led to a substantial increase in biodegradation efficiency. Metabolomic and transcriptomic analyses provided valuable insights into the metabolic interactions within the consortium. The study successfully engineered a microbial consortium for efficient xenobiotic biodegradation, showcasing the potential of microbial interactions in environmental remediation. The optimized consortium composition and advanced analytical techniques offer promising avenues for sustainable bioremediation practices. Further research is warranted to explore broader applications and address potential scalability challenges.
- ISSN:
  2833-1397
- Accession Number:
  10.54536/ajlsi.v3i1.2236
- Accession Number:
  10.60692/2mn46-1h260
- Accession Number:
  10.60692/cttwb-w9s63
- Rights:
  CC BY
- Accession Number:
  edsair.doi.dedup.....0d086e2b94476dda3c37e9e69843de73

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Optimizing Synergistic Metabolism in Xenobiotic Biodegradation: Engineering a Pseudomonas Putida Based Microbial Consortium

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