Microbial Metagenomics in Effluent Treatment Plant
Microbial Metagenomics in Effluent Treatment Plant
Shah, Maulin P.
Elsevier - Health Sciences Division
05/2024
365
Mole
Inglês
9780443135316
15 a 20 dias
2. Comparative Metagenomics: Study on Taxonomic Diversity, or Functional Complement
3. Study of Metagenomics Processing by Assembly Approach and Assembly-free Approach
4. Analysis of Complex Microbial Communities in Soil and Wastewater Treatment Processes
5. Contribution of Bioinformatics Software in Taxonomic Profiling
6. Extreme Environmental Conditions and their Neighboring Microbial Etymology
7. Advances in Bioinformatics and its Contribution in Metagenomics Studies
8. Gene Prediction Through Metagenomics
9. Role of Analyzing Species Diversity and Data Integration in Metagenomics Projects
10. Challenges Faced by the Industries in Microbial Bioremediation Processes
11. Significance of Bacterial Artificial Chromosomes in Molecular Cloning
12. Role of Various Technologies in Environmental Sampling
13. Importance of High-throughput Sequencing in Metagenomics Analysis
14. Met Transcriptomics: Analysis of Metagenomic mRNA
15. Response of Microbial Communities to Environmental Changes
16. Understanding the Metagenome Environment by Exploring the Neighborhood
17. Analyzing the Metagenomics Data by Function-driven Screening for an Expressed Trait, and Sequence-driven Screening for DNA Sequences of Interest
18. Application of Metagenomics in the Field of Environmental Biotechnological Commodities
19. Study of Microbial Communities in Degrading Toxic Pollutants in the Wastewater and Solid Waste Treatment Industries
2. Comparative Metagenomics: Study on Taxonomic Diversity, or Functional Complement
3. Study of Metagenomics Processing by Assembly Approach and Assembly-free Approach
4. Analysis of Complex Microbial Communities in Soil and Wastewater Treatment Processes
5. Contribution of Bioinformatics Software in Taxonomic Profiling
6. Extreme Environmental Conditions and their Neighboring Microbial Etymology
7. Advances in Bioinformatics and its Contribution in Metagenomics Studies
8. Gene Prediction Through Metagenomics
9. Role of Analyzing Species Diversity and Data Integration in Metagenomics Projects
10. Challenges Faced by the Industries in Microbial Bioremediation Processes
11. Significance of Bacterial Artificial Chromosomes in Molecular Cloning
12. Role of Various Technologies in Environmental Sampling
13. Importance of High-throughput Sequencing in Metagenomics Analysis
14. Met Transcriptomics: Analysis of Metagenomic mRNA
15. Response of Microbial Communities to Environmental Changes
16. Understanding the Metagenome Environment by Exploring the Neighborhood
17. Analyzing the Metagenomics Data by Function-driven Screening for an Expressed Trait, and Sequence-driven Screening for DNA Sequences of Interest
18. Application of Metagenomics in the Field of Environmental Biotechnological Commodities
19. Study of Microbial Communities in Degrading Toxic Pollutants in the Wastewater and Solid Waste Treatment Industries